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Morphology of Chinese population of 
<taxonomicName id="AFF54D415347266FDD5C52C04BE9FEC1" ID-CoL="3BGLZ" authority="Foissner, Agatha and Berger, 2002" authorityName="Foissner, Agatha and Berger" authorityYear="2002" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="4" pageNumber="73" phylum="Ciliophora" rank="species" species="lugeri">
<emphasis id="5A81EAD05347266FDD5C52C04829FEC1" bold="true" italics="true" pageId="4" pageNumber="73">Eschaneustyla lugeri</emphasis>
<bibRefCitation id="0C644B335347266FDE2D531C4BE9FEC1" author="Foissner W. &amp; Agatha S. &amp; Berger H." box="[268,707,258,284]" pageId="4" pageNumber="73" pagination="1 - 1459" refId="ref6486" refString="Foissner W., Agatha S., Berger H. (2002) Soil ciliates (Protozoa, Ciliophora) from Namibia (Southwest Africa), with emphasis on two contrasting environments, the Etosha region and the Namib desert. Part I: Text and line drawings. Part II: Photographs. Denisia 5: 1 - 1459" type="journal article" year="2002">Foissner, Agatha and Berger, 2002</bibRefCitation>
</taxonomicName>
(
<figureCitation id="F0CE2A475347266FDDF4531C49E6FEE2" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Figs 1C–E</figureCitation>
, 
<figureCitation id="F0CE2A475347266FDFF8533B480EFEE2" box="[217,292,293,319]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">2A–C</figureCitation>
; 
<tableCitation id="257703795347266FDE10533B48A6FEE2" box="[305,396,293,319]" captionStart="Table 1" captionStartId="5.[125,181,223,244]" captionTargetBox="[123,1410,276,1908]" captionTargetPageId="5" captionText="Table 1. Morphometric data on Eschaneustyla terricola (te) and Eschaneustyla lugeri (lu), after protagol impregnation." httpUri="http://table.plazi.org/id/3C8A664A5346266EDF5C52C14DD2FF28" pageId="4" pageNumber="73" tableUuid="3C8A664A5346266EDF5C52C14DD2FF28">Table 1</tableCitation>
)
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<paragraph id="684A36C25347266FDF8B53414AF2FE30" blockId="4.[132,779,351,1530]" lastBlockId="4.[816,1463,224,493]" pageId="4" pageNumber="73">
Body outline elongate elliptical and often slightly sigmoidal with anterior end broadly rounded and posterior end narrowly rounded, very flexible but not contractile, size 
<emphasis id="5A81EAD05347266FDE0253D6485DFE3C" box="[291,375,456,481]" italics="true" pageId="4" pageNumber="73">in vivo</emphasis>
about 200 × 60 μm. Contractile vacuole at left body margin slightly ahead of mid-body (
<figureCitation id="F0CE2A475347266FDFAD5013483EFDF5" box="[140,276,525,552]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">Figs 2A, B</figureCitation>
). Cortical granules were failed to observe during living observation, but globular extrusomes were found after protargol impregnation. Extrusomes arranged around cirri and dorsal bristles, and irregularly scattered (
<figureCitation id="F0CE2A475347266FDE1D508748B1FD6E" box="[316,411,665,691]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">Fig. 2C</figureCitation>
). Cytoplasm colorless, without conspicuous inclusions (
<figureCitation id="F0CE2A475347266FDE8850A24B19FD0A" box="[425,563,700,727]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">Figs 2A, B</figureCitation>
). Nuclear apparatus occupying whole cell body, composed of 97–149 macronuclear nodules and three to 11 micronuclei (
<figureCitation id="F0CE2A475347266FDFAC513B49C3FCE2" box="[141,233,805,831]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1E</figureCitation>
). Cirral pattern and number of cirri of highly variability. AZM with 47–74 membranelles of ordinary composition, occupies 20%–37%, on average 28% of body length (DE-value on average 0.42). 25–43 frontal cirri form distinct short rows composed of 4 or 5 cirri each, except the leftmost one that composed of only two cirri. Paroral and endoral intersect optically after protargol impregnation. Usually three or four buccal cirri right of mid-portion of paroral (
<figureCitation id="F0CE2A475347266FDD4656224BECFB8B" box="[615,710,1084,1110]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1D</figureCitation>
). The majority of the specimens observed have one long, slightly oblique midventral row (as shown in 
<figureCitation id="F0CE2A475347266FDD81569C4BD6FB41" box="[672,764,1154,1180]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1D</figureCitation>
). However, a small number of specimens (about 
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<specimenCount id="7EF3FD4B5347266FDDCC56BB49D4FB3F" count="60" pageId="4" pageNumber="73" type="generic">60 specimens</specimenCount>
observed) have a cirral pattern composed of two long midventral rows: the left one (midventral row 1 = MV1) and the right one (midventral row 2 = MV2) (
<figureCitation id="F0CE2A475347266FDFAC572F49C6FA96" box="[141,236,1329,1355]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1C</figureCitation>
). The length of MV2 could be as similar to that of MV1, or rather short. MV2 could commence at the same level as frontoterminal row, or slightly behind anterior end of frontoterminal row, or at around onethird of body length (
<figureCitation id="F0CE2A475347266FDEA557A248CBFA0A" box="[388,481,1468,1495]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1C</figureCitation>
). Specimen on the lower right in 
<figureCitation id="F0CE2A475347266FDFFE57C1481DFA27" box="[223,311,1503,1530]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1C</figureCitation>
shows a rather special cirral pattern that MV2 terminates near rear body end as frontoterminal row in other specimens, whereas frontoterminal row terminates quite ahead. One left and one right marginal row, left row distinctly curved rightwards anteriorly; transverse cirri absent (
<figureCitation id="F0CE2A475347266FDB6653744D8CFE58" box="[1095,1190,362,389]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1D</figureCitation>
). Usually four rows of dorsal kineties, each with one to three, thus totally seven to 11 caudal cirri (
<figureCitation id="F0CE2A475347266FDB0853AE4DAEFE17" box="[1065,1156,432,458]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1E</figureCitation>
). Length of dorsal bristles is about 5 μm.
</paragraph>
<paragraph id="684A36C25347266FDC11501A4AAFFD9C" blockId="4.[816,1463,516,577]" pageId="4" pageNumber="73">
<heading id="330281AE5347266FDC11501A4AAFFD9C" centered="true" fontSize="11" level="2" pageId="4" pageNumber="73" reason="5">
<emphasis id="5A81EAD05347266FDC11501A4AAFFD9C" bold="true" pageId="4" pageNumber="73">
Morphogenesis in 
<taxonomicName id="AFF54D415347266FDB3B501A4C36FDC2" ID-CoL="3BGLZ" authorityName="Foissner, Agatha and Berger" authorityYear="2002" box="[1050,1308,516,543]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="4" pageNumber="73" phylum="Ciliophora" rank="species" species="lugeri">
<emphasis id="5A81EAD05347266FDB3B501A4C36FDC2" bold="true" box="[1050,1308,516,543]" italics="true" pageId="4" pageNumber="73">Eschaneustyla lugeri</emphasis>
</taxonomicName>
(
<figureCitation id="F0CE2A475347266FDA0C501A4C9AFDC3" box="[1325,1456,516,542]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Figs 1F–L</figureCitation>
, 
<figureCitation id="F0CE2A475347266FDC1150394A57FD9C" box="[816,893,551,577]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">2F–M</figureCitation>
)
</emphasis>
</heading>
</paragraph>
<paragraph id="684A36C25347266FDC7750444C0EFB42" blockId="4.[816,1463,601,1530]" pageId="4" pageNumber="73">
<emphasis id="5A81EAD05347266FDC7750444D3EFDA9" box="[854,1044,602,628]" italics="true" pageId="4" pageNumber="73">Stomatogenesis.</emphasis>
In the proter, the oral primordium commences in deep of the cortex independently, at around the proximal portion of AZM. Undulating membranes anlage that develops on the surface found to the right of oral primordium at the same time (
<figureCitation id="F0CE2A475347266FDA1150FA4C9BFD23" box="[1328,1457,740,766]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Figs 1F, G</figureCitation>
; 
<figureCitation id="F0CE2A475347266FDC1151194A72FCFC" box="[816,856,775,801]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">2G</figureCitation>
). Specimen in 
<figureCitation id="F0CE2A475347266FDB2451194D75FCFC" box="[1029,1119,775,801]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">Fig. 2G</figureCitation>
somewhat twisted at anterior portion, thus the undulating membranes anlage presented to the left of the oral primordium. Parental undulating membranes not observed in this stage, we speculate that it disorganized into undulating membranes anlage. Parental buccal cirri might be absorbed in earlier stage due to their absence in this stage. Stomatogenesis of the opisthe commences with the proliferation of basal bodies around and on the left of midventral row 1, in which posterior cirri gradually absorbed (parental cirri become smaller without any sign of disaggregation, thus absorption is supposed) (
<figureCitation id="F0CE2A475347266FDBAC569A4DCDFB42" box="[1165,1255,1156,1183]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Figs 1F</figureCitation>
, 
<figureCitation id="F0CE2A475347266FDBD5569B4C3DFB42" box="[1268,1303,1157,1183]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">2F</figureCitation>
).
</paragraph>
<paragraph id="684A36C25347266FDC7756B94C5BFA27" blockId="4.[816,1463,601,1530]" pageId="4" pageNumber="73">
The proter’s oral primordium subsequently moves to the proximal end of AZM and develops in the shape of a round concavity. The central part still remains in the depth of the cortex while the surrounding portion gradually migrates to the surface (
<figureCitation id="F0CE2A475347266FDBE5572C4C0BFA91" box="[1220,1313,1330,1356]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1H</figureCitation>
). Basal bodies then move along the left margin of AZM and engage in the renewal of membranelles with dissolving of parental membranelles (
<figureCitation id="F0CE2A475347266FDB1557844DADFA69" box="[1076,1159,1434,1460]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Fig. 1I</figureCitation>
). Undulating membranes anlage elongates anteriorly and connects with the oral primordium at the posterior end (
<figureCitation id="F0CE2A475347266FDB9457C14C05FA27" box="[1205,1327,1503,1530]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="4" pageNumber="73">Figs 1H, I</figureCitation>
; 
<figureCitation id="F0CE2A475347266FDA1D57FE4C4EFA27" box="[1340,1380,1504,1530]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73">2H</figureCitation>
).
</paragraph>
<caption id="3C8A664A5347266FDFA554614DB6F84C" ID-DOI="http://doi.org/10.5281/zenodo.11093767" ID-Zenodo-Dep="11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="4" pageNumber="73" startId="4.[132,167,1663,1685]" targetBox="[125,1463,294,1901]" targetPageId="3" targetType="figure">
<paragraph id="684A36C25347266FDFA554614DB6F84C" blockId="4.[132,1464,1663,1937]" pageId="4" pageNumber="73">
<emphasis id="5A81EAD05347266FDFA5546149E9F949" bold="true" box="[132,195,1663,1685]" pageId="4" pageNumber="73">Fig. 2.</emphasis>
Photomicrographs of 
<taxonomicName id="AFF54D415347266FDEB754614B75F949" authorityName="Foissner, Agatha and Berger" authorityYear="2002" box="[406,607,1663,1684]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="4" pageNumber="73" phylum="Ciliophora" rank="species" species="lugeri">
<emphasis id="5A81EAD05347266FDEB754614B75F949" box="[406,607,1663,1684]" italics="true" pageId="4" pageNumber="73">Eschaneustyla lugeri</emphasis>
</taxonomicName>
<emphasis id="5A81EAD05347266FDD4454614B8BF948" bold="true" box="[613,673,1663,1685]" pageId="4" pageNumber="73">(A, B)</emphasis>
and 
<taxonomicName id="AFF54D415347266FDDEF549E4A16F949" authorityName="Foissner" authorityYear="1982" box="[718,828,1663,1685]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="4" pageNumber="73" phylum="Ciliophora" rank="species" species="terricola">
<emphasis id="5A81EAD05347266FDDEF549E4A16F949" box="[718,828,1663,1685]" italics="true" pageId="4" pageNumber="73">E. terricola</emphasis>
</taxonomicName>
<emphasis id="5A81EAD05347266FDC6054614A54F948" bold="true" box="[833,894,1663,1685]" pageId="4" pageNumber="73">(D, E)</emphasis>
in life and 
<taxonomicName id="AFF54D415347266FDCC9549E4D10F949" authorityName="Foissner, Agatha and Berger" authorityYear="2002" box="[1000,1082,1663,1685]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="4" pageNumber="73" phylum="Ciliophora" rank="species" species="lugeri">
<emphasis id="5A81EAD05347266FDCC9549E4ADDF948" box="[1000,1015,1664,1685]" italics="true" pageId="4" pageNumber="73">E</emphasis>
. 
<emphasis id="5A81EAD05347266FDB2054614D10F949" box="[1025,1082,1663,1684]" italics="true" pageId="4" pageNumber="73">lugeri</emphasis>
</taxonomicName>
after protargol impregnation 
<emphasis id="5A81EAD05347266FDA7254614C9BF948" bold="true" box="[1363,1457,1663,1685]" pageId="4" pageNumber="73">(C, F–M)</emphasis>
. 
<emphasis id="5A81EAD05347266FDFA5548549E8F96C" bold="true" box="[132,194,1691,1713]" pageId="4" pageNumber="73">(A, B)</emphasis>
Representative individuals. Arrow in A denotes the contractile vacuole. 
<emphasis id="5A81EAD05347266FDC5854854AB0F96C" bold="true" box="[889,922,1691,1713]" pageId="4" pageNumber="73">(C)</emphasis>
Dorsal side to show the arrangement of extrusomes (arrows). 
<emphasis id="5A81EAD05347266FDFE954A949C3F910" bold="true" box="[200,233,1719,1741]" pageId="4" pageNumber="73">(D)</emphasis>
Arrangement of cortical granules. 
<emphasis id="5A81EAD05347266FDD1D54A94B76F910" bold="true" box="[572,604,1719,1741]" pageId="4" pageNumber="73">(E)</emphasis>
Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. 
<emphasis id="5A81EAD05347266FDC8254CD4ACBF934" bold="true" box="[931,993,1747,1769]" pageId="4" pageNumber="73">(F–H)</emphasis>
Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). 
<emphasis id="5A81EAD05347266FDE275515480AF8FC" bold="true" box="[262,288,1803,1825]" pageId="4" pageNumber="73">(I)</emphasis>
Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). 
<emphasis id="5A81EAD05347266FDA3155154C06F8FC" bold="true" box="[1296,1324,1803,1825]" pageId="4" pageNumber="73">(J)</emphasis>
Fusion of macronuclear nodules. 
<emphasis id="5A81EAD05347266FDE64553948A0F8E0" bold="true" box="[325,394,1831,1853]" pageId="4" pageNumber="73">(K–M)</emphasis>
Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K). Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K 
<emphasis id="5A81EAD05347266FDB4D55624D52F84C" bold="true" box="[1132,1144,1916,1937]" pageId="4" pageNumber="73">–</emphasis>
M).
</paragraph>
</caption>
<caption id="3C8A664A5346266EDF5C52C14DD2FF28" ID-Table-UUID="3C8A664A5346266EDF5C52C14DD2FF28" box="[125,1272,223,245]" httpUri="http://table.plazi.org/id/3C8A664A5346266EDF5C52C14DD2FF28" pageId="5" pageNumber="74" startId="5.[125,181,223,244]" targetBox="[123,1410,276,1908]" targetIsTable="true" targetPageId="5" targetType="table">
<paragraph id="684A36C25346266EDF5C52C14DD2FF28" blockId="5.[125,1272,223,245]" box="[125,1272,223,245]" pageId="5" pageNumber="74">
<emphasis id="5A81EAD05346266EDF5C52C149E4FF29" bold="true" box="[125,206,223,244]" pageId="5" pageNumber="74">Table 1.</emphasis>
Morphometric data on 
<taxonomicName id="AFF54D415346266EDE9152C14BBEFF29" authorityName="Foissner" authorityYear="1982" box="[432,660,223,244]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="5" pageNumber="74" phylum="Ciliophora" rank="species" species="terricola">
<emphasis id="5A81EAD05346266EDE9152C14BBEFF29" box="[432,660,223,244]" italics="true" pageId="5" pageNumber="74">Eschaneustyla terricola</emphasis>
</taxonomicName>
(
<emphasis id="5A81EAD05346266EDD8352FE4B99FF28" box="[674,691,224,245]" italics="true" pageId="5" pageNumber="74">te</emphasis>
) and 
<taxonomicName id="AFF54D415346266EDDCB52C14A9EFF29" authorityName="Foissner, Agatha and Berger" authorityYear="2002" box="[746,948,223,244]" class="Hypotrichea" family="Epiclintidae" genus="Eschaneustyla" kingdom="Chromista" order="Stichotrichida" pageId="5" pageNumber="74" phylum="Ciliophora" rank="species" species="lugeri">
<emphasis id="5A81EAD05346266EDDCB52C14A9EFF29" box="[746,948,223,244]" italics="true" pageId="5" pageNumber="74">Eschaneustyla lugeri</emphasis>
</taxonomicName>
(
<emphasis id="5A81EAD05346266EDCE352C14AFFFF29" box="[962,981,223,244]" italics="true" pageId="5" pageNumber="74">lu</emphasis>
), after protagol impregnation.
