<documentid="4ECAEF4C35A32F476F2D0DD0B0A1E686"ID-DOI="10.11646/phytotaxa.365.1.1"ID-ISSN="1179-3163"ID-Zenodo-Dep="13704923"IM.bibliography_approvedBy="felipe"IM.illustrations_approvedBy="felipe"IM.materialsCitations_approvedBy="felipe"IM.metadata_approvedBy="felipe"IM.tables_requiresApprovalFor="GgImagineBatch"IM.taxonomicNames_approvedBy="felipe"IM.treatments_approvedBy="felipe"checkinTime="1725584015738"checkinUser="felipe"docAuthor="Mai, Truc, Johansen, Jeffrey R., Pietrasiak, Nicole, Bohunická, Markéta & Martin, Michael P."docDate="2018"docId="03BFDE646C71FFA4009AFA7EFE93FBAB"docLanguage="en"docName="phytotaxa.365.1.1.pdf"docOrigin="Phytotaxa 365 (1)"docSource="http://dx.doi.org/10.11646/phytotaxa.365.1.1"docStyle="DocumentStyle:96748F8F1B6C902996E134952A3A36B9.13:Phytotaxa.2014-.journal_article"docStyleId="96748F8F1B6C902996E134952A3A36B9"docStyleName="Phytotaxa.2014-.journal_article"docStyleVersion