</paragraph>
</caption>
<paragraph id="684A36C25346266EDF5C53084CABF8A9" pageId="5" pageNumber="74">
<table id="1AF5C4625346D994DF5A530A4CA8F8A9" box="[123,1410,276,1908]" colsContinueIn="6.[131,1417,234,1153]" gridcols="10" gridrows="44" pageId="5" pageNumber="74">
<tr id="D6C534805346D994DF5A530A4CA8FEF4" box="[123,1410,276,297]" gridrow="0" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A530A4B2EFEF4" box="[123,516,276,297]" gridcol="0" gridrow="0" pageId="5" pageNumber="74">
<superScript id="9F809B8A5346266EDF5C530849D3FEFD" attach="left" box="[125,249,276,297]" fontSize="5" pageId="5" pageNumber="74">Characteristica</superScript>
</th>
<th id="95145DFC5346D994DD0E530A4B5AFEF4" box="[559,624,276,297]" gridcol="1" gridrow="0" pageId="5" pageNumber="74">Species</th>
<th id="95145DFC5346D994DDBB530A4BE0FEF4" box="[666,714,276,297]" gridcol="2" gridrow="0" pageId="5" pageNumber="74">Min</th>
<th id="95145DFC5346D994DC21530A4A13FEF4" box="[768,825,276,297]" gridcol="3" gridrow="0" pageId="5" pageNumber="74">Max</th>
<th id="95145DFC5346D994DC44530A4AB4FEF4" box="[869,926,276,297]" gridcol="4" gridrow="0" pageId="5" pageNumber="74">Mean</th>
<th id="95145DFC5346D994DCEA530A4D2EFEF4" box="[971,1028,276,297]" gridcol="5" gridrow="0" pageId="5" pageNumber="74">M</th>
<th id="95145DFC5346D994DB1B530A4D4BFEF4" box="[1082,1121,276,297]" gridcol="6" gridrow="0" pageId="5" pageNumber="74">SD</th>
<th id="95145DFC5346D994DB80530A4DEDFEF4" box="[1185,1223,276,297]" gridcol="7" gridrow="0" pageId="5" pageNumber="74">SE</th>
<th id="95145DFC5346D994DBD9530A4C1FFEF4" box="[1272,1333,276,297]" gridcol="8" gridrow="0" pageId="5" pageNumber="74">
<collectionCode id="0EE4AE075346266EDBD953084C32FEF4" box="[1272,1304,278,297]" country="China" name="Municipal Museum of Chungking" pageId="5" pageNumber="74">CV</collectionCode>
(%)
</th>
<th id="95145DFC5346D994DA4B530A4CA8FEF4" box="[1386,1410,276,297]" gridcol="9" gridrow="0" pageId="5" pageNumber="74">n</th>
</tr>
<tr id="D6C534805346D994DF5A53254CA8FE92" box="[123,1410,315,335]" gridrow="1" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A53254B2EFEA9" box="[123,516,315,372]" gridcol="0" gridrow="1" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Body, length</th>
<td id="95145DFC5346D994DD0E53254B5AFE92" box="[559,624,315,335]" gridcol="1" gridrow="1" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB53254BE0FE92" box="[666,714,315,335]" gridcol="2" gridrow="1" pageId="5" pageNumber="74">130.0</td>
<td id="95145DFC5346D994DC2153254A13FE92" box="[768,825,315,335]" gridcol="3" gridrow="1" pageId="5" pageNumber="74">222.0</td>
<td id="95145DFC5346D994DC4453254AB4FE92" box="[869,926,315,335]" gridcol="4" gridrow="1" pageId="5" pageNumber="74">187.6</td>
<td id="95145DFC5346D994DCEA53254D2EFE92" box="[971,1028,315,335]" gridcol="5" gridrow="1" pageId="5" pageNumber="74">195.0</td>
<td id="95145DFC5346D994DB1B53254D4BFE92" box="[1082,1121,315,335]" gridcol="6" gridrow="1" pageId="5" pageNumber="74">28.3</td>
<td id="95145DFC5346D994DB8053254DEDFE92" box="[1185,1223,315,335]" gridcol="7" gridrow="1" pageId="5" pageNumber="74">8.5</td>
<td id="95145DFC5346D994DBD953254C1FFE92" box="[1272,1333,315,335]" gridcol="8" gridrow="1" pageId="5" pageNumber="74">15.1</td>
<td id="95145DFC5346D994DA4B53254CA8FE92" box="[1386,1410,315,335]" gridcol="9" gridrow="1" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A537E4CA8FEA9" box="[123,1410,352,372]" gridrow="2" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E537E4B5AFEA9" box="[559,624,352,372]" gridcol="1" gridrow="2" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB537E4BE0FEA9" box="[666,714,352,372]" gridcol="2" gridrow="2" pageId="5" pageNumber="74">164.0</td>
<td id="95145DFC5346D994DC21537E4A13FEA9" box="[768,825,352,372]" gridcol="3" gridrow="2" pageId="5" pageNumber="74">348.0</td>
<td id="95145DFC5346D994DC44537E4AB4FEA9" box="[869,926,352,372]" gridcol="4" gridrow="2" pageId="5" pageNumber="74">261.8</td>
<td id="95145DFC5346D994DCEA537E4D2EFEA9" box="[971,1028,352,372]" gridcol="5" gridrow="2" pageId="5" pageNumber="74">261.5</td>
<td id="95145DFC5346D994DB1B537E4D4BFEA9" box="[1082,1121,352,372]" gridcol="6" gridrow="2" pageId="5" pageNumber="74">54.0</td>
<td id="95145DFC5346D994DB80537E4DEDFEA9" box="[1185,1223,352,372]" gridcol="7" gridrow="2" pageId="5" pageNumber="74">10.2</td>
<td id="95145DFC5346D994DBD9537E4C1FFEA9" box="[1272,1333,352,372]" gridcol="8" gridrow="2" pageId="5" pageNumber="74">20.6</td>
<td id="95145DFC5346D994DA4B537E4CA8FEA9" box="[1386,1410,352,372]" gridcol="9" gridrow="2" pageId="5" pageNumber="74">28</td>
</tr>
<tr id="D6C534805346D994DF5A53984CA8FE44" box="[123,1410,390,409]" gridrow="3" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A53984B2EFE62" box="[123,516,390,447]" gridcol="0" gridrow="3" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Body, width</th>
<td id="95145DFC5346D994DD0E53984B5AFE44" box="[559,624,390,409]" gridcol="1" gridrow="3" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB53984BE0FE44" box="[666,714,390,409]" gridcol="2" gridrow="3" pageId="5" pageNumber="74">50.0</td>
<td id="95145DFC5346D994DC2153984A13FE44" box="[768,825,390,409]" gridcol="3" gridrow="3" pageId="5" pageNumber="74">90.0</td>
<td id="95145DFC5346D994DC4453984AB4FE44" box="[869,926,390,409]" gridcol="4" gridrow="3" pageId="5" pageNumber="74">69.3</td>
<td id="95145DFC5346D994DCEA53984D2EFE44" box="[971,1028,390,409]" gridcol="5" gridrow="3" pageId="5" pageNumber="74">70.0</td>
<td id="95145DFC5346D994DB1B53984D4BFE44" box="[1082,1121,390,409]" gridcol="6" gridrow="3" pageId="5" pageNumber="74">11.9</td>
<td id="95145DFC5346D994DB8053984DEDFE44" box="[1185,1223,390,409]" gridcol="7" gridrow="3" pageId="5" pageNumber="74">3.6</td>
<td id="95145DFC5346D994DBD953984C1FFE44" box="[1272,1333,390,409]" gridcol="8" gridrow="3" pageId="5" pageNumber="74">17.2</td>
<td id="95145DFC5346D994DA4B53984CA8FE44" box="[1386,1410,390,409]" gridcol="9" gridrow="3" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A53B54CA8FE62" box="[123,1410,427,447]" gridrow="4" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E53B54B5AFE62" box="[559,624,427,447]" gridcol="1" gridrow="4" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB53B54BE0FE62" box="[666,714,427,447]" gridcol="2" gridrow="4" pageId="5" pageNumber="74">38.0</td>
<td id="95145DFC5346D994DC2153B54A13FE62" box="[768,825,427,447]" gridcol="3" gridrow="4" pageId="5" pageNumber="74">141.0</td>
<td id="95145DFC5346D994DC4453B54AB4FE62" box="[869,926,427,447]" gridcol="4" gridrow="4" pageId="5" pageNumber="74">91.4</td>
<td id="95145DFC5346D994DCEA53B54D2EFE62" box="[971,1028,427,447]" gridcol="5" gridrow="4" pageId="5" pageNumber="74">95.0</td>
<td id="95145DFC5346D994DB1B53B54D4BFE62" box="[1082,1121,427,447]" gridcol="6" gridrow="4" pageId="5" pageNumber="74">29.1</td>
<td id="95145DFC5346D994DB8053B54DEDFE62" box="[1185,1223,427,447]" gridcol="7" gridrow="4" pageId="5" pageNumber="74">5.5</td>
<td id="95145DFC5346D994DBD953B54C1FFE62" box="[1272,1333,427,447]" gridcol="8" gridrow="4" pageId="5" pageNumber="74">31.9</td>
<td id="95145DFC5346D994DA4B53B54CA8FE62" box="[1386,1410,427,447]" gridcol="9" gridrow="4" pageId="5" pageNumber="74">28</td>
</tr>
<tr id="D6C534805346D994DF5A53CF4CA8FE39" box="[123,1410,465,484]" gridrow="5" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A53CF4B2EFDD7" box="[123,516,465,522]" gridcol="0" gridrow="5" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Body length:width, ratio</th>
<td id="95145DFC5346D994DD0E53CF4B5AFE39" box="[559,624,465,484]" gridcol="1" gridrow="5" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB53CF4BE0FE39" box="[666,714,465,484]" gridcol="2" gridrow="5" pageId="5" pageNumber="74">1.9</td>
<td id="95145DFC5346D994DC2153CF4A13FE39" box="[768,825,465,484]" gridcol="3" gridrow="5" pageId="5" pageNumber="74">3.3</td>
<td id="95145DFC5346D994DC4453CF4AB4FE39" box="[869,926,465,484]" gridcol="4" gridrow="5" pageId="5" pageNumber="74">2.7</td>
<td id="95145DFC5346D994DCEA53CF4D2EFE39" box="[971,1028,465,484]" gridcol="5" gridrow="5" pageId="5" pageNumber="74">2.8</td>
<td id="95145DFC5346D994DB1B53CF4D4BFE39" box="[1082,1121,465,484]" gridcol="6" gridrow="5" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DB8053CF4DEDFE39" box="[1185,1223,465,484]" gridcol="7" gridrow="5" pageId="5" pageNumber="74">0.1</td>
<td id="95145DFC5346D994DBD953CF4C1FFE39" box="[1272,1333,465,484]" gridcol="8" gridrow="5" pageId="5" pageNumber="74">13.2</td>
<td id="95145DFC5346D994DA4B53CF4CA8FE39" box="[1386,1410,465,484]" gridcol="9" gridrow="5" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A53E84CA8FDD7" box="[123,1410,502,522]" gridrow="6" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E53E84B5AFDD7" box="[559,624,502,522]" gridcol="1" gridrow="6" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB53E84BE0FDD7" box="[666,714,502,522]" gridcol="2" gridrow="6" pageId="5" pageNumber="74">2.0</td>
<td id="95145DFC5346D994DC2153E84A13FDD7" box="[768,825,502,522]" gridcol="3" gridrow="6" pageId="5" pageNumber="74">5.5</td>
<td id="95145DFC5346D994DC4453E84AB4FDD7" box="[869,926,502,522]" gridcol="4" gridrow="6" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DCEA53E84D2EFDD7" box="[971,1028,502,522]" gridcol="5" gridrow="6" pageId="5" pageNumber="74">2.8</td>
<td id="95145DFC5346D994DB1B53E84D4BFDD7" box="[1082,1121,502,522]" gridcol="6" gridrow="6" pageId="5" pageNumber="74">0.8</td>
<td id="95145DFC5346D994DB8053E84DEDFDD7" box="[1185,1223,502,522]" gridcol="7" gridrow="6" pageId="5" pageNumber="74">0.1</td>
<td id="95145DFC5346D994DBD953E84C1FFDD7" box="[1272,1333,502,522]" gridcol="8" gridrow="6" pageId="5" pageNumber="74">26.1</td>
<td id="95145DFC5346D994DA4B53E84CA8FDD7" box="[1386,1410,502,522]" gridcol="9" gridrow="6" pageId="5" pageNumber="74">28</td>
</tr>
<tr id="D6C534805346D994DF5A50024CA8FDF2" box="[123,1410,540,559]" gridrow="7" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A50024B2EFD88" box="[123,516,540,597]" gridcol="0" gridrow="7" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Macronuclear nodules, number</th>
<td id="95145DFC5346D994DD0E50024B5AFDF2" box="[559,624,540,559]" gridcol="1" gridrow="7" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB50024BE0FDF2" box="[666,714,540,559]" gridcol="2" gridrow="7" pageId="5" pageNumber="74">59</td>
<td id="95145DFC5346D994DC2150024A13FDF2" box="[768,825,540,559]" gridcol="3" gridrow="7" pageId="5" pageNumber="74">106</td>
<td id="95145DFC5346D994DC4450024AB4FDF2" box="[869,926,540,559]" gridcol="4" gridrow="7" pageId="5" pageNumber="74">75.4</td>
<td id="95145DFC5346D994DCEA50024D2EFDF2" box="[971,1028,540,559]" gridcol="5" gridrow="7" pageId="5" pageNumber="74">68.0</td>
<td id="95145DFC5346D994DB1B50024D4BFDF2" box="[1082,1121,540,559]" gridcol="6" gridrow="7" pageId="5" pageNumber="74">15.3</td>
<td id="95145DFC5346D994DB8050024DEDFDF2" box="[1185,1223,540,559]" gridcol="7" gridrow="7" pageId="5" pageNumber="74">4.6</td>
<td id="95145DFC5346D994DBD950024C1FFDF2" box="[1272,1333,540,559]" gridcol="8" gridrow="7" pageId="5" pageNumber="74">20.3</td>
<td id="95145DFC5346D994DA4B50024CA8FDF2" box="[1386,1410,540,559]" gridcol="9" gridrow="7" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A505F4CA8FD88" box="[123,1410,577,597]" gridrow="8" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E505F4B5AFD88" box="[559,624,577,597]" gridcol="1" gridrow="8" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB505F4BE0FD88" box="[666,714,577,597]" gridcol="2" gridrow="8" pageId="5" pageNumber="74">97</td>
<td id="95145DFC5346D994DC21505F4A13FD88" box="[768,825,577,597]" gridcol="3" gridrow="8" pageId="5" pageNumber="74">149</td>
<td id="95145DFC5346D994DC44505F4AB4FD88" box="[869,926,577,597]" gridcol="4" gridrow="8" pageId="5" pageNumber="74">119.6</td>
<td id="95145DFC5346D994DCEA505F4D2EFD88" box="[971,1028,577,597]" gridcol="5" gridrow="8" pageId="5" pageNumber="74">119.0</td>
<td id="95145DFC5346D994DB1B505F4D4BFD88" box="[1082,1121,577,597]" gridcol="6" gridrow="8" pageId="5" pageNumber="74">13.6</td>
<td id="95145DFC5346D994DB80505F4DEDFD88" box="[1185,1223,577,597]" gridcol="7" gridrow="8" pageId="5" pageNumber="74">3.3</td>
<td id="95145DFC5346D994DBD9505F4C1FFD88" box="[1272,1333,577,597]" gridcol="8" gridrow="8" pageId="5" pageNumber="74">11.4</td>
<td id="95145DFC5346D994DA4B505F4CA8FD88" box="[1386,1410,577,597]" gridcol="9" gridrow="8" pageId="5" pageNumber="74">17</td>
</tr>
<tr id="D6C534805346D994DF5A50794CA8FDA7" box="[123,1410,615,634]" gridrow="9" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A50794B2EFD42" box="[123,516,615,671]" gridcol="0" gridrow="9" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Micronuclei, number</th>
<td id="95145DFC5346D994DD0E50794B5AFDA7" box="[559,624,615,634]" gridcol="1" gridrow="9" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB50794BE0FDA7" box="[666,714,615,634]" gridcol="2" gridrow="9" pageId="5" pageNumber="74">1</td>
<td id="95145DFC5346D994DC2150794A13FDA7" box="[768,825,615,634]" gridcol="3" gridrow="9" pageId="5" pageNumber="74">5</td>
<td id="95145DFC5346D994DC4450794AB4FDA7" box="[869,926,615,634]" gridcol="4" gridrow="9" pageId="5" pageNumber="74">3.1</td>
<td id="95145DFC5346D994DCEA50794D2EFDA7" box="[971,1028,615,634]" gridcol="5" gridrow="9" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DB1B50794D4BFDA7" box="[1082,1121,615,634]" gridcol="6" gridrow="9" pageId="5" pageNumber="74">1.2</td>
<td id="95145DFC5346D994DB8050794DEDFDA7" box="[1185,1223,615,634]" gridcol="7" gridrow="9" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DBD950794C1FFDA7" box="[1272,1333,615,634]" gridcol="8" gridrow="9" pageId="5" pageNumber="74">38.6</td>
<td id="95145DFC5346D994DA4B50794CA8FDA7" box="[1386,1410,615,634]" gridcol="9" gridrow="9" pageId="5" pageNumber="74">10</td>
</tr>
<tr id="D6C534805346D994DF5A50924CA8FD42" box="[123,1410,652,671]" gridrow="10" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E50924B5AFD42" box="[559,624,652,671]" gridcol="1" gridrow="10" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB50924BE0FD42" box="[666,714,652,671]" gridcol="2" gridrow="10" pageId="5" pageNumber="74">3</td>
<td id="95145DFC5346D994DC2150924A13FD42" box="[768,825,652,671]" gridcol="3" gridrow="10" pageId="5" pageNumber="74">11</td>
<td id="95145DFC5346D994DC4450924AB4FD42" box="[869,926,652,671]" gridcol="4" gridrow="10" pageId="5" pageNumber="74">5.9</td>
<td id="95145DFC5346D994DCEA50924D2EFD42" box="[971,1028,652,671]" gridcol="5" gridrow="10" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DB1B50924D4BFD42" box="[1082,1121,652,671]" gridcol="6" gridrow="10" pageId="5" pageNumber="74">2.1</td>
<td id="95145DFC5346D994DB8050924DEDFD42" box="[1185,1223,652,671]" gridcol="7" gridrow="10" pageId="5" pageNumber="74">0.5</td>
<td id="95145DFC5346D994DBD950924C1FFD42" box="[1272,1333,652,671]" gridcol="8" gridrow="10" pageId="5" pageNumber="74">35.5</td>
<td id="95145DFC5346D994DA4B50924CA8FD42" box="[1386,1410,652,671]" gridcol="9" gridrow="10" pageId="5" pageNumber="74">21</td>
</tr>
<tr id="D6C534805346D994DF5A50AC4CA8FD18" box="[123,1410,690,709]" gridrow="11" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A50AC4B2EFD37" box="[123,516,690,746]" gridcol="0" gridrow="11" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Anteriormost macronuclear nodule, length</th>
<td id="95145DFC5346D994DD0E50AC4B5AFD18" box="[559,624,690,709]" gridcol="1" gridrow="11" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB50AC4BE0FD18" box="[666,714,690,709]" gridcol="2" gridrow="11" pageId="5" pageNumber="74">5.5</td>
<td id="95145DFC5346D994DC2150AC4A13FD18" box="[768,825,690,709]" gridcol="3" gridrow="11" pageId="5" pageNumber="74">16.0</td>
<td id="95145DFC5346D994DC4450AC4AB4FD18" box="[869,926,690,709]" gridcol="4" gridrow="11" pageId="5" pageNumber="74">9.5</td>
<td id="95145DFC5346D994DCEA50AC4D2EFD18" box="[971,1028,690,709]" gridcol="5" gridrow="11" pageId="5" pageNumber="74">9.5</td>
<td id="95145DFC5346D994DB1B50AC4D4BFD18" box="[1082,1121,690,709]" gridcol="6" gridrow="11" pageId="5" pageNumber="74">3.3</td>
<td id="95145DFC5346D994DB8050AC4DEDFD18" box="[1185,1223,690,709]" gridcol="7" gridrow="11" pageId="5" pageNumber="74">1.0</td>
<td id="95145DFC5346D994DBD950AC4C1FFD18" box="[1272,1333,690,709]" gridcol="8" gridrow="11" pageId="5" pageNumber="74">34.1</td>
<td id="95145DFC5346D994DA4B50AC4CA8FD18" box="[1386,1410,690,709]" gridcol="9" gridrow="11" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A50C94CA8FD37" box="[123,1410,727,746]" gridrow="12" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E50C94B5AFD37" box="[559,624,727,746]" gridcol="1" gridrow="12" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB50C94BE0FD37" box="[666,714,727,746]" gridcol="2" gridrow="12" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DC2150C94A13FD37" box="[768,825,727,746]" gridcol="3" gridrow="12" pageId="5" pageNumber="74">21.0</td>
<td id="95145DFC5346D994DC4450C94AB4FD37" box="[869,926,727,746]" gridcol="4" gridrow="12" pageId="5" pageNumber="74">11.0</td>
<td id="95145DFC5346D994DCEA50C94D2EFD37" box="[971,1028,727,746]" gridcol="5" gridrow="12" pageId="5" pageNumber="74">10.0</td>
<td id="95145DFC5346D994DB1B50C94D4BFD37" box="[1082,1121,727,746]" gridcol="6" gridrow="12" pageId="5" pageNumber="74">4.6</td>
<td id="95145DFC5346D994DB8050C94DEDFD37" box="[1185,1223,727,746]" gridcol="7" gridrow="12" pageId="5" pageNumber="74">1.1</td>
<td id="95145DFC5346D994DBD950C94C1FFD37" box="[1272,1333,727,746]" gridcol="8" gridrow="12" pageId="5" pageNumber="74">41.7</td>
<td id="95145DFC5346D994DA4B50C94CA8FD37" box="[1386,1410,727,746]" gridcol="9" gridrow="12" pageId="5" pageNumber="74">19</td>
</tr>
<tr id="D6C534805346D994DF5A50E34CA8FCCD" box="[123,1410,765,784]" gridrow="13" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A50E34B2EFCE8" box="[123,516,765,821]" gridcol="0" gridrow="13" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Anteriormost macronuclear nodule, width</th>
<td id="95145DFC5346D994DD0E50E34B5AFCCD" box="[559,624,765,784]" gridcol="1" gridrow="13" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB50E34BE0FCCD" box="[666,714,765,784]" gridcol="2" gridrow="13" pageId="5" pageNumber="74">2.5</td>
<td id="95145DFC5346D994DC2150E34A13FCCD" box="[768,825,765,784]" gridcol="3" gridrow="13" pageId="5" pageNumber="74">7.0</td>
<td id="95145DFC5346D994DC4450E34AB4FCCD" box="[869,926,765,784]" gridcol="4" gridrow="13" pageId="5" pageNumber="74">4.5</td>
<td id="95145DFC5346D994DCEA50E34D2EFCCD" box="[971,1028,765,784]" gridcol="5" gridrow="13" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DB1B50E34D4BFCCD" box="[1082,1121,765,784]" gridcol="6" gridrow="13" pageId="5" pageNumber="74">1.4</td>
<td id="95145DFC5346D994DB8050E34DEDFCCD" box="[1185,1223,765,784]" gridcol="7" gridrow="13" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DBD950E34C1FFCCD" box="[1272,1333,765,784]" gridcol="8" gridrow="13" pageId="5" pageNumber="74">32.2</td>
<td id="95145DFC5346D994DA4B50E34CA8FCCD" box="[1386,1410,765,784]" gridcol="9" gridrow="13" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A513C4CA8FCE8" box="[123,1410,802,821]" gridrow="14" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E513C4B5AFCE8" box="[559,624,802,821]" gridcol="1" gridrow="14" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB513C4BE0FCE8" box="[666,714,802,821]" gridcol="2" gridrow="14" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC21513C4A13FCE8" box="[768,825,802,821]" gridcol="3" gridrow="14" pageId="5" pageNumber="74">10.0</td>
<td id="95145DFC5346D994DC44513C4AB4FCE8" box="[869,926,802,821]" gridcol="4" gridrow="14" pageId="5" pageNumber="74">5.3</td>
<td id="95145DFC5346D994DCEA513C4D2EFCE8" box="[971,1028,802,821]" gridcol="5" gridrow="14" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DB1B513C4D4BFCE8" box="[1082,1121,802,821]" gridcol="6" gridrow="14" pageId="5" pageNumber="74">2.0</td>
<td id="95145DFC5346D994DB80513C4DEDFCE8" box="[1185,1223,802,821]" gridcol="7" gridrow="14" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DBD9513C4C1FFCE8" box="[1272,1333,802,821]" gridcol="8" gridrow="14" pageId="5" pageNumber="74">36.7</td>
<td id="95145DFC5346D994DA4B513C4CA8FCE8" box="[1386,1410,802,821]" gridcol="9" gridrow="14" pageId="5" pageNumber="74">19</td>
</tr>
<tr id="D6C534805346D994DF5A51594CA8FC86" box="[123,1410,839,859]" gridrow="15" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A51594B2EFC5D" box="[123,516,839,896]" gridcol="0" gridrow="15" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Anteriormost micronucleus, length</th>
<td id="95145DFC5346D994DD0E51594B5AFC86" box="[559,624,839,859]" gridcol="1" gridrow="15" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB51594BE0FC86" box="[666,714,839,859]" gridcol="2" gridrow="15" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC2151594A13FC86" box="[768,825,839,859]" gridcol="3" gridrow="15" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DC4451594AB4FC86" box="[869,926,839,859]" gridcol="4" gridrow="15" pageId="5" pageNumber="74">3.8</td>
<td id="95145DFC5346D994DCEA51594D2EFC86" box="[971,1028,839,859]" gridcol="5" gridrow="15" pageId="5" pageNumber="74">4.0</td>
<td id="95145DFC5346D994DB1B51594D4BFC86" box="[1082,1121,839,859]" gridcol="6" gridrow="15" pageId="5" pageNumber="74">0.6</td>
<td id="95145DFC5346D994DB8051594DEDFC86" box="[1185,1223,839,859]" gridcol="7" gridrow="15" pageId="5" pageNumber="74">0.2</td>
<td id="95145DFC5346D994DBD951594C1FFC86" box="[1272,1333,839,859]" gridcol="8" gridrow="15" pageId="5" pageNumber="74">14.7</td>
<td id="95145DFC5346D994DA4B51594CA8FC86" box="[1386,1410,839,859]" gridcol="9" gridrow="15" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A51734CA8FC5D" box="[123,1410,877,896]" gridrow="16" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E51734B5AFC5D" box="[559,624,877,896]" gridcol="1" gridrow="16" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB51734BE0FC5D" box="[666,714,877,896]" gridcol="2" gridrow="16" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC2151734A13FC5D" box="[768,825,877,896]" gridcol="3" gridrow="16" pageId="5" pageNumber="74">10.0</td>
<td id="95145DFC5346D994DC4451734AB4FC5D" box="[869,926,877,896]" gridcol="4" gridrow="16" pageId="5" pageNumber="74">6.1</td>
<td id="95145DFC5346D994DCEA51734D2EFC5D" box="[971,1028,877,896]" gridcol="5" gridrow="16" pageId="5" pageNumber="74">6.5</td>
<td id="95145DFC5346D994DB1B51734D4BFC5D" box="[1082,1121,877,896]" gridcol="6" gridrow="16" pageId="5" pageNumber="74">2.0</td>
<td id="95145DFC5346D994DB8051734DEDFC5D" box="[1185,1223,877,896]" gridcol="7" gridrow="16" pageId="5" pageNumber="74">0.5</td>
<td id="95145DFC5346D994DBD951734C1FFC5D" box="[1272,1333,877,896]" gridcol="8" gridrow="16" pageId="5" pageNumber="74">33.3</td>
<td id="95145DFC5346D994DA4B51734CA8FC5D" box="[1386,1410,877,896]" gridcol="9" gridrow="16" pageId="5" pageNumber="74">19</td>
</tr>
<tr id="D6C534805346D994DF5A518C4CA8FC7B" box="[123,1410,914,934]" gridrow="17" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A518C4B2EFC16" box="[123,516,914,971]" gridcol="0" gridrow="17" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Anteriormost micronucleus, width</th>
<td id="95145DFC5346D994DD0E518C4B5AFC7B" box="[559,624,914,934]" gridcol="1" gridrow="17" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB518C4BE0FC7B" box="[666,714,914,934]" gridcol="2" gridrow="17" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC21518C4A13FC7B" box="[768,825,914,934]" gridcol="3" gridrow="17" pageId="5" pageNumber="74">4.0</td>
<td id="95145DFC5346D994DC44518C4AB4FC7B" box="[869,926,914,934]" gridcol="4" gridrow="17" pageId="5" pageNumber="74">3.5</td>
<td id="95145DFC5346D994DCEA518C4D2EFC7B" box="[971,1028,914,934]" gridcol="5" gridrow="17" pageId="5" pageNumber="74">3.5</td>
<td id="95145DFC5346D994DB1B518C4D4BFC7B" box="[1082,1121,914,934]" gridcol="6" gridrow="17" pageId="5" pageNumber="74">0.5</td>
<td id="95145DFC5346D994DB80518C4DEDFC7B" box="[1185,1223,914,934]" gridcol="7" gridrow="17" pageId="5" pageNumber="74">0.1</td>
<td id="95145DFC5346D994DBD9518C4C1FFC7B" box="[1272,1333,914,934]" gridcol="8" gridrow="17" pageId="5" pageNumber="74">13.7</td>
<td id="95145DFC5346D994DA4B518C4CA8FC7B" box="[1386,1410,914,934]" gridcol="9" gridrow="17" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A51A64CA8FC16" box="[123,1410,952,971]" gridrow="18" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E51A64B5AFC16" box="[559,624,952,971]" gridcol="1" gridrow="18" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB51A64BE0FC16" box="[666,714,952,971]" gridcol="2" gridrow="18" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC2151A64A13FC16" box="[768,825,952,971]" gridcol="3" gridrow="18" pageId="5" pageNumber="74">8.0</td>
<td id="95145DFC5346D994DC4451A64AB4FC16" box="[869,926,952,971]" gridcol="4" gridrow="18" pageId="5" pageNumber="74">5.3</td>
<td id="95145DFC5346D994DCEA51A64D2EFC16" box="[971,1028,952,971]" gridcol="5" gridrow="18" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DB1B51A64D4BFC16" box="[1082,1121,952,971]" gridcol="6" gridrow="18" pageId="5" pageNumber="74">1.6</td>
<td id="95145DFC5346D994DB8051A64DEDFC16" box="[1185,1223,952,971]" gridcol="7" gridrow="18" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DBD951A64C1FFC16" box="[1272,1333,952,971]" gridcol="8" gridrow="18" pageId="5" pageNumber="74">30.1</td>
<td id="95145DFC5346D994DA4B51A64CA8FC16" box="[1386,1410,952,971]" gridcol="9" gridrow="18" pageId="5" pageNumber="74">19</td>
</tr>
<tr id="D6C534805346D994DF5A51C34CA8FC2C" box="[123,1410,989,1009]" gridrow="19" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A51C34B2EFBCB" box="[123,516,989,1046]" gridcol="0" gridrow="19" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">AE to first macronuclear nodule, distance</th>
<td id="95145DFC5346D994DD0E51C34B5AFC2C" box="[559,624,989,1009]" gridcol="1" gridrow="19" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB51C34BE0FC2C" box="[666,714,989,1009]" gridcol="2" gridrow="19" pageId="5" pageNumber="74">9.0</td>
<td id="95145DFC5346D994DC2151C34A13FC2C" box="[768,825,989,1009]" gridcol="3" gridrow="19" pageId="5" pageNumber="74">22.5</td>
<td id="95145DFC5346D994DC4451C34AB4FC2C" box="[869,926,989,1009]" gridcol="4" gridrow="19" pageId="5" pageNumber="74">15.8</td>
<td id="95145DFC5346D994DCEA51C34D2EFC2C" box="[971,1028,989,1009]" gridcol="5" gridrow="19" pageId="5" pageNumber="74">16.0</td>
<td id="95145DFC5346D994DB1B51C34D4BFC2C" box="[1082,1121,989,1009]" gridcol="6" gridrow="19" pageId="5" pageNumber="74">3.8</td>
<td id="95145DFC5346D994DB8051C34DEDFC2C" box="[1185,1223,989,1009]" gridcol="7" gridrow="19" pageId="5" pageNumber="74">1.1</td>
<td id="95145DFC5346D994DBD951C34C1FFC2C" box="[1272,1333,989,1009]" gridcol="8" gridrow="19" pageId="5" pageNumber="74">24.0</td>
<td id="95145DFC5346D994DA4B51C34CA8FC2C" box="[1386,1410,989,1009]" gridcol="9" gridrow="19" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A561D4CA8FBCB" box="[123,1410,1027,1046]" gridrow="20" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E561D4B5AFBCB" box="[559,624,1027,1046]" gridcol="1" gridrow="20" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB561D4BE0FBCB" box="[666,714,1027,1046]" gridcol="2" gridrow="20" pageId="5" pageNumber="74">16.0</td>
<td id="95145DFC5346D994DC21561D4A13FBCB" box="[768,825,1027,1046]" gridcol="3" gridrow="20" pageId="5" pageNumber="74">35.0</td>
<td id="95145DFC5346D994DC44561D4AB4FBCB" box="[869,926,1027,1046]" gridcol="4" gridrow="20" pageId="5" pageNumber="74">23.8</td>
<td id="95145DFC5346D994DCEA561D4D2EFBCB" box="[971,1028,1027,1046]" gridcol="5" gridrow="20" pageId="5" pageNumber="74">26.0</td>
<td id="95145DFC5346D994DB1B561D4D4BFBCB" box="[1082,1121,1027,1046]" gridcol="6" gridrow="20" pageId="5" pageNumber="74">5.8</td>
<td id="95145DFC5346D994DB80561D4DEDFBCB" box="[1185,1223,1027,1046]" gridcol="7" gridrow="20" pageId="5" pageNumber="74">1.3</td>
<td id="95145DFC5346D994DBD9561D4C1FFBCB" box="[1272,1333,1027,1046]" gridcol="8" gridrow="20" pageId="5" pageNumber="74">24.5</td>
<td id="95145DFC5346D994DA4B561D4CA8FBCB" box="[1386,1410,1027,1046]" gridcol="9" gridrow="20" pageId="5" pageNumber="74">19</td>
</tr>
<tr id="D6C534805346D994DF5A56364CA8FBE1" box="[123,1410,1064,1084]" gridrow="21" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A56364B2EFBBC" box="[123,516,1064,1121]" gridcol="0" gridrow="21" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">PE to rearmost macronuclear nodule, distance</th>
<td id="95145DFC5346D994DD0E56364B5AFBE1" box="[559,624,1064,1084]" gridcol="1" gridrow="21" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB56364BE0FBE1" box="[666,714,1064,1084]" gridcol="2" gridrow="21" pageId="5" pageNumber="74">8.0</td>
<td id="95145DFC5346D994DC2156364A13FBE1" box="[768,825,1064,1084]" gridcol="3" gridrow="21" pageId="5" pageNumber="74">27.5</td>
<td id="95145DFC5346D994DC4456364AB4FBE1" box="[869,926,1064,1084]" gridcol="4" gridrow="21" pageId="5" pageNumber="74">17.2</td>
<td id="95145DFC5346D994DCEA56364D2EFBE1" box="[971,1028,1064,1084]" gridcol="5" gridrow="21" pageId="5" pageNumber="74">18.0</td>
<td id="95145DFC5346D994DB1B56364D4BFBE1" box="[1082,1121,1064,1084]" gridcol="6" gridrow="21" pageId="5" pageNumber="74">6.2</td>
<td id="95145DFC5346D994DB8056364DEDFBE1" box="[1185,1223,1064,1084]" gridcol="7" gridrow="21" pageId="5" pageNumber="74">1.9</td>
<td id="95145DFC5346D994DBD956364C1FFBE1" box="[1272,1333,1064,1084]" gridcol="8" gridrow="21" pageId="5" pageNumber="74">36.0</td>
<td id="95145DFC5346D994DA4B56364CA8FBE1" box="[1386,1410,1064,1084]" gridcol="9" gridrow="21" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A56504CA8FBBC" box="[123,1410,1102,1121]" gridrow="22" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E56504B5AFBBC" box="[559,624,1102,1121]" gridcol="1" gridrow="22" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB56504BE0FBBC" box="[666,714,1102,1121]" gridcol="2" gridrow="22" pageId="5" pageNumber="74">14.0</td>
<td id="95145DFC5346D994DC2156504A13FBBC" box="[768,825,1102,1121]" gridcol="3" gridrow="22" pageId="5" pageNumber="74">60.0</td>
<td id="95145DFC5346D994DC4456504AB4FBBC" box="[869,926,1102,1121]" gridcol="4" gridrow="22" pageId="5" pageNumber="74">30.7</td>
<td id="95145DFC5346D994DCEA56504D2EFBBC" box="[971,1028,1102,1121]" gridcol="5" gridrow="22" pageId="5" pageNumber="74">27.0</td>
<td id="95145DFC5346D994DB1B56504D4BFBBC" box="[1082,1121,1102,1121]" gridcol="6" gridrow="22" pageId="5" pageNumber="74">12.6</td>
<td id="95145DFC5346D994DB8056504DEDFBBC" box="[1185,1223,1102,1121]" gridcol="7" gridrow="22" pageId="5" pageNumber="74">3.1</td>
<td id="95145DFC5346D994DBD956504C1FFBBC" box="[1272,1333,1102,1121]" gridcol="8" gridrow="22" pageId="5" pageNumber="74">41.2</td>
<td id="95145DFC5346D994DA4B56504CA8FBBC" box="[1386,1410,1102,1121]" gridcol="9" gridrow="22" pageId="5" pageNumber="74">17</td>
</tr>
<tr id="D6C534805346D994DF5A566D4CA8FB5A" box="[123,1410,1139,1159]" gridrow="23" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A566D4B2EFB71" box="[123,516,1139,1196]" gridcol="0" gridrow="23" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Posteriormost macronuclear nodule, length</th>
<td id="95145DFC5346D994DD0E566D4B5AFB5A" box="[559,624,1139,1159]" gridcol="1" gridrow="23" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB566D4BE0FB5A" box="[666,714,1139,1159]" gridcol="2" gridrow="23" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC21566D4A13FB5A" box="[768,825,1139,1159]" gridcol="3" gridrow="23" pageId="5" pageNumber="74">11.0</td>
<td id="95145DFC5346D994DC44566D4AB4FB5A" box="[869,926,1139,1159]" gridcol="4" gridrow="23" pageId="5" pageNumber="74">7.4</td>
<td id="95145DFC5346D994DCEA566D4D2EFB5A" box="[971,1028,1139,1159]" gridcol="5" gridrow="23" pageId="5" pageNumber="74">7.0</td>
<td id="95145DFC5346D994DB1B566D4D4BFB5A" box="[1082,1121,1139,1159]" gridcol="6" gridrow="23" pageId="5" pageNumber="74">2.7</td>
<td id="95145DFC5346D994DB80566D4DEDFB5A" box="[1185,1223,1139,1159]" gridcol="7" gridrow="23" pageId="5" pageNumber="74">0.8</td>
<td id="95145DFC5346D994DBD9566D4C1FFB5A" box="[1272,1333,1139,1159]" gridcol="8" gridrow="23" pageId="5" pageNumber="74">37.1</td>
<td id="95145DFC5346D994DA4B566D4CA8FB5A" box="[1386,1410,1139,1159]" gridcol="9" gridrow="23" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A56874CA8FB71" box="[123,1410,1177,1196]" gridrow="24" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E56874B5AFB71" box="[559,624,1177,1196]" gridcol="1" gridrow="24" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB56874BE0FB71" box="[666,714,1177,1196]" gridcol="2" gridrow="24" pageId="5" pageNumber="74">5.0</td>
<td id="95145DFC5346D994DC2156874A13FB71" box="[768,825,1177,1196]" gridcol="3" gridrow="24" pageId="5" pageNumber="74">14.0</td>
<td id="95145DFC5346D994DC4456874AB4FB71" box="[869,926,1177,1196]" gridcol="4" gridrow="24" pageId="5" pageNumber="74">8.7</td>
<td id="95145DFC5346D994DCEA56874D2EFB71" box="[971,1028,1177,1196]" gridcol="5" gridrow="24" pageId="5" pageNumber="74">8.0</td>
<td id="95145DFC5346D994DB1B56874D4BFB71" box="[1082,1121,1177,1196]" gridcol="6" gridrow="24" pageId="5" pageNumber="74">2.5</td>
<td id="95145DFC5346D994DB8056874DEDFB71" box="[1185,1223,1177,1196]" gridcol="7" gridrow="24" pageId="5" pageNumber="74">0.6</td>
<td id="95145DFC5346D994DBD956874C1FFB71" box="[1272,1333,1177,1196]" gridcol="8" gridrow="24" pageId="5" pageNumber="74">29.0</td>
<td id="95145DFC5346D994DA4B56874CA8FB71" box="[1386,1410,1177,1196]" gridcol="9" gridrow="24" pageId="5" pageNumber="74">17</td>
</tr>
<tr id="D6C534805346D994DF5A56A04CA8FB0F" box="[123,1410,1214,1234]" gridrow="25" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A56A04B2EFB2A" box="[123,516,1214,1271]" gridcol="0" gridrow="25" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Posteriormost macronuclear nodule, width</th>
<td id="95145DFC5346D994DD0E56A04B5AFB0F" box="[559,624,1214,1234]" gridcol="1" gridrow="25" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB56A04BE0FB0F" box="[666,714,1214,1234]" gridcol="2" gridrow="25" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DC2156A04A13FB0F" box="[768,825,1214,1234]" gridcol="3" gridrow="25" pageId="5" pageNumber="74">6.5</td>
<td id="95145DFC5346D994DC4456A04AB4FB0F" box="[869,926,1214,1234]" gridcol="4" gridrow="25" pageId="5" pageNumber="74">4.5</td>
<td id="95145DFC5346D994DCEA56A04D2EFB0F" box="[971,1028,1214,1234]" gridcol="5" gridrow="25" pageId="5" pageNumber="74">4.0</td>
<td id="95145DFC5346D994DB1B56A04D4BFB0F" box="[1082,1121,1214,1234]" gridcol="6" gridrow="25" pageId="5" pageNumber="74">1.2</td>
<td id="95145DFC5346D994DB8056A04DEDFB0F" box="[1185,1223,1214,1234]" gridcol="7" gridrow="25" pageId="5" pageNumber="74">0.4</td>
<td id="95145DFC5346D994DBD956A04C1FFB0F" box="[1272,1333,1214,1234]" gridcol="8" gridrow="25" pageId="5" pageNumber="74">26.2</td>
<td id="95145DFC5346D994DA4B56A04CA8FB0F" box="[1386,1410,1214,1234]" gridcol="9" gridrow="25" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A56FA4CA8FB2A" box="[123,1410,1252,1271]" gridrow="26" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E56FA4B5AFB2A" box="[559,624,1252,1271]" gridcol="1" gridrow="26" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB56FA4BE0FB2A" box="[666,714,1252,1271]" gridcol="2" gridrow="26" pageId="5" pageNumber="74">2.0</td>
<td id="95145DFC5346D994DC2156FA4A13FB2A" box="[768,825,1252,1271]" gridcol="3" gridrow="26" pageId="5" pageNumber="74">10.0</td>
<td id="95145DFC5346D994DC4456FA4AB4FB2A" box="[869,926,1252,1271]" gridcol="4" gridrow="26" pageId="5" pageNumber="74">4.3</td>
<td id="95145DFC5346D994DCEA56FA4D2EFB2A" box="[971,1028,1252,1271]" gridcol="5" gridrow="26" pageId="5" pageNumber="74">3.5</td>
<td id="95145DFC5346D994DB1B56FA4D4BFB2A" box="[1082,1121,1252,1271]" gridcol="6" gridrow="26" pageId="5" pageNumber="74">2.3</td>
<td id="95145DFC5346D994DB8056FA4DEDFB2A" box="[1185,1223,1252,1271]" gridcol="7" gridrow="26" pageId="5" pageNumber="74">0.6</td>
<td id="95145DFC5346D994DBD956FA4C1FFB2A" box="[1272,1333,1252,1271]" gridcol="8" gridrow="26" pageId="5" pageNumber="74">55.0</td>
<td id="95145DFC5346D994DA4B56FA4CA8FB2A" box="[1386,1410,1252,1271]" gridcol="9" gridrow="26" pageId="5" pageNumber="74">17</td>
</tr>
<tr id="D6C534805346D994DF5A57174CA8FAC0" box="[123,1410,1289,1309]" gridrow="27" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A57174B2EFA9F" box="[123,516,1289,1346]" gridcol="0" gridrow="27" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Adoral membranelles, number</th>
<td id="95145DFC5346D994DD0E57174B5AFAC0" box="[559,624,1289,1309]" gridcol="1" gridrow="27" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB57174BE0FAC0" box="[666,714,1289,1309]" gridcol="2" gridrow="27" pageId="5" pageNumber="74">35</td>
<td id="95145DFC5346D994DC2157174A13FAC0" box="[768,825,1289,1309]" gridcol="3" gridrow="27" pageId="5" pageNumber="74">47</td>
<td id="95145DFC5346D994DC4457174AB4FAC0" box="[869,926,1289,1309]" gridcol="4" gridrow="27" pageId="5" pageNumber="74">41.5</td>
<td id="95145DFC5346D994DCEA57174D2EFAC0" box="[971,1028,1289,1309]" gridcol="5" gridrow="27" pageId="5" pageNumber="74">41.0</td>
<td id="95145DFC5346D994DB1B57174D4BFAC0" box="[1082,1121,1289,1309]" gridcol="6" gridrow="27" pageId="5" pageNumber="74">3.4</td>
<td id="95145DFC5346D994DB8057174DEDFAC0" box="[1185,1223,1289,1309]" gridcol="7" gridrow="27" pageId="5" pageNumber="74">1.0</td>
<td id="95145DFC5346D994DBD957174C1FFAC0" box="[1272,1333,1289,1309]" gridcol="8" gridrow="27" pageId="5" pageNumber="74">8.3</td>
<td id="95145DFC5346D994DA4B57174CA8FAC0" box="[1386,1410,1289,1309]" gridcol="9" gridrow="27" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A57304CA8FA9F" box="[123,1410,1326,1346]" gridrow="28" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E57304B5AFA9F" box="[559,624,1326,1346]" gridcol="1" gridrow="28" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB57304BE0FA9F" box="[666,714,1326,1346]" gridcol="2" gridrow="28" pageId="5" pageNumber="74">47</td>
<td id="95145DFC5346D994DC2157304A13FA9F" box="[768,825,1326,1346]" gridcol="3" gridrow="28" pageId="5" pageNumber="74">74</td>
<td id="95145DFC5346D994DC4457304AB4FA9F" box="[869,926,1326,1346]" gridcol="4" gridrow="28" pageId="5" pageNumber="74">61.2</td>
<td id="95145DFC5346D994DCEA57304D2EFA9F" box="[971,1028,1326,1346]" gridcol="5" gridrow="28" pageId="5" pageNumber="74">62.0</td>
<td id="95145DFC5346D994DB1B57304D4BFA9F" box="[1082,1121,1326,1346]" gridcol="6" gridrow="28" pageId="5" pageNumber="74">5.7</td>
<td id="95145DFC5346D994DB8057304DEDFA9F" box="[1185,1223,1326,1346]" gridcol="7" gridrow="28" pageId="5" pageNumber="74">1.1</td>
<td id="95145DFC5346D994DBD957304C1FFA9F" box="[1272,1333,1326,1346]" gridcol="8" gridrow="28" pageId="5" pageNumber="74">9.3</td>
<td id="95145DFC5346D994DA4B57304CA8FA9F" box="[1386,1410,1326,1346]" gridcol="9" gridrow="28" pageId="5" pageNumber="74">25</td>
</tr>
<tr id="D6C534805346D994DF5A574A4CA8FABA" box="[123,1410,1364,1383]" gridrow="29" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A574A4B2EFA50" box="[123,516,1364,1421]" gridcol="0" gridrow="29" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Frontal cirri, number</th>
<td id="95145DFC5346D994DD0E574A4B5AFABA" box="[559,624,1364,1383]" gridcol="1" gridrow="29" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB574A4BE0FABA" box="[666,714,1364,1383]" gridcol="2" gridrow="29" pageId="5" pageNumber="74">3</td>
<td id="95145DFC5346D994DC21574A4A13FABA" box="[768,825,1364,1383]" gridcol="3" gridrow="29" pageId="5" pageNumber="74">3</td>
<td id="95145DFC5346D994DC44574A4AB4FABA" box="[869,926,1364,1383]" gridcol="4" gridrow="29" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DCEA574A4D2EFABA" box="[971,1028,1364,1383]" gridcol="5" gridrow="29" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DB1B574A4D4BFABA" box="[1082,1121,1364,1383]" gridcol="6" gridrow="29" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DB80574A4DEDFABA" box="[1185,1223,1364,1383]" gridcol="7" gridrow="29" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DBD9574A4C1FFABA" box="[1272,1333,1364,1383]" gridcol="8" gridrow="29" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DA4B574A4CA8FABA" box="[1386,1410,1364,1383]" gridcol="9" gridrow="29" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A57674CA8FA50" box="[123,1410,1401,1421]" gridrow="30" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E57674B5AFA50" box="[559,624,1401,1421]" gridcol="1" gridrow="30" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB57674BE0FA50" box="[666,714,1401,1421]" gridcol="2" gridrow="30" pageId="5" pageNumber="74">25</td>
<td id="95145DFC5346D994DC2157674A13FA50" box="[768,825,1401,1421]" gridcol="3" gridrow="30" pageId="5" pageNumber="74">43</td>
<td id="95145DFC5346D994DC4457674AB4FA50" box="[869,926,1401,1421]" gridcol="4" gridrow="30" pageId="5" pageNumber="74">35.5</td>
<td id="95145DFC5346D994DCEA57674D2EFA50" box="[971,1028,1401,1421]" gridcol="5" gridrow="30" pageId="5" pageNumber="74">35.5</td>
<td id="95145DFC5346D994DB1B57674D4BFA50" box="[1082,1121,1401,1421]" gridcol="6" gridrow="30" pageId="5" pageNumber="74">4.5</td>
<td id="95145DFC5346D994DB8057674DEDFA50" box="[1185,1223,1401,1421]" gridcol="7" gridrow="30" pageId="5" pageNumber="74">0.9</td>
<td id="95145DFC5346D994DBD957674C1FFA50" box="[1272,1333,1401,1421]" gridcol="8" gridrow="30" pageId="5" pageNumber="74">12.7</td>
<td id="95145DFC5346D994DA4B57674CA8FA50" box="[1386,1410,1401,1421]" gridcol="9" gridrow="30" pageId="5" pageNumber="74">24</td>
</tr>
<tr id="D6C534805346D994DF5A57814CA8FA6F" box="[123,1410,1439,1458]" gridrow="31" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A57814B2EFA05" box="[123,516,1439,1496]" gridcol="0" gridrow="31" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Buccal cirri, number</th>
<td id="95145DFC5346D994DD0E57814B5AFA6F" box="[559,624,1439,1458]" gridcol="1" gridrow="31" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB57814BE0FA6F" box="[666,714,1439,1458]" gridcol="2" gridrow="31" pageId="5" pageNumber="74">1</td>
<td id="95145DFC5346D994DC2157814A13FA6F" box="[768,825,1439,1458]" gridcol="3" gridrow="31" pageId="5" pageNumber="74">1</td>
<td id="95145DFC5346D994DC4457814AB4FA6F" box="[869,926,1439,1458]" gridcol="4" gridrow="31" pageId="5" pageNumber="74">1.0</td>
<td id="95145DFC5346D994DCEA57814D2EFA6F" box="[971,1028,1439,1458]" gridcol="5" gridrow="31" pageId="5" pageNumber="74">1.0</td>
<td id="95145DFC5346D994DB1B57814D4BFA6F" box="[1082,1121,1439,1458]" gridcol="6" gridrow="31" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DB8057814DEDFA6F" box="[1185,1223,1439,1458]" gridcol="7" gridrow="31" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DBD957814C1FFA6F" box="[1272,1333,1439,1458]" gridcol="8" gridrow="31" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DA4B57814CA8FA6F" box="[1386,1410,1439,1458]" gridcol="9" gridrow="31" pageId="5" pageNumber="74">11</td>
</tr>
<tr id="D6C534805346D994DF5A57DA4CA8FA05" box="[123,1410,1476,1496]" gridrow="32" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E57DA4B5AFA05" box="[559,624,1476,1496]" gridcol="1" gridrow="32" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB57DA4BE0FA05" box="[666,714,1476,1496]" gridcol="2" gridrow="32" pageId="5" pageNumber="74">3</td>
<td id="95145DFC5346D994DC2157DA4A13FA05" box="[768,825,1476,1496]" gridcol="3" gridrow="32" pageId="5" pageNumber="74">4</td>
<td id="95145DFC5346D994DC4457DA4AB4FA05" box="[869,926,1476,1496]" gridcol="4" gridrow="32" pageId="5" pageNumber="74">3.3</td>
<td id="95145DFC5346D994DCEA57DA4D2EFA05" box="[971,1028,1476,1496]" gridcol="5" gridrow="32" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DB1B57DA4D4BFA05" box="[1082,1121,1476,1496]" gridcol="6" gridrow="32" pageId="5" pageNumber="74">0.5</td>
<td id="95145DFC5346D994DB8057DA4DEDFA05" box="[1185,1223,1476,1496]" gridcol="7" gridrow="32" pageId="5" pageNumber="74">0.1</td>
<td id="95145DFC5346D994DBD957DA4C1FFA05" box="[1272,1333,1476,1496]" gridcol="8" gridrow="32" pageId="5" pageNumber="74">14.3</td>
<td id="95145DFC5346D994DA4B57DA4CA8FA05" box="[1386,1410,1476,1496]" gridcol="9" gridrow="32" pageId="5" pageNumber="74">25</td>
</tr>
<tr id="D6C534805346D994DF5A57F44CA8FA20" box="[123,1410,1514,1533]" gridrow="33" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A57F44B2EFA20" box="[123,516,1514,1533]" gridcol="0" gridrow="33" pageId="5" pageNumber="74">AE to proximal end of AZM, distance</th>
<td id="95145DFC5346D994DD0E57F44B5AFA20" box="[559,624,1514,1533]" gridcol="1" gridrow="33" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB57F44BE0FA20" box="[666,714,1514,1533]" gridcol="2" gridrow="33" pageId="5" pageNumber="74">38.0</td>
<td id="95145DFC5346D994DC2157F44A13FA20" box="[768,825,1514,1533]" gridcol="3" gridrow="33" pageId="5" pageNumber="74">99.0</td>
<td id="95145DFC5346D994DC4457F44AB4FA20" box="[869,926,1514,1533]" gridcol="4" gridrow="33" pageId="5" pageNumber="74">77.3</td>
<td id="95145DFC5346D994DCEA57F44D2EFA20" box="[971,1028,1514,1533]" gridcol="5" gridrow="33" pageId="5" pageNumber="74">78.0</td>
<td id="95145DFC5346D994DB1B57F44D4BFA20" box="[1082,1121,1514,1533]" gridcol="6" gridrow="33" pageId="5" pageNumber="74">15.7</td>
<td id="95145DFC5346D994DB8057F44DEDFA20" box="[1185,1223,1514,1533]" gridcol="7" gridrow="33" pageId="5" pageNumber="74">3.1</td>
<td id="95145DFC5346D994DBD957F44C1FFA20" box="[1272,1333,1514,1533]" gridcol="8" gridrow="33" pageId="5" pageNumber="74">20.3</td>
<td id="95145DFC5346D994DA4B57F44CA8FA20" box="[1386,1410,1514,1533]" gridcol="9" gridrow="33" pageId="5" pageNumber="74">25</td>
</tr>
<tr id="D6C534805346D994DF5A54114CA8F9FE" box="[123,1410,1551,1571]" gridrow="34" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A54114B2EF9FE" box="[123,516,1551,1571]" gridcol="0" gridrow="34" pageId="5" pageNumber="74">AE to distal end of AZM, distance</th>
<td id="95145DFC5346D994DD0E54114B5AF9FE" box="[559,624,1551,1571]" gridcol="1" gridrow="34" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB54114BE0F9FE" box="[666,714,1551,1571]" gridcol="2" gridrow="34" pageId="5" pageNumber="74">12.0</td>
<td id="95145DFC5346D994DC2154114A13F9FE" box="[768,825,1551,1571]" gridcol="3" gridrow="34" pageId="5" pageNumber="74">58.0</td>
<td id="95145DFC5346D994DC4454114AB4F9FE" box="[869,926,1551,1571]" gridcol="4" gridrow="34" pageId="5" pageNumber="74">33.4</td>
<td id="95145DFC5346D994DCEA54114D2EF9FE" box="[971,1028,1551,1571]" gridcol="5" gridrow="34" pageId="5" pageNumber="74">33.0</td>
<td id="95145DFC5346D994DB1B54114D4BF9FE" box="[1082,1121,1551,1571]" gridcol="6" gridrow="34" pageId="5" pageNumber="74">10.1</td>
<td id="95145DFC5346D994DB8054114DEDF9FE" box="[1185,1223,1551,1571]" gridcol="7" gridrow="34" pageId="5" pageNumber="74">2.0</td>
<td id="95145DFC5346D994DBD954114C1FF9FE" box="[1272,1333,1551,1571]" gridcol="8" gridrow="34" pageId="5" pageNumber="74">30.4</td>
<td id="95145DFC5346D994DA4B54114CA8F9FE" box="[1386,1410,1551,1571]" gridcol="9" gridrow="34" pageId="5" pageNumber="74">25</td>
</tr>
<tr id="D6C534805346D994DF5A542B4CA8F995" box="[123,1410,1589,1608]" gridrow="35" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A542B4B2EF995" box="[123,516,1589,1608]" gridcol="0" gridrow="35" pageId="5" pageNumber="74">DE value</th>
<td id="95145DFC5346D994DD0E542B4B5AF995" box="[559,624,1589,1608]" gridcol="1" gridrow="35" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB542B4BE0F995" box="[666,714,1589,1608]" gridcol="2" gridrow="35" pageId="5" pageNumber="74">0.3</td>
<td id="95145DFC5346D994DC21542B4A13F995" box="[768,825,1589,1608]" gridcol="3" gridrow="35" pageId="5" pageNumber="74">0.59</td>
<td id="95145DFC5346D994DC44542B4AB4F995" box="[869,926,1589,1608]" gridcol="4" gridrow="35" pageId="5" pageNumber="74">0.42</td>
<td id="95145DFC5346D994DCEA542B4D2EF995" box="[971,1028,1589,1608]" gridcol="5" gridrow="35" pageId="5" pageNumber="74">0.42</td>
<td id="95145DFC5346D994DB1B542B4D4BF995" box="[1082,1121,1589,1608]" gridcol="6" gridrow="35" pageId="5" pageNumber="74">0.1</td>
<td id="95145DFC5346D994DB80542B4DEDF995" box="[1185,1223,1589,1608]" gridcol="7" gridrow="35" pageId="5" pageNumber="74">0.0</td>
<td id="95145DFC5346D994DBD9542B4C1FF995" box="[1272,1333,1589,1608]" gridcol="8" gridrow="35" pageId="5" pageNumber="74">16.7</td>
<td id="95145DFC5346D994DA4B542B4CA8F995" box="[1386,1410,1589,1608]" gridcol="9" gridrow="35" pageId="5" pageNumber="74">25</td>
</tr>
<tr id="D6C534805346D994DF5A54444CA8F9B3" box="[123,1410,1626,1646]" gridrow="36" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A54444B2EF9B3" box="[123,516,1626,1646]" gridcol="0" gridrow="36" pageId="5" pageNumber="74">AE to paroral, distance</th>
<td id="95145DFC5346D994DD0E54444B5AF9B3" box="[559,624,1626,1646]" gridcol="1" gridrow="36" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB54444BE0F9B3" box="[666,714,1626,1646]" gridcol="2" gridrow="36" pageId="5" pageNumber="74">23.0</td>
<td id="95145DFC5346D994DC2154444A13F9B3" box="[768,825,1626,1646]" gridcol="3" gridrow="36" pageId="5" pageNumber="74">50.0</td>
<td id="95145DFC5346D994DC4454444AB4F9B3" box="[869,926,1626,1646]" gridcol="4" gridrow="36" pageId="5" pageNumber="74">38.3</td>
<td id="95145DFC5346D994DCEA54444D2EF9B3" box="[971,1028,1626,1646]" gridcol="5" gridrow="36" pageId="5" pageNumber="74">40.0</td>
<td id="95145DFC5346D994DB1B54444D4BF9B3" box="[1082,1121,1626,1646]" gridcol="6" gridrow="36" pageId="5" pageNumber="74">6.3</td>
<td id="95145DFC5346D994DB8054444DEDF9B3" box="[1185,1223,1626,1646]" gridcol="7" gridrow="36" pageId="5" pageNumber="74">1.3</td>
<td id="95145DFC5346D994DBD954444C1FF9B3" box="[1272,1333,1626,1646]" gridcol="8" gridrow="36" pageId="5" pageNumber="74">16.4</td>
<td id="95145DFC5346D994DA4B54444CA8F9B3" box="[1386,1410,1626,1646]" gridcol="9" gridrow="36" pageId="5" pageNumber="74">22</td>
</tr>
<tr id="D6C534805346D994DF5A549E4CA8F94E" box="[123,1410,1664,1683]" gridrow="37" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A549E4B2EF94E" box="[123,516,1664,1683]" gridcol="0" gridrow="37" pageId="5" pageNumber="74">Paroral, length</th>
<td id="95145DFC5346D994DD0E549E4B5AF94E" box="[559,624,1664,1683]" gridcol="1" gridrow="37" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB549E4BE0F94E" box="[666,714,1664,1683]" gridcol="2" gridrow="37" pageId="5" pageNumber="74">21.0</td>
<td id="95145DFC5346D994DC21549E4A13F94E" box="[768,825,1664,1683]" gridcol="3" gridrow="37" pageId="5" pageNumber="74">43.0</td>
<td id="95145DFC5346D994DC44549E4AB4F94E" box="[869,926,1664,1683]" gridcol="4" gridrow="37" pageId="5" pageNumber="74">33.4</td>
<td id="95145DFC5346D994DCEA549E4D2EF94E" box="[971,1028,1664,1683]" gridcol="5" gridrow="37" pageId="5" pageNumber="74">33.0</td>
<td id="95145DFC5346D994DB1B549E4D4BF94E" box="[1082,1121,1664,1683]" gridcol="6" gridrow="37" pageId="5" pageNumber="74">5.3</td>
<td id="95145DFC5346D994DB80549E4DEDF94E" box="[1185,1223,1664,1683]" gridcol="7" gridrow="37" pageId="5" pageNumber="74">1.1</td>
<td id="95145DFC5346D994DBD9549E4C1FF94E" box="[1272,1333,1664,1683]" gridcol="8" gridrow="37" pageId="5" pageNumber="74">15.8</td>
<td id="95145DFC5346D994DA4B549E4CA8F94E" box="[1386,1410,1664,1683]" gridcol="9" gridrow="37" pageId="5" pageNumber="74">22</td>
</tr>
<tr id="D6C534805346D994DF5A54BB4CA8F964" box="[123,1410,1701,1721]" gridrow="38" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A54BB4B2EF964" box="[123,516,1701,1721]" gridcol="0" gridrow="38" pageId="5" pageNumber="74">AE to first buccal cirrus, distance</th>
<td id="95145DFC5346D994DD0E54BB4B5AF964" box="[559,624,1701,1721]" gridcol="1" gridrow="38" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB54BB4BE0F964" box="[666,714,1701,1721]" gridcol="2" gridrow="38" pageId="5" pageNumber="74">30.0</td>
<td id="95145DFC5346D994DC2154BB4A13F964" box="[768,825,1701,1721]" gridcol="3" gridrow="38" pageId="5" pageNumber="74">64.0</td>
<td id="95145DFC5346D994DC4454BB4AB4F964" box="[869,926,1701,1721]" gridcol="4" gridrow="38" pageId="5" pageNumber="74">49.0</td>
<td id="95145DFC5346D994DCEA54BB4D2EF964" box="[971,1028,1701,1721]" gridcol="5" gridrow="38" pageId="5" pageNumber="74">51.0</td>
<td id="95145DFC5346D994DB1B54BB4D4BF964" box="[1082,1121,1701,1721]" gridcol="6" gridrow="38" pageId="5" pageNumber="74">7.5</td>
<td id="95145DFC5346D994DB8054BB4DEDF964" box="[1185,1223,1701,1721]" gridcol="7" gridrow="38" pageId="5" pageNumber="74">1.6</td>
<td id="95145DFC5346D994DBD954BB4C1FF964" box="[1272,1333,1701,1721]" gridcol="8" gridrow="38" pageId="5" pageNumber="74">15.3</td>
<td id="95145DFC5346D994DA4B54BB4CA8F964" box="[1386,1410,1701,1721]" gridcol="9" gridrow="38" pageId="5" pageNumber="74">21</td>
</tr>
<tr id="D6C534805346D994DF5A54D54CA8F903" box="[123,1410,1739,1758]" gridrow="39" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A54D54B2EF903" box="[123,516,1739,1758]" gridcol="0" gridrow="39" pageId="5" pageNumber="74">AE to last buccal cirrus, distance</th>
<td id="95145DFC5346D994DD0E54D54B5AF903" box="[559,624,1739,1758]" gridcol="1" gridrow="39" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB54D54BE0F903" box="[666,714,1739,1758]" gridcol="2" gridrow="39" pageId="5" pageNumber="74">36.0</td>
<td id="95145DFC5346D994DC2154D54A13F903" box="[768,825,1739,1758]" gridcol="3" gridrow="39" pageId="5" pageNumber="74">75.0</td>
<td id="95145DFC5346D994DC4454D54AB4F903" box="[869,926,1739,1758]" gridcol="4" gridrow="39" pageId="5" pageNumber="74">59.2</td>
<td id="95145DFC5346D994DCEA54D54D2EF903" box="[971,1028,1739,1758]" gridcol="5" gridrow="39" pageId="5" pageNumber="74">62.0</td>
<td id="95145DFC5346D994DB1B54D54D4BF903" box="[1082,1121,1739,1758]" gridcol="6" gridrow="39" pageId="5" pageNumber="74">8.7</td>
<td id="95145DFC5346D994DB8054D54DEDF903" box="[1185,1223,1739,1758]" gridcol="7" gridrow="39" pageId="5" pageNumber="74">1.9</td>
<td id="95145DFC5346D994DBD954D54C1FF903" box="[1272,1333,1739,1758]" gridcol="8" gridrow="39" pageId="5" pageNumber="74">14.7</td>
<td id="95145DFC5346D994DA4B54D54CA8F903" box="[1386,1410,1739,1758]" gridcol="9" gridrow="39" pageId="5" pageNumber="74">21</td>
</tr>
<tr id="D6C534805346D994DF5A54EE4CA8F8D9" box="[123,1410,1776,1796]" gridrow="40" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A54EE4B2EF8F4" box="[123,516,1776,1833]" gridcol="0" gridrow="40" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">Frontoterminal row, number of cirri</th>
<td id="95145DFC5346D994DD0E54EE4B5AF8D9" box="[559,624,1776,1796]" gridcol="1" gridrow="40" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB54EE4BE0F8D9" box="[666,714,1776,1796]" gridcol="2" gridrow="40" pageId="5" pageNumber="74">20</td>
<td id="95145DFC5346D994DC2154EE4A13F8D9" box="[768,825,1776,1796]" gridcol="3" gridrow="40" pageId="5" pageNumber="74">28</td>
<td id="95145DFC5346D994DC4454EE4AB4F8D9" box="[869,926,1776,1796]" gridcol="4" gridrow="40" pageId="5" pageNumber="74">25.1</td>
<td id="95145DFC5346D994DCEA54EE4D2EF8D9" box="[971,1028,1776,1796]" gridcol="5" gridrow="40" pageId="5" pageNumber="74">25.5</td>
<td id="95145DFC5346D994DB1B54EE4D4BF8D9" box="[1082,1121,1776,1796]" gridcol="6" gridrow="40" pageId="5" pageNumber="74">3.0</td>
<td id="95145DFC5346D994DB8054EE4DEDF8D9" box="[1185,1223,1776,1796]" gridcol="7" gridrow="40" pageId="5" pageNumber="74">0.9</td>
<td id="95145DFC5346D994DBD954EE4C1FF8D9" box="[1272,1333,1776,1796]" gridcol="8" gridrow="40" pageId="5" pageNumber="74">11.9</td>
<td id="95145DFC5346D994DA4B54EE4CA8F8D9" box="[1386,1410,1776,1796]" gridcol="9" gridrow="40" pageId="5" pageNumber="74">10</td>
</tr>
<tr id="D6C534805346D994DF5A550B4CA8F8F4" box="[123,1410,1813,1833]" gridrow="41" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E550B4B5AF8F4" box="[559,624,1813,1833]" gridcol="1" gridrow="41" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB550B4BE0F8F4" box="[666,714,1813,1833]" gridcol="2" gridrow="41" pageId="5" pageNumber="74">30</td>
<td id="95145DFC5346D994DC21550B4A13F8F4" box="[768,825,1813,1833]" gridcol="3" gridrow="41" pageId="5" pageNumber="74">60</td>
<td id="95145DFC5346D994DC44550B4AB4F8F4" box="[869,926,1813,1833]" gridcol="4" gridrow="41" pageId="5" pageNumber="74">49.5</td>
<td id="95145DFC5346D994DCEA550B4D2EF8F4" box="[971,1028,1813,1833]" gridcol="5" gridrow="41" pageId="5" pageNumber="74">50.0</td>
<td id="95145DFC5346D994DB1B550B4D4BF8F4" box="[1082,1121,1813,1833]" gridcol="6" gridrow="41" pageId="5" pageNumber="74">6.9</td>
<td id="95145DFC5346D994DB80550B4DEDF8F4" box="[1185,1223,1813,1833]" gridcol="7" gridrow="41" pageId="5" pageNumber="74">1.4</td>
<td id="95145DFC5346D994DBD9550B4C1FF8F4" box="[1272,1333,1813,1833]" gridcol="8" gridrow="41" pageId="5" pageNumber="74">13.9</td>
<td id="95145DFC5346D994DA4B550B4CA8F8F4" box="[1386,1410,1813,1833]" gridcol="9" gridrow="41" pageId="5" pageNumber="74">23</td>
</tr>
<tr id="D6C534805346D994DF5A55254CA8F892" box="[123,1410,1851,1871]" gridrow="42" pageId="5" pageNumber="74">
<th id="95145DFC5346D994DF5A55254B2EF8A9" box="[123,516,1851,1908]" gridcol="0" gridrow="42" pageId="5" pageNumber="74" rowspan="2" rowspanBelow="1">RMR, number of cirri</th>
<td id="95145DFC5346D994DD0E55254B5AF892" box="[559,624,1851,1871]" gridcol="1" gridrow="42" pageId="5" pageNumber="74">te</td>
<td id="95145DFC5346D994DDBB55254BE0F892" box="[666,714,1851,1871]" gridcol="2" gridrow="42" pageId="5" pageNumber="74">39</td>
<td id="95145DFC5346D994DC2155254A13F892" box="[768,825,1851,1871]" gridcol="3" gridrow="42" pageId="5" pageNumber="74">57</td>
<td id="95145DFC5346D994DC4455254AB4F892" box="[869,926,1851,1871]" gridcol="4" gridrow="42" pageId="5" pageNumber="74">45.6</td>
<td id="95145DFC5346D994DCEA55254D2EF892" box="[971,1028,1851,1871]" gridcol="5" gridrow="42" pageId="5" pageNumber="74">45.5</td>
<td id="95145DFC5346D994DB1B55254D4BF892" box="[1082,1121,1851,1871]" gridcol="6" gridrow="42" pageId="5" pageNumber="74">5.2</td>
<td id="95145DFC5346D994DB8055254DEDF892" box="[1185,1223,1851,1871]" gridcol="7" gridrow="42" pageId="5" pageNumber="74">1.6</td>
<td id="95145DFC5346D994DBD955254C1FF892" box="[1272,1333,1851,1871]" gridcol="8" gridrow="42" pageId="5" pageNumber="74">11.4</td>
<td id="95145DFC5346D994DA4B55254CA8F892" box="[1386,1410,1851,1871]" gridcol="9" gridrow="42" pageId="5" pageNumber="74">10</td>
</tr>
<tr id="D6C534805346D994DF5A557F4CA8F8A9" box="[123,1410,1889,1908]" gridrow="43" pageId="5" pageNumber="74">
<td id="95145DFC5346D994DD0E557F4B5AF8A9" box="[559,624,1889,1908]" gridcol="1" gridrow="43" pageId="5" pageNumber="74">lu</td>
<td id="95145DFC5346D994DDBB557F4BE0F8A9" box="[666,714,1889,1908]" gridcol="2" gridrow="43" pageId="5" pageNumber="74">41</td>
<td id="95145DFC5346D994DC21557F4A13F8A9" box="[768,825,1889,1908]" gridcol="3" gridrow="43" pageId="5" pageNumber="74">78</td>
<td id="95145DFC5346D994DC44557F4AB4F8A9" box="[869,926,1889,1908]" gridcol="4" gridrow="43" pageId="5" pageNumber="74">58.4</td>
<td id="95145DFC5346D994DCEA557F4D2EF8A9" box="[971,1028,1889,1908]" gridcol="5" gridrow="43" pageId="5" pageNumber="74">59.0</td>
<td id="95145DFC5346D994DB1B557F4D4BF8A9" box="[1082,1121,1889,1908]" gridcol="6" gridrow="43" pageId="5" pageNumber="74">7.9</td>
<td id="95145DFC5346D994DB80557F4DEDF8A9" box="[1185,1223,1889,1908]" gridcol="7" gridrow="43" pageId="5" pageNumber="74">1.8</td>
<td id="95145DFC5346D994DBD9557F4C1FF8A9" box="[1272,1333,1889,1908]" gridcol="8" gridrow="43" pageId="5" pageNumber="74">13.6</td>
<td id="95145DFC5346D994DA4B557F4CA8F8A9" box="[1386,1410,1889,1908]" gridcol="9" gridrow="43" pageId="5" pageNumber="74">20</td>
</tr>
</table>
</paragraph>
<paragraph id="684A36C25345266DDFA552F54CA2FB5C" pageId="6" pageNumber="75">
<table id="1AF5C4625345D994DFA252F44CA3FB5C" box="[131,1417,234,1153]" colsContinueFrom="5.[123,1410,276,1908]" gridcols="10" gridrows="25" pageId="6" pageNumber="75">
<tr id="D6C534805345D994DFA252F44CA3FF23" box="[131,1417,234,254]" gridrow="0" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA252F44B3FFEFE" box="[131,533,234,291]" gridcol="0" gridrow="0" pageId="6" pageNumber="75" rowspan="2" rowspanBelow="1">LMR, number of cirri</th>
<th id="95145DFC5345D994DD6F52F44B4AFF23" box="[590,608,234,254]" gridcol="1" gridrow="0" pageId="6" pageNumber="75">te</th>
<th id="95145DFC5345D994DD8D52F44BFBFF23" box="[684,721,234,254]" gridcol="2" gridrow="0" pageId="6" pageNumber="75">32</th>
<th id="95145DFC5345D994DC2652F44A1DFF23" box="[775,823,234,254]" gridcol="3" gridrow="0" pageId="6" pageNumber="75">45</th>
<th id="95145DFC5345D994DC4C52F44AB7FF23" box="[877,925,234,254]" gridcol="4" gridrow="0" pageId="6" pageNumber="75">39.0</th>
<th id="95145DFC5345D994DCF352F44D29FF23" box="[978,1027,234,254]" gridcol="5" gridrow="0" pageId="6" pageNumber="75">39.0</th>
<th id="95145DFC5345D994DB6352F44D43FF23" box="[1090,1129,234,254]" gridcol="6" gridrow="0" pageId="6" pageNumber="75">5.0</th>
<th id="95145DFC5345D994DB8952F44DE4FF23" box="[1192,1230,234,254]" gridcol="7" gridrow="0" pageId="6" pageNumber="75">1.6</th>
<th id="95145DFC5345D994DA2C52F44C1EFF23" box="[1293,1332,234,254]" gridcol="8" gridrow="0" pageId="6" pageNumber="75">12.8</th>
<th id="95145DFC5345D994DA5252F44CA3FF23" box="[1395,1417,234,254]" gridcol="9" gridrow="0" pageId="6" pageNumber="75">10</th>
</tr>
<tr id="D6C534805345D994DFA2530E4CA3FEFE" box="[131,1417,272,291]" gridrow="1" pageId="6" pageNumber="75">
<td id="95145DFC5345D994DD6F530E4B4AFEFE" box="[590,608,272,291]" gridcol="1" gridrow="1" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D530E4BFBFEFE" box="[684,721,272,291]" gridcol="2" gridrow="1" pageId="6" pageNumber="75">46</td>
<td id="95145DFC5345D994DC26530E4A1DFEFE" box="[775,823,272,291]" gridcol="3" gridrow="1" pageId="6" pageNumber="75">61</td>
<td id="95145DFC5345D994DC4C530E4AB7FEFE" box="[877,925,272,291]" gridcol="4" gridrow="1" pageId="6" pageNumber="75">52.2</td>
<td id="95145DFC5345D994DCF3530E4D29FEFE" box="[978,1027,272,291]" gridcol="5" gridrow="1" pageId="6" pageNumber="75">53.0</td>
<td id="95145DFC5345D994DB63530E4D43FEFE" box="[1090,1129,272,291]" gridcol="6" gridrow="1" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DB89530E4DE4FEFE" box="[1192,1230,272,291]" gridcol="7" gridrow="1" pageId="6" pageNumber="75">0.9</td>
<td id="95145DFC5345D994DA2C530E4C1EFEFE" box="[1293,1332,272,291]" gridcol="8" gridrow="1" pageId="6" pageNumber="75">7.6</td>
<td id="95145DFC5345D994DA52530E4CA3FEFE" box="[1395,1417,272,291]" gridcol="9" gridrow="1" pageId="6" pageNumber="75">20</td>
</tr>
<tr id="D6C534805345D994DFA2532B4CA3FE94" box="[131,1417,309,329]" gridrow="2" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA2532B4B3FFEB3" box="[131,533,309,366]" gridcol="0" gridrow="2" pageId="6" pageNumber="75" rowspan="2" rowspanBelow="1">Midventral rows, number</th>
<td id="95145DFC5345D994DD6F532B4B4AFE94" box="[590,608,309,329]" gridcol="1" gridrow="2" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D532B4BFBFE94" box="[684,721,309,329]" gridcol="2" gridrow="2" pageId="6" pageNumber="75">8</td>
<td id="95145DFC5345D994DC26532B4A1DFE94" box="[775,823,309,329]" gridcol="3" gridrow="2" pageId="6" pageNumber="75">9</td>
<td id="95145DFC5345D994DC4C532B4AB7FE94" box="[877,925,309,329]" gridcol="4" gridrow="2" pageId="6" pageNumber="75">8.6</td>
<td id="95145DFC5345D994DCF3532B4D29FE94" box="[978,1027,309,329]" gridcol="5" gridrow="2" pageId="6" pageNumber="75">9.0</td>
<td id="95145DFC5345D994DB63532B4D43FE94" box="[1090,1129,309,329]" gridcol="6" gridrow="2" pageId="6" pageNumber="75">0.5</td>
<td id="95145DFC5345D994DB89532B4DE4FE94" box="[1192,1230,309,329]" gridcol="7" gridrow="2" pageId="6" pageNumber="75">0.2</td>
<td id="95145DFC5345D994DA2C532B4C1EFE94" box="[1293,1332,309,329]" gridcol="8" gridrow="2" pageId="6" pageNumber="75">6.2</td>
<td id="95145DFC5345D994DA52532B4CA3FE94" box="[1395,1417,309,329]" gridcol="9" gridrow="2" pageId="6" pageNumber="75">9</td>
</tr>
<tr id="D6C534805345D994DFA253454CA3FEB3" box="[131,1417,347,366]" gridrow="3" pageId="6" pageNumber="75">
<td id="95145DFC5345D994DD6F53454B4AFEB3" box="[590,608,347,366]" gridcol="1" gridrow="3" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D53454BFBFEB3" box="[684,721,347,366]" gridcol="2" gridrow="3" pageId="6" pageNumber="75">1</td>
<td id="95145DFC5345D994DC2653454A1DFEB3" box="[775,823,347,366]" gridcol="3" gridrow="3" pageId="6" pageNumber="75">2</td>
<td id="95145DFC5345D994DC4C53454AB7FEB3" box="[877,925,347,366]" gridcol="4" gridrow="3" pageId="6" pageNumber="75">1.1</td>
<td id="95145DFC5345D994DCF353454D29FEB3" box="[978,1027,347,366]" gridcol="5" gridrow="3" pageId="6" pageNumber="75">1.0</td>
<td id="95145DFC5345D994DB6353454D43FEB3" box="[1090,1129,347,366]" gridcol="6" gridrow="3" pageId="6" pageNumber="75">0.3</td>
<td id="95145DFC5345D994DB8953454DE4FEB3" box="[1192,1230,347,366]" gridcol="7" gridrow="3" pageId="6" pageNumber="75">0.1</td>
<td id="95145DFC5345D994DA2C53454C1EFEB3" box="[1293,1332,347,366]" gridcol="8" gridrow="3" pageId="6" pageNumber="75">28.4</td>
<td id="95145DFC5345D994DA5253454CA3FEB3" box="[1395,1417,347,366]" gridcol="9" gridrow="3" pageId="6" pageNumber="75">37</td>
</tr>
<tr id="D6C534805345D994DFA2539E4CA3FE49" box="[131,1417,384,404]" gridrow="4" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA2539E4B3FFE49" box="[131,533,384,404]" gridcol="0" gridrow="4" pageId="6" pageNumber="75">
<collectionCode id="0EE4AE075345266DDFA5539F4986FE49" box="[132,172,385,404]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
1, number of cirri
</th>
<td id="95145DFC5345D994DD6F539E4B4AFE49" box="[590,608,384,404]" gridcol="1" gridrow="4" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D539E4BFBFE49" box="[684,721,384,404]" gridcol="2" gridrow="4" pageId="6" pageNumber="75">21</td>
<td id="95145DFC5345D994DC26539E4A1DFE49" box="[775,823,384,404]" gridcol="3" gridrow="4" pageId="6" pageNumber="75">37</td>
<td id="95145DFC5345D994DC4C539E4AB7FE49" box="[877,925,384,404]" gridcol="4" gridrow="4" pageId="6" pageNumber="75">30.7</td>
<td id="95145DFC5345D994DCF3539E4D29FE49" box="[978,1027,384,404]" gridcol="5" gridrow="4" pageId="6" pageNumber="75">31.0</td>
<td id="95145DFC5345D994DB63539E4D43FE49" box="[1090,1129,384,404]" gridcol="6" gridrow="4" pageId="6" pageNumber="75">4.2</td>
<td id="95145DFC5345D994DB89539E4DE4FE49" box="[1192,1230,384,404]" gridcol="7" gridrow="4" pageId="6" pageNumber="75">0.9</td>
<td id="95145DFC5345D994DA2C539E4C1EFE49" box="[1293,1332,384,404]" gridcol="8" gridrow="4" pageId="6" pageNumber="75">13.7</td>
<td id="95145DFC5345D994DA52539E4CA3FE49" box="[1395,1417,384,404]" gridcol="9" gridrow="4" pageId="6" pageNumber="75">23</td>
</tr>
<tr id="D6C534805345D994DFA253B84CA3FE64" box="[131,1417,422,441]" gridrow="5" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA253B84B3FFE64" box="[131,533,422,441]" gridcol="0" gridrow="5" pageId="6" pageNumber="75">
<collectionCode id="0EE4AE075345266DDFA553B84983FE64" box="[132,169,422,441]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
2, number of cirri
</th>
<td id="95145DFC5345D994DD6F53B84B4AFE64" box="[590,608,422,441]" gridcol="1" gridrow="5" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D53B84BFBFE64" box="[684,721,422,441]" gridcol="2" gridrow="5" pageId="6" pageNumber="75">5</td>
<td id="95145DFC5345D994DC2653B84A1DFE64" box="[775,823,422,441]" gridcol="3" gridrow="5" pageId="6" pageNumber="75">33</td>
<td id="95145DFC5345D994DC4C53B84AB7FE64" box="[877,925,422,441]" gridcol="4" gridrow="5" pageId="6" pageNumber="75">23.5</td>
<td id="95145DFC5345D994DCF353B84D29FE64" box="[978,1027,422,441]" gridcol="5" gridrow="5" pageId="6" pageNumber="75">28.0</td>
<td id="95145DFC5345D994DB6353B84D43FE64" box="[1090,1129,422,441]" gridcol="6" gridrow="5" pageId="6" pageNumber="75">13.0</td>
<td id="95145DFC5345D994DB8953B84DE4FE64" box="[1192,1230,422,441]" gridcol="7" gridrow="5" pageId="6" pageNumber="75">6.5</td>
<td id="95145DFC5345D994DA2C53B84C1EFE64" box="[1293,1332,422,441]" gridcol="8" gridrow="5" pageId="6" pageNumber="75">55.2</td>
<td id="95145DFC5345D994DA5253B84CA3FE64" box="[1395,1417,422,441]" gridcol="9" gridrow="5" pageId="6" pageNumber="75">4</td>
</tr>
<tr id="D6C534805345D994DFA253D54CA3FE02" box="[131,1417,459,479]" gridrow="6" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA253D54B3FFE02" box="[131,533,459,479]" gridcol="0" gridrow="6" pageId="6" pageNumber="75">
AE to 
<collectionCode id="0EE4AE075345266DDF9D53D549CEFE03" box="[188,228,459,478]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
1, distance
</th>
<td id="95145DFC5345D994DD6F53D54B4AFE02" box="[590,608,459,479]" gridcol="1" gridrow="6" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D53D54BFBFE02" box="[684,721,459,479]" gridcol="2" gridrow="6" pageId="6" pageNumber="75">24.0</td>
<td id="95145DFC5345D994DC2653D54A1DFE02" box="[775,823,459,479]" gridcol="3" gridrow="6" pageId="6" pageNumber="75">75.0</td>
<td id="95145DFC5345D994DC4C53D54AB7FE02" box="[877,925,459,479]" gridcol="4" gridrow="6" pageId="6" pageNumber="75">47.6</td>
<td id="95145DFC5345D994DCF353D54D29FE02" box="[978,1027,459,479]" gridcol="5" gridrow="6" pageId="6" pageNumber="75">47.0</td>
<td id="95145DFC5345D994DB6353D54D43FE02" box="[1090,1129,459,479]" gridcol="6" gridrow="6" pageId="6" pageNumber="75">11.0</td>
<td id="95145DFC5345D994DB8953D54DE4FE02" box="[1192,1230,459,479]" gridcol="7" gridrow="6" pageId="6" pageNumber="75">2.3</td>
<td id="95145DFC5345D994DA2C53D54C1EFE02" box="[1293,1332,459,479]" gridcol="8" gridrow="6" pageId="6" pageNumber="75">23.1</td>
<td id="95145DFC5345D994DA5253D54CA3FE02" box="[1395,1417,459,479]" gridcol="9" gridrow="6" pageId="6" pageNumber="75">22</td>
</tr>
<tr id="D6C534805345D994DFA253EF4CA3FDD9" box="[131,1417,497,516]" gridrow="7" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA253EF4B3FFDD9" box="[131,533,497,516]" gridcol="0" gridrow="7" pageId="6" pageNumber="75">
PE to end of 
<collectionCode id="0EE4AE075345266DDFD253EF4831FDD9" box="[243,283,497,516]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
1, distance
</th>
<td id="95145DFC5345D994DD6F53EF4B4AFDD9" box="[590,608,497,516]" gridcol="1" gridrow="7" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D53EF4BFBFDD9" box="[684,721,497,516]" gridcol="2" gridrow="7" pageId="6" pageNumber="75">80.0</td>
<td id="95145DFC5345D994DC2653EF4A1DFDD9" box="[775,823,497,516]" gridcol="3" gridrow="7" pageId="6" pageNumber="75">177.0</td>
<td id="95145DFC5345D994DC4C53EF4AB7FDD9" box="[877,925,497,516]" gridcol="4" gridrow="7" pageId="6" pageNumber="75">134.7</td>
<td id="95145DFC5345D994DCF353EF4D29FDD9" box="[978,1027,497,516]" gridcol="5" gridrow="7" pageId="6" pageNumber="75">131.0</td>
<td id="95145DFC5345D994DB6353EF4D43FDD9" box="[1090,1129,497,516]" gridcol="6" gridrow="7" pageId="6" pageNumber="75">27.4</td>
<td id="95145DFC5345D994DB8953EF4DE4FDD9" box="[1192,1230,497,516]" gridcol="7" gridrow="7" pageId="6" pageNumber="75">6.0</td>
<td id="95145DFC5345D994DA2C53EF4C1EFDD9" box="[1293,1332,497,516]" gridcol="8" gridrow="7" pageId="6" pageNumber="75">20.3</td>
<td id="95145DFC5345D994DA5253EF4CA3FDD9" box="[1395,1417,497,516]" gridcol="9" gridrow="7" pageId="6" pageNumber="75">21</td>
</tr>
<tr id="D6C534805345D994DFA250084CA3FDF7" box="[131,1417,534,554]" gridrow="8" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA250084B3FFDF7" box="[131,533,534,554]" gridcol="0" gridrow="8" pageId="6" pageNumber="75">
AE to 
<collectionCode id="0EE4AE075345266DDF9D500849CBFDF4" box="[188,225,534,553]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
2, distance
</th>
<td id="95145DFC5345D994DD6F50084B4AFDF7" box="[590,608,534,554]" gridcol="1" gridrow="8" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D50084BFBFDF7" box="[684,721,534,554]" gridcol="2" gridrow="8" pageId="6" pageNumber="75">60.0</td>
<td id="95145DFC5345D994DC2650084A1DFDF7" box="[775,823,534,554]" gridcol="3" gridrow="8" pageId="6" pageNumber="75">119.0</td>
<td id="95145DFC5345D994DC4C50084AB7FDF7" box="[877,925,534,554]" gridcol="4" gridrow="8" pageId="6" pageNumber="75">79.3</td>
<td id="95145DFC5345D994DCF350084D29FDF7" box="[978,1027,534,554]" gridcol="5" gridrow="8" pageId="6" pageNumber="75">69.0</td>
<td id="95145DFC5345D994DB6350084D43FDF7" box="[1090,1129,534,554]" gridcol="6" gridrow="8" pageId="6" pageNumber="75">26.9</td>
<td id="95145DFC5345D994DB8950084DE4FDF7" box="[1192,1230,534,554]" gridcol="7" gridrow="8" pageId="6" pageNumber="75">13.5</td>
<td id="95145DFC5345D994DA2C50084C1EFDF7" box="[1293,1332,534,554]" gridcol="8" gridrow="8" pageId="6" pageNumber="75">34.0</td>
<td id="95145DFC5345D994DA5250084CA3FDF7" box="[1395,1417,534,554]" gridcol="9" gridrow="8" pageId="6" pageNumber="75">4</td>
</tr>
<tr id="D6C534805345D994DFA250224CA3FD92" box="[131,1417,572,591]" gridrow="9" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA250224B3FFD92" box="[131,533,572,591]" gridcol="0" gridrow="9" pageId="6" pageNumber="75">
PE to end of 
<collectionCode id="0EE4AE075345266DDFD250224832FD92" box="[243,280,572,591]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
2, distance
</th>
<td id="95145DFC5345D994DD6F50224B4AFD92" box="[590,608,572,591]" gridcol="1" gridrow="9" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D50224BFBFD92" box="[684,721,572,591]" gridcol="2" gridrow="9" pageId="6" pageNumber="75">26.0</td>
<td id="95145DFC5345D994DC2650224A1DFD92" box="[775,823,572,591]" gridcol="3" gridrow="9" pageId="6" pageNumber="75">189.0</td>
<td id="95145DFC5345D994DC4C50224AB7FD92" box="[877,925,572,591]" gridcol="4" gridrow="9" pageId="6" pageNumber="75">130.0</td>
<td id="95145DFC5345D994DCF350224D29FD92" box="[978,1027,572,591]" gridcol="5" gridrow="9" pageId="6" pageNumber="75">152.5</td>
<td id="95145DFC5345D994DB6350224D43FD92" box="[1090,1129,572,591]" gridcol="6" gridrow="9" pageId="6" pageNumber="75">72.3</td>
<td id="95145DFC5345D994DB8950224DE4FD92" box="[1192,1230,572,591]" gridcol="7" gridrow="9" pageId="6" pageNumber="75">36.1</td>
<td id="95145DFC5345D994DA2C50224C1EFD92" box="[1293,1332,572,591]" gridcol="8" gridrow="9" pageId="6" pageNumber="75">55.6</td>
<td id="95145DFC5345D994DA5250224CA3FD92" box="[1395,1417,572,591]" gridcol="9" gridrow="9" pageId="6" pageNumber="75">4</td>
</tr>
<tr id="D6C534805345D994DFA2507F4CA3FDA8" box="[131,1417,609,629]" gridrow="10" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA2507F4B3FFDA8" box="[131,533,609,629]" gridcol="0" gridrow="10" pageId="6" pageNumber="75">AE to frontoterminal row, distance</th>
<td id="95145DFC5345D994DD6F507F4B4AFDA8" box="[590,608,609,629]" gridcol="1" gridrow="10" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D507F4BFBFDA8" box="[684,721,609,629]" gridcol="2" gridrow="10" pageId="6" pageNumber="75">21.5</td>
<td id="95145DFC5345D994DC26507F4A1DFDA8" box="[775,823,609,629]" gridcol="3" gridrow="10" pageId="6" pageNumber="75">62.0</td>
<td id="95145DFC5345D994DC4C507F4AB7FDA8" box="[877,925,609,629]" gridcol="4" gridrow="10" pageId="6" pageNumber="75">40.0</td>
<td id="95145DFC5345D994DCF3507F4D29FDA8" box="[978,1027,609,629]" gridcol="5" gridrow="10" pageId="6" pageNumber="75">40.0</td>
<td id="95145DFC5345D994DB63507F4D43FDA8" box="[1090,1129,609,629]" gridcol="6" gridrow="10" pageId="6" pageNumber="75">8.3</td>
<td id="95145DFC5345D994DB89507F4DE4FDA8" box="[1192,1230,609,629]" gridcol="7" gridrow="10" pageId="6" pageNumber="75">1.8</td>
<td id="95145DFC5345D994DA2C507F4C1EFDA8" box="[1293,1332,609,629]" gridcol="8" gridrow="10" pageId="6" pageNumber="75">20.8</td>
<td id="95145DFC5345D994DA52507F4CA3FDA8" box="[1395,1417,609,629]" gridcol="9" gridrow="10" pageId="6" pageNumber="75">21</td>
</tr>
<tr id="D6C534805345D994DFA250994CA3FD47" box="[131,1417,647,666]" gridrow="11" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA250994B3FFD62" box="[131,533,647,703]" gridcol="0" gridrow="11" pageId="6" pageNumber="75" rowspan="2" rowspanBelow="1">PE to end of frontoterminal row, distance</th>
<td id="95145DFC5345D994DD6F50994B4AFD47" box="[590,608,647,666]" gridcol="1" gridrow="11" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D50994BFBFD47" box="[684,721,647,666]" gridcol="2" gridrow="11" pageId="6" pageNumber="75">60.0</td>
<td id="95145DFC5345D994DC2650994A1DFD47" box="[775,823,647,666]" gridcol="3" gridrow="11" pageId="6" pageNumber="75">102.0</td>
<td id="95145DFC5345D994DC4C50994AB7FD47" box="[877,925,647,666]" gridcol="4" gridrow="11" pageId="6" pageNumber="75">78.0</td>
<td id="95145DFC5345D994DCF350994D29FD47" box="[978,1027,647,666]" gridcol="5" gridrow="11" pageId="6" pageNumber="75">71.5</td>
<td id="95145DFC5345D994DB6350994D43FD47" box="[1090,1129,647,666]" gridcol="6" gridrow="11" pageId="6" pageNumber="75">16.8</td>
<td id="95145DFC5345D994DB8950994DE4FD47" box="[1192,1230,647,666]" gridcol="7" gridrow="11" pageId="6" pageNumber="75">5.3</td>
<td id="95145DFC5345D994DA2C50994C1EFD47" box="[1293,1332,647,666]" gridcol="8" gridrow="11" pageId="6" pageNumber="75">21.6</td>
<td id="95145DFC5345D994DA5250994CA3FD47" box="[1395,1417,647,666]" gridcol="9" gridrow="11" pageId="6" pageNumber="75">10</td>
</tr>
<tr id="D6C534805345D994DFA250B24CA3FD62" box="[131,1417,684,703]" gridrow="12" pageId="6" pageNumber="75">
<td id="95145DFC5345D994DD6F50B24B4AFD62" box="[590,608,684,703]" gridcol="1" gridrow="12" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D50B24BFBFD62" box="[684,721,684,703]" gridcol="2" gridrow="12" pageId="6" pageNumber="75">41.0</td>
<td id="95145DFC5345D994DC2650B24A1DFD62" box="[775,823,684,703]" gridcol="3" gridrow="12" pageId="6" pageNumber="75">106.0</td>
<td id="95145DFC5345D994DC4C50B24AB7FD62" box="[877,925,684,703]" gridcol="4" gridrow="12" pageId="6" pageNumber="75">69.0</td>
<td id="95145DFC5345D994DCF350B24D29FD62" box="[978,1027,684,703]" gridcol="5" gridrow="12" pageId="6" pageNumber="75">68.0</td>
<td id="95145DFC5345D994DB6350B24D43FD62" box="[1090,1129,684,703]" gridcol="6" gridrow="12" pageId="6" pageNumber="75">17.7</td>
<td id="95145DFC5345D994DB8950B24DE4FD62" box="[1192,1230,684,703]" gridcol="7" gridrow="12" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DA2C50B24C1EFD62" box="[1293,1332,684,703]" gridcol="8" gridrow="12" pageId="6" pageNumber="75">25.7</td>
<td id="95145DFC5345D994DA5250B24CA3FD62" box="[1395,1417,684,703]" gridcol="9" gridrow="12" pageId="6" pageNumber="75">20</td>
</tr>
<tr id="D6C534805345D994DFA250CF4CA3FD38" box="[131,1417,721,741]" gridrow="13" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA250CF4B3FFD38" box="[131,533,721,741]" gridcol="0" gridrow="13" pageId="6" pageNumber="75">AE to LMR, distance</th>
<td id="95145DFC5345D994DD6F50CF4B4AFD38" box="[590,608,721,741]" gridcol="1" gridrow="13" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D50CF4BFBFD38" box="[684,721,721,741]" gridcol="2" gridrow="13" pageId="6" pageNumber="75">42.0</td>
<td id="95145DFC5345D994DC2650CF4A1DFD38" box="[775,823,721,741]" gridcol="3" gridrow="13" pageId="6" pageNumber="75">96.0</td>
<td id="95145DFC5345D994DC4C50CF4AB7FD38" box="[877,925,721,741]" gridcol="4" gridrow="13" pageId="6" pageNumber="75">72.0</td>
<td id="95145DFC5345D994DCF350CF4D29FD38" box="[978,1027,721,741]" gridcol="5" gridrow="13" pageId="6" pageNumber="75">74.0</td>
<td id="95145DFC5345D994DB6350CF4D43FD38" box="[1090,1129,721,741]" gridcol="6" gridrow="13" pageId="6" pageNumber="75">12.0</td>
<td id="95145DFC5345D994DB8950CF4DE4FD38" box="[1192,1230,721,741]" gridcol="7" gridrow="13" pageId="6" pageNumber="75">2.5</td>
<td id="95145DFC5345D994DA2C50CF4C1EFD38" box="[1293,1332,721,741]" gridcol="8" gridrow="13" pageId="6" pageNumber="75">16.7</td>
<td id="95145DFC5345D994DA5250CF4CA3FD38" box="[1395,1417,721,741]" gridcol="9" gridrow="13" pageId="6" pageNumber="75">23</td>
</tr>
<tr id="D6C534805345D994DFA250E94CA3FCD7" box="[131,1417,759,778]" gridrow="14" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA250E94B3FFCD7" box="[131,533,759,778]" gridcol="0" gridrow="14" pageId="6" pageNumber="75">AE to RMR, distance</th>
<td id="95145DFC5345D994DD6F50E94B4AFCD7" box="[590,608,759,778]" gridcol="1" gridrow="14" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D50E94BFBFCD7" box="[684,721,759,778]" gridcol="2" gridrow="14" pageId="6" pageNumber="75">23.5</td>
<td id="95145DFC5345D994DC2650E94A1DFCD7" box="[775,823,759,778]" gridcol="3" gridrow="14" pageId="6" pageNumber="75">85.0</td>
<td id="95145DFC5345D994DC4C50E94AB7FCD7" box="[877,925,759,778]" gridcol="4" gridrow="14" pageId="6" pageNumber="75">53.7</td>
<td id="95145DFC5345D994DCF350E94D29FCD7" box="[978,1027,759,778]" gridcol="5" gridrow="14" pageId="6" pageNumber="75">54.0</td>
<td id="95145DFC5345D994DB6350E94D43FCD7" box="[1090,1129,759,778]" gridcol="6" gridrow="14" pageId="6" pageNumber="75">14.3</td>
<td id="95145DFC5345D994DB8950E94DE4FCD7" box="[1192,1230,759,778]" gridcol="7" gridrow="14" pageId="6" pageNumber="75">3.1</td>
<td id="95145DFC5345D994DA2C50E94C1EFCD7" box="[1293,1332,759,778]" gridcol="8" gridrow="14" pageId="6" pageNumber="75">26.7</td>
<td id="95145DFC5345D994DA5250E94CA3FCD7" box="[1395,1417,759,778]" gridcol="9" gridrow="14" pageId="6" pageNumber="75">21</td>
</tr>
<tr id="D6C534805345D994DFA251024CA3FCED" box="[131,1417,796,816]" gridrow="15" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251024B3FFCED" box="[131,533,796,816]" gridcol="0" gridrow="15" pageId="6" pageNumber="75">PE to LMR, distance</th>
<td id="95145DFC5345D994DD6F51024B4AFCED" box="[590,608,796,816]" gridcol="1" gridrow="15" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D51024BFBFCED" box="[684,721,796,816]" gridcol="2" gridrow="15" pageId="6" pageNumber="75">5.0</td>
<td id="95145DFC5345D994DC2651024A1DFCED" box="[775,823,796,816]" gridcol="3" gridrow="15" pageId="6" pageNumber="75">21.0</td>
<td id="95145DFC5345D994DC4C51024AB7FCED" box="[877,925,796,816]" gridcol="4" gridrow="15" pageId="6" pageNumber="75">11.7</td>
<td id="95145DFC5345D994DCF351024D29FCED" box="[978,1027,796,816]" gridcol="5" gridrow="15" pageId="6" pageNumber="75">10.5</td>
<td id="95145DFC5345D994DB6351024D43FCED" box="[1090,1129,796,816]" gridcol="6" gridrow="15" pageId="6" pageNumber="75">4.7</td>
<td id="95145DFC5345D994DB8951024DE4FCED" box="[1192,1230,796,816]" gridcol="7" gridrow="15" pageId="6" pageNumber="75">1.2</td>
<td id="95145DFC5345D994DA2C51024C1EFCED" box="[1293,1332,796,816]" gridcol="8" gridrow="15" pageId="6" pageNumber="75">39.8</td>
<td id="95145DFC5345D994DA5251024CA3FCED" box="[1395,1417,796,816]" gridcol="9" gridrow="15" pageId="6" pageNumber="75">16</td>
</tr>
<tr id="D6C534805345D994DFA2515C4CA3FC88" box="[131,1417,834,853]" gridrow="16" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA2515C4B3FFC88" box="[131,533,834,853]" gridcol="0" gridrow="16" pageId="6" pageNumber="75">PE to RMR, distance</th>
<td id="95145DFC5345D994DD6F515C4B4AFC88" box="[590,608,834,853]" gridcol="1" gridrow="16" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D515C4BFBFC88" box="[684,721,834,853]" gridcol="2" gridrow="16" pageId="6" pageNumber="75">1.0</td>
<td id="95145DFC5345D994DC26515C4A1DFC88" box="[775,823,834,853]" gridcol="3" gridrow="16" pageId="6" pageNumber="75">16.5</td>
<td id="95145DFC5345D994DC4C515C4AB7FC88" box="[877,925,834,853]" gridcol="4" gridrow="16" pageId="6" pageNumber="75">7.1</td>
<td id="95145DFC5345D994DCF3515C4D29FC88" box="[978,1027,834,853]" gridcol="5" gridrow="16" pageId="6" pageNumber="75">6.0</td>
<td id="95145DFC5345D994DB63515C4D43FC88" box="[1090,1129,834,853]" gridcol="6" gridrow="16" pageId="6" pageNumber="75">4.4</td>
<td id="95145DFC5345D994DB89515C4DE4FC88" box="[1192,1230,834,853]" gridcol="7" gridrow="16" pageId="6" pageNumber="75">1.1</td>
<td id="95145DFC5345D994DA2C515C4C1EFC88" box="[1293,1332,834,853]" gridcol="8" gridrow="16" pageId="6" pageNumber="75">62.9</td>
<td id="95145DFC5345D994DA52515C4CA3FC88" box="[1395,1417,834,853]" gridcol="9" gridrow="16" pageId="6" pageNumber="75">15</td>
</tr>
<tr id="D6C534805345D994DFA251794CA3FCA6" box="[131,1417,871,891]" gridrow="17" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251794B3FFCA6" box="[131,533,871,891]" gridcol="0" gridrow="17" pageId="6" pageNumber="75">Midventral rows with 3 or 4 cirri, number</th>
<td id="95145DFC5345D994DD6F51794B4AFCA6" box="[590,608,871,891]" gridcol="1" gridrow="17" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D51794BFBFCA6" box="[684,721,871,891]" gridcol="2" gridrow="17" pageId="6" pageNumber="75">3</td>
<td id="95145DFC5345D994DC2651794A1DFCA6" box="[775,823,871,891]" gridcol="3" gridrow="17" pageId="6" pageNumber="75">5</td>
<td id="95145DFC5345D994DC4C51794AB7FCA6" box="[877,925,871,891]" gridcol="4" gridrow="17" pageId="6" pageNumber="75">4.3</td>
<td id="95145DFC5345D994DCF351794D29FCA6" box="[978,1027,871,891]" gridcol="5" gridrow="17" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DB6351794D43FCA6" box="[1090,1129,871,891]" gridcol="6" gridrow="17" pageId="6" pageNumber="75">0.7</td>
<td id="95145DFC5345D994DB8951794DE4FCA6" box="[1192,1230,871,891]" gridcol="7" gridrow="17" pageId="6" pageNumber="75">0.2</td>
<td id="95145DFC5345D994DA2C51794C1EFCA6" box="[1293,1332,871,891]" gridcol="8" gridrow="17" pageId="6" pageNumber="75">16.3</td>
<td id="95145DFC5345D994DA5251794CA3FCA6" box="[1395,1417,871,891]" gridcol="9" gridrow="17" pageId="6" pageNumber="75">9</td>
</tr>
<tr id="D6C534805345D994DFA251934CA3FC7D" box="[131,1417,909,928]" gridrow="18" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251934B3FFC7D" box="[131,533,909,928]" gridcol="0" gridrow="18" pageId="6" pageNumber="75">Midventral rows with 5 or more cirri, number</th>
<td id="95145DFC5345D994DD6F51934B4AFC7D" box="[590,608,909,928]" gridcol="1" gridrow="18" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D51934BFBFC7D" box="[684,721,909,928]" gridcol="2" gridrow="18" pageId="6" pageNumber="75">4</td>
<td id="95145DFC5345D994DC2651934A1DFC7D" box="[775,823,909,928]" gridcol="3" gridrow="18" pageId="6" pageNumber="75">6</td>
<td id="95145DFC5345D994DC4C51934AB7FC7D" box="[877,925,909,928]" gridcol="4" gridrow="18" pageId="6" pageNumber="75">4.2</td>
<td id="95145DFC5345D994DCF351934D29FC7D" box="[978,1027,909,928]" gridcol="5" gridrow="18" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DB6351934D43FC7D" box="[1090,1129,909,928]" gridcol="6" gridrow="18" pageId="6" pageNumber="75">0.7</td>
<td id="95145DFC5345D994DB8951934DE4FC7D" box="[1192,1230,909,928]" gridcol="7" gridrow="18" pageId="6" pageNumber="75">0.2</td>
<td id="95145DFC5345D994DA2C51934C1EFC7D" box="[1293,1332,909,928]" gridcol="8" gridrow="18" pageId="6" pageNumber="75">15.8</td>
<td id="95145DFC5345D994DA5251934CA3FC7D" box="[1395,1417,909,928]" gridcol="9" gridrow="18" pageId="6" pageNumber="75">9</td>
</tr>
<tr id="D6C534805345D994DFA251AC4CA3FC1B" box="[131,1417,946,966]" gridrow="19" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251AC4B3FFC1B" box="[131,533,946,966]" gridcol="0" gridrow="19" pageId="6" pageNumber="75">Rearmost cirral row, number of cirri</th>
<td id="95145DFC5345D994DD6F51AC4B4AFC1B" box="[590,608,946,966]" gridcol="1" gridrow="19" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D51AC4BFBFC1B" box="[684,721,946,966]" gridcol="2" gridrow="19" pageId="6" pageNumber="75">5</td>
<td id="95145DFC5345D994DC2651AC4A1DFC1B" box="[775,823,946,966]" gridcol="3" gridrow="19" pageId="6" pageNumber="75">24</td>
<td id="95145DFC5345D994DC4C51AC4AB7FC1B" box="[877,925,946,966]" gridcol="4" gridrow="19" pageId="6" pageNumber="75">20.6</td>
<td id="95145DFC5345D994DCF351AC4D29FC1B" box="[978,1027,946,966]" gridcol="5" gridrow="19" pageId="6" pageNumber="75">0.0</td>
<td id="95145DFC5345D994DB6351AC4D43FC1B" box="[1090,1129,946,966]" gridcol="6" gridrow="19" pageId="6" pageNumber="75">6.0</td>
<td id="95145DFC5345D994DB8951AC4DE4FC1B" box="[1192,1230,946,966]" gridcol="7" gridrow="19" pageId="6" pageNumber="75">2.0</td>
<td id="95145DFC5345D994DA2C51AC4C1EFC1B" box="[1293,1332,946,966]" gridcol="8" gridrow="19" pageId="6" pageNumber="75">29.0</td>
<td id="95145DFC5345D994DA5251AC4CA3FC1B" box="[1395,1417,946,966]" gridcol="9" gridrow="19" pageId="6" pageNumber="75">9</td>
</tr>
<tr id="D6C534805345D994DFA251C64CA3FC36" box="[131,1417,984,1003]" gridrow="20" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251C64B3FFC36" box="[131,533,984,1003]" gridcol="0" gridrow="20" pageId="6" pageNumber="75">PE to rear end of midventral complex, distance</th>
<td id="95145DFC5345D994DD6F51C64B4AFC36" box="[590,608,984,1003]" gridcol="1" gridrow="20" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D51C64BFBFC36" box="[684,721,984,1003]" gridcol="2" gridrow="20" pageId="6" pageNumber="75">30.0</td>
<td id="95145DFC5345D994DC2651C64A1DFC36" box="[775,823,984,1003]" gridcol="3" gridrow="20" pageId="6" pageNumber="75">56.0</td>
<td id="95145DFC5345D994DC4C51C64AB7FC36" box="[877,925,984,1003]" gridcol="4" gridrow="20" pageId="6" pageNumber="75">46.4</td>
<td id="95145DFC5345D994DCF351C64D29FC36" box="[978,1027,984,1003]" gridcol="5" gridrow="20" pageId="6" pageNumber="75">51.0</td>
<td id="95145DFC5345D994DB6351C64D43FC36" box="[1090,1129,984,1003]" gridcol="6" gridrow="20" pageId="6" pageNumber="75">10.1</td>
<td id="95145DFC5345D994DB8951C64DE4FC36" box="[1192,1230,984,1003]" gridcol="7" gridrow="20" pageId="6" pageNumber="75">3.4</td>
<td id="95145DFC5345D994DA2C51C64C1EFC36" box="[1293,1332,984,1003]" gridcol="8" gridrow="20" pageId="6" pageNumber="75">21.7</td>
<td id="95145DFC5345D994DA5251C64CA3FC36" box="[1395,1417,984,1003]" gridcol="9" gridrow="20" pageId="6" pageNumber="75">9</td>
</tr>
<tr id="D6C534805345D994DFA251E34CA3FBCC" box="[131,1417,1021,1041]" gridrow="21" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA251E34B3FFBEB" box="[131,533,1021,1078]" gridcol="0" gridrow="21" pageId="6" pageNumber="75" rowspan="2" rowspanBelow="1">Caudal cirri, number</th>
<td id="95145DFC5345D994DD6F51E34B4AFBCC" box="[590,608,1021,1041]" gridcol="1" gridrow="21" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D51E34BFBFBCC" box="[684,721,1021,1041]" gridcol="2" gridrow="21" pageId="6" pageNumber="75">8</td>
<td id="95145DFC5345D994DC2651E34A1DFBCC" box="[775,823,1021,1041]" gridcol="3" gridrow="21" pageId="6" pageNumber="75">14</td>
<td id="95145DFC5345D994DC4C51E34AB7FBCC" box="[877,925,1021,1041]" gridcol="4" gridrow="21" pageId="6" pageNumber="75">9.8</td>
<td id="95145DFC5345D994DCF351E34D29FBCC" box="[978,1027,1021,1041]" gridcol="5" gridrow="21" pageId="6" pageNumber="75">9.5</td>
<td id="95145DFC5345D994DB6351E34D43FBCC" box="[1090,1129,1021,1041]" gridcol="6" gridrow="21" pageId="6" pageNumber="75">2.2</td>
<td id="95145DFC5345D994DB8951E34DE4FBCC" box="[1192,1230,1021,1041]" gridcol="7" gridrow="21" pageId="6" pageNumber="75">0.9</td>
<td id="95145DFC5345D994DA2C51E34C1EFBCC" box="[1293,1332,1021,1041]" gridcol="8" gridrow="21" pageId="6" pageNumber="75">22.7</td>
<td id="95145DFC5345D994DA5251E34CA3FBCC" box="[1395,1417,1021,1041]" gridcol="9" gridrow="21" pageId="6" pageNumber="75">6</td>
</tr>
<tr id="D6C534805345D994DFA2563D4CA3FBEB" box="[131,1417,1059,1078]" gridrow="22" pageId="6" pageNumber="75">
<td id="95145DFC5345D994DD6F563D4B4AFBEB" box="[590,608,1059,1078]" gridcol="1" gridrow="22" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D563D4BFBFBEB" box="[684,721,1059,1078]" gridcol="2" gridrow="22" pageId="6" pageNumber="75">7</td>
<td id="95145DFC5345D994DC26563D4A1DFBEB" box="[775,823,1059,1078]" gridcol="3" gridrow="22" pageId="6" pageNumber="75">11</td>
<td id="95145DFC5345D994DC4C563D4AB7FBEB" box="[877,925,1059,1078]" gridcol="4" gridrow="22" pageId="6" pageNumber="75">9.6</td>
<td id="95145DFC5345D994DCF3563D4D29FBEB" box="[978,1027,1059,1078]" gridcol="5" gridrow="22" pageId="6" pageNumber="75">10.0</td>
<td id="95145DFC5345D994DB63563D4D43FBEB" box="[1090,1129,1059,1078]" gridcol="6" gridrow="22" pageId="6" pageNumber="75">1.1</td>
<td id="95145DFC5345D994DB89563D4DE4FBEB" box="[1192,1230,1059,1078]" gridcol="7" gridrow="22" pageId="6" pageNumber="75">0.3</td>
<td id="95145DFC5345D994DA2C563D4C1EFBEB" box="[1293,1332,1059,1078]" gridcol="8" gridrow="22" pageId="6" pageNumber="75">11.3</td>
<td id="95145DFC5345D994DA52563D4CA3FBEB" box="[1395,1417,1059,1078]" gridcol="9" gridrow="22" pageId="6" pageNumber="75">16</td>
</tr>
<tr id="D6C534805345D994DFA256564CA3FB81" box="[131,1417,1096,1116]" gridrow="23" pageId="6" pageNumber="75">
<th id="95145DFC5345D994DFA256564B3FFB5C" box="[131,533,1096,1153]" gridcol="0" gridrow="23" pageId="6" pageNumber="75" rowspan="2" rowspanBelow="1">Dorsal kineties, number</th>
<td id="95145DFC5345D994DD6F56564B4AFB81" box="[590,608,1096,1116]" gridcol="1" gridrow="23" pageId="6" pageNumber="75">te</td>
<td id="95145DFC5345D994DD8D56564BFBFB81" box="[684,721,1096,1116]" gridcol="2" gridrow="23" pageId="6" pageNumber="75">4</td>
<td id="95145DFC5345D994DC2656564A1DFB81" box="[775,823,1096,1116]" gridcol="3" gridrow="23" pageId="6" pageNumber="75">4</td>
<td id="95145DFC5345D994DC4C56564AB7FB81" box="[877,925,1096,1116]" gridcol="4" gridrow="23" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DCF356564D29FB81" box="[978,1027,1096,1116]" gridcol="5" gridrow="23" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DB6356564D43FB81" box="[1090,1129,1096,1116]" gridcol="6" gridrow="23" pageId="6" pageNumber="75">0.0</td>
<td id="95145DFC5345D994DB8956564DE4FB81" box="[1192,1230,1096,1116]" gridcol="7" gridrow="23" pageId="6" pageNumber="75">0.0</td>
<td id="95145DFC5345D994DA2C56564C1EFB81" box="[1293,1332,1096,1116]" gridcol="8" gridrow="23" pageId="6" pageNumber="75">0.0</td>
<td id="95145DFC5345D994DA5256564CA3FB81" box="[1395,1417,1096,1116]" gridcol="9" gridrow="23" pageId="6" pageNumber="75">8</td>
</tr>
<tr id="D6C534805345D994DFA256704CA3FB5C" box="[131,1417,1134,1153]" gridrow="24" pageId="6" pageNumber="75">
<td id="95145DFC5345D994DD6F56704B4AFB5C" box="[590,608,1134,1153]" gridcol="1" gridrow="24" pageId="6" pageNumber="75">lu</td>
<td id="95145DFC5345D994DD8D56704BFBFB5C" box="[684,721,1134,1153]" gridcol="2" gridrow="24" pageId="6" pageNumber="75">4</td>
<td id="95145DFC5345D994DC2656704A1DFB5C" box="[775,823,1134,1153]" gridcol="3" gridrow="24" pageId="6" pageNumber="75">5</td>
<td id="95145DFC5345D994DC4C56704AB7FB5C" box="[877,925,1134,1153]" gridcol="4" gridrow="24" pageId="6" pageNumber="75">4.1</td>
<td id="95145DFC5345D994DCF356704D29FB5C" box="[978,1027,1134,1153]" gridcol="5" gridrow="24" pageId="6" pageNumber="75">4.0</td>
<td id="95145DFC5345D994DB6356704D43FB5C" box="[1090,1129,1134,1153]" gridcol="6" gridrow="24" pageId="6" pageNumber="75">0.3</td>
<td id="95145DFC5345D994DB8956704DE4FB5C" box="[1192,1230,1134,1153]" gridcol="7" gridrow="24" pageId="6" pageNumber="75">0.1</td>
<td id="95145DFC5345D994DA2C56704C1EFB5C" box="[1293,1332,1134,1153]" gridcol="8" gridrow="24" pageId="6" pageNumber="75">7.5</td>
<td id="95145DFC5345D994DA5256704CA3FB5C" box="[1395,1417,1134,1153]" gridcol="9" gridrow="24" pageId="6" pageNumber="75">20</td>
</tr>
</table>
</paragraph>
<paragraph id="684A36C25345266DDFA556864D6BFB3C" blockId="6.[132,1464,1176,1250]" pageId="6" pageNumber="75">
<tableNote id="9513374C5345266DDFA556864D6BFB3C" pageId="6" pageNumber="75" targetBox="[131,1417,234,1153]" targetPageId="6">
<superScript id="9F809B8A5345266DDFA5568649A0FB79" attach="left" box="[132,138,1176,1188]" fontSize="5" pageId="6" pageNumber="75">a</superScript>
All measurements in μm. 
<collectionCode id="0EE4AE075345266DDE4C568748A0FB71" box="[365,394,1177,1196]" country="China" name="Municipal Museum of Chungking" pageId="6" pageNumber="75">CV</collectionCode>
– coefficient of variance in %; Min – minimum value observed; Max – maximum value observed; Mean – arithmetic mean; M – median; SD – standard deviation; SE – standard error; 
<emphasis id="5A81EAD05345266DDDA756AA4BBBFB1B" box="[646,657,1204,1222]" italics="true" pageId="6" pageNumber="75">n</emphasis>
– sample size; AE – anterior end of cell; PE – posterior end of cell; 
<collectionCode id="0EE4AE075345266DDBFE56AA4C2FFB1A" box="[1247,1285,1204,1223]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
1 – midventral row 1 (= rightmost midventral row in 
<bibRefCitation id="0C644B335345266DDEB356D04B17FB3C" author="Foissner W. &amp; Agatha S. &amp; Berger H." box="[402,573,1230,1250]" pageId="6" pageNumber="75" pagination="1 - 1459" refId="ref6486" refString="Foissner W., Agatha S., Berger H. (2002) Soil ciliates (Protozoa, Ciliophora) from Namibia (Southwest Africa), with emphasis on two contrasting environments, the Etosha region and the Namib desert. Part I: Text and line drawings. Part II: Photographs. Denisia 5: 1 - 1459" type="journal article" year="2002">
Foissner 
<emphasis id="5A81EAD05345266DDEC156D14B2FFB3C" box="[480,517,1230,1249]" italics="true" pageId="6" pageNumber="75">et al</emphasis>
. 2002
</bibRefCitation>
, 
<bibRefCitation id="0C644B335345266DDD6456D14B85FB3C" author="Berger H." box="[581,687,1230,1250]" pageId="6" pageNumber="75" pagination="1 - 1303" refId="ref6045" refString="Berger H. (2006) Monograph of the Urostyloidea (Ciliophora, Hypotricha). Monogr. Biol. 85: 1 - 1303" type="journal article" year="2006">Berger 2006</bibRefCitation>
and 
<bibRefCitation id="0C644B335345266DDDF956D04A4BFB3C" author="Kim J. &amp; Min G. S." box="[728,865,1230,1250]" pageId="6" pageNumber="75" pagination="383 - 389" refId="ref6676" refString="Kim J. H, Min G. S. (2015) New record of two soil ciliates (Ciliophora: Stichotrichia) from Korea. Korean J. Environ. Biol. 33: 383 - 389" type="journal article" year="2015">
Kim 
<emphasis id="5A81EAD05345266DDC2256D14A03FB3C" box="[771,809,1230,1249]" italics="true" pageId="6" pageNumber="75">et al</emphasis>
. 2015
</bibRefCitation>
); 
<collectionCode id="0EE4AE075345266DDC5156D04ABFFB3C" box="[880,917,1230,1249]" country="0" name="University of Montana Museum" pageId="6" pageNumber="75">MV</collectionCode>
2, midventral row 2.
</tableNote>
</paragraph>
<paragraph id="684A36C25345266DDF8B57554A20FA2D" blockId="6.[132,779,1355,1934]" pageId="6" pageNumber="75">
Membranelles begin to differentiate at the right anterior part of opisthe’s oral primordium (
<figureCitation id="F0CE2A475345266DDD85577049B7FA76" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Figs 1F, H</figureCitation>
). Meanwhile, undulating membranes anlage for the opisthe appears, with differentiation commencing at the anterior end to form the leftmost frontal cirri (
<figureCitation id="F0CE2A475345266DDDBE57CB4BD6FA2D" box="[671,764,1493,1520]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Fig. 1H</figureCitation>
).
</paragraph>
<paragraph id="684A36C25345266DDF8B57E749D3F853" blockId="6.[132,779,1355,1934]" pageId="6" pageNumber="75">
In the mid-to-late stage, renewal of posterior portion of parental AZM continues on, which will eventually result in a partly renewed AZM of the proter. It should be noted that except for the few most proximal membranelles replaced by the new structure, others only slightly renewed at left sides. Specimen observed reveals that residual oral primordium of the proter has all migrated to the surface by this stage. As for the opisthe, membranelles continue to differentiate posteriad. Note that two leftmost frontal cirri of the opisthe have already formed from frontoventral cirral anlage I (
<figureCitation id="F0CE2A475345266DDFAC556A49C1F853" box="[141,235,1908,1934]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Fig. 1K</figureCitation>
).
</paragraph>
<paragraph id="684A36C25345266CDC77575548BEFCFF" blockId="6.[816,1463,1355,1934]" lastBlockId="7.[125,772,223,802]" lastPageId="7" lastPageNumber="76" pageId="6" pageNumber="75">
<emphasis id="5A81EAD05345266DDC7757554DC4FAB8" box="[854,1262,1355,1381]" italics="true" pageId="6" pageNumber="75">Development of frontoventral cirri.</emphasis>
In early dividers, posterior portion of the parental frontal cirri dissolve into basal bodies, which begin to form the frontoventral cirral anlagen of the proter (
<figureCitation id="F0CE2A475345266DDB5057AD4DC7FA10" box="[1137,1261,1459,1485]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Figs 1F, H</figureCitation>
; 
<figureCitation id="F0CE2A475345266DDBD957AD4C0AFA10" box="[1272,1312,1459,1485]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="6" pageNumber="75">2H</figureCitation>
). A few frontoterminal cirri near proximal end of AZM disaggregate to develop the penultimate frontoventral cirral anlage. A small field of basal bodies, regarded as the frontoventral cirral anlage n, develop on the right side of frontoterminal row 
<emphasis id="5A81EAD05345266DDCCA54414D60F9A4" box="[1003,1098,1631,1657]" italics="true" pageId="6" pageNumber="75">de novo</emphasis>
. Opisthe’s frontoventral cirral anlagen appear on the right side of frontoventral cirral anlage I. Due to the hypochromatism after protargol impregnation, a small field around frontoterminal row in mid-body region was difficult to see (dashed circle in 
<figureCitation id="F0CE2A475345266DDC7155124A86F8FB" box="[848,940,1804,1830]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Fig. 1H</figureCitation>
). Only a few cluttered basal bodies develop around this field. It is not known whether these basal bodies completely come from dissolving frontoterminal cirri (
<figureCitation id="F0CE2A475345266DDCBA556A4ADDF853" box="[923,1015,1908,1934]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="6" pageNumber="75">Fig. 1H</figureCitation>
). In the next stage, frontoventral cirral anlagen develop into distinct streaks and elongate posteriad in both daughter cells. About 9–11 frontoventral cirral anlagen, including the last and the penultimate anlagen, eventually formed (
<figureCitation id="F0CE2A475344266CDEED53594B0BFEBC" box="[460,545,327,353]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Figs 1I</figureCitation>
, 
<figureCitation id="F0CE2A475344266CDD0E53594B7EFEBC" box="[559,596,327,353]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">2L</figureCitation>
). In some filial products, several small anlagen formed on the left of penultimate frontoventral cirral anlage, and these anlagen will possibly be absorbed subsequently (
<figureCitation id="F0CE2A475344266CDDB953B04BDCFE14" box="[664,758,430,457]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">Fig. 2L</figureCitation>
). In the mid-to-late stage, frontoventral cirral anlagen segment and cirri gradually formed. The rightmost and the penultimate frontoventral cirral anlage eventually develops into the new frontoterminal row and MV1 respectively, while the rest of frontoventral cirral anlagen each splits to form about 4–6 cirri (
<figureCitation id="F0CE2A475344266CDD0E50604BB9FD45" box="[559,659,638,664]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Figs 1K</figureCitation>
, 
<figureCitation id="F0CE2A475344266CDD8350604BDCFD45" box="[674,758,638,664]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">2K, M</figureCitation>
). Although late dividers not found, we could believe that formation and migration of new cirri, and absorption of old ones are the main events during the rest of the morphogenetic process.
</paragraph>
<paragraph id="684A36C25344266CDF82515349CDFB84" blockId="7.[125,771,845,1286]" pageId="7" pageNumber="76">
<emphasis id="5A81EAD05344266CDF8251534B2BFCBA" box="[163,513,845,871]" italics="true" pageId="7" pageNumber="76">Marginal and dorsal anlagen.</emphasis>
Two separate marginal anlagen develop intrakinetally within both left and right marginal rows. Cirri adjacent to anterior end of each marginal row and cirri slightly behind mid-body differentiate to form these two anlagen, respectively (
<figureCitation id="F0CE2A475344266CDFA451E7482CFBC9" box="[133,262,1017,1044]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Figs 1I, K</figureCitation>
; 
<figureCitation id="F0CE2A475344266CDE3751E44814FBC9" box="[278,318,1018,1044]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">2K</figureCitation>
). These anlagen then increase in size and develop into new cirri that eventually replace the old ones.
</paragraph>
<paragraph id="684A36C25344266CDF82567F48A6FAD8" blockId="7.[125,771,845,1286]" pageId="7" pageNumber="76">
During the formation of dorsal kineties, two anlagen develop intrakinetally in each parental row. These anlagen then elongate and develop into new structures, along with the incorporation or absorption of parental structures (
<figureCitation id="F0CE2A475344266CDFDF56F5487FFAD8" box="[254,341,1259,1285]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Figs 1J</figureCitation>
, 
<figureCitation id="F0CE2A475344266CDE4356F54854FAD8" box="[354,382,1259,1285]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">2I</figureCitation>
).
</paragraph>
<paragraph id="684A36C25344266CDF83572F4BC1FA09" blockId="7.[125,771,1328,1492]" pageId="7" pageNumber="76">
<emphasis id="5A81EAD05344266CDF83572F4B0FFA97" box="[162,549,1328,1354]" italics="true" pageId="7" pageNumber="76">Division of the nuclear apparatus.</emphasis>
Macronuclear nodules fuse into many masses during early stage (
<figureCitation id="F0CE2A475344266CDD89574D4BD3FAB0" box="[680,761,1363,1389]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Fig. 1J</figureCitation>
) and eventually fuse into a single mass that divides subsequently during mid-to-late stage (
<figureCitation id="F0CE2A475344266CDD3657864B5EFA6F" box="[535,628,1432,1458]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Figs 1L</figureCitation>
, 
<figureCitation id="F0CE2A475344266CDDA057864BB4FA6F" box="[641,670,1432,1458]" captionStart="Fig" captionStartId="4.[132,167,1663,1685]" captionTargetId="figure-7@3.[125,1463,290,1901]" captionTargetPageId="3" captionText="Fig. 2. Photomicrographs of Eschaneustyla lugeri (A, B) and E. terricola (D, E) in life and E. lugeri after protargol impregnation (C, F–M). (A, B) Representative individuals. Arrow in A denotes the contractile vacuole. (C) Dorsal side to show the arrangement of extrusomes (arrows). (D) Arrangement of cortical granules. (E) Ventral view. Arrow marks the contractile vacuole. It should be noted that the specimen in E is slightly damaged, thus it doesn’t present a narrowly rounded posterior end. (F–H) Ventral views of early dividers, to show the oral primordia of opisthe (F) and proter (arrow in G), the undulating membranes anlage (arrowhead in H) and the frontoventral cirral anlagen (arrow in H). (I) Dorsal view of an early divider to show the intrakinetal development of dorsal kineties anlagen (arrows). (J) Fusion of macronuclear nodules. (K–M) Ventral views of middle dividers. Note that right marginal anlage develops intrakinetally (arrow in K).Arrow in L denotes the formation of the leftmost frontal cirri from frontoventral cirral anlage I. In M, arrow marks the frontoventral cirral anlage n that becomes the frontoterminal row and arrowhead depicts the penultimate frontoventral cirral anlage that forms midventral row 1, respectively. Ma, macronuclear nodules. Scale bars: 100 μm (A, B, E); 40 μm (C, F, G, I); 15 μm (D, J); 25 μm (H, K–M)." figureDoi="http://doi.org/10.5281/zenodo.11093767" httpUri="https://zenodo.org/record/11093767/files/figure.png" pageId="7" pageNumber="76">2J</figureCitation>
). Micronuclei divide mitotically during cell division (
<figureCitation id="F0CE2A475344266CDDAB57A44BF1FA09" box="[650,731,1466,1492]" captionStart="Fig" captionStartId="2.[132,167,1418,1440]" captionTargetBox="[184,1409,236,1384]" captionTargetId="figure-8@2.[157,1442,223,1391]" captionTargetPageId="2" captionText="Fig. 1. Eschaneustyla terricola (A, B) and E. lugeri (C–E) during interphase, and E. lugeri during morphogenesis (F–L), after protargol impregnation. (A, B) Ventral and dorsal view of same specimen, showing ciliature. Cirri formed from same anlage were connected by solid line. Asterisk denotes the distal end of AZM. (C) Schematic representations of midventral-complex of four E. lugeri specimens with two long midventral rows.Arrows and arrowheads denote midventral rows 1 and 2, respectively. (D, E) Ventral and dorsal view of same specimen, showing typical infraciliature. Cirri formed from same anlage were connected by solid line. Two leftmost cirri develop from anterior part of undulating membranes anlage (dotted line). (F) Ventral view of an early divider that twisted a little at the anterior end, to show the oral primordia of proter (arrow) and opisthe (arrowhead). (G) Enlarged image of proter’s oral primordium (arrow) and undulating membranes anlage (arrowhead) of the individual shown F. Note that the former develops in deep of the cortex while the latter develops in the surface. (H) Ventral view of an early divider to show the frontoventral cirral anlagen (arrows).Arrowhead denotes the penultimate frontoventral cirral anlage which forms midventral row 1. Double-arrowhead denotes the frontoventral cirral anlage n that develops into frontoterminal row. Dashed circle represents the flurry area due to the hyperchromatism after protargol impregnation. (I, J) Ventral and dorsal view of an early divider to show the frontoventral cirral anlagen. Arrows and arrowheads in I mark the penultimate and the last frontoventral cirral anlagen, respectively. Note that marginal anlagen and dorsal kineties anlagen (arrows in J) develop intrakinetally. Macronuclear nodules are fusing (arrowheads in J). (K) Ventral view of a middle divider. Arrow marks the partly renewed adoral zone of membranelles of proter. Asterisk denotes two leftmost frontal cirri developed from the undulating membranes anlage. L. Nuclear apparatus of the same specimen as shown in K. Note that macronuclear nodules are fusing into a single mass. AZM, adoral zone of membranelles; CC, caudal cirri; E, endoral; FT, frontoterminal row; LMA, left marginal anlage; LMR, left marginal row; Ma, macronuclear nodules; Mi, micronuclei; MV, midventral row; MV 1, midventral row 1; 1–4, dorsal kineties 1–4; P, paroral; RMA, right marginal anlage; RMR, right marginal row. Scale bars: 100 μm (A, B, D, E); 70 μm (F–L)." figureDoi="http://doi.org/10.5281/zenodo.10994410" httpUri="https://zenodo.org/record/10994410/files/figure.png" pageId="7" pageNumber="76">Fig. 1J</figureCitation>
).
</paragraph>
</subSubSection>
</treatment>
</document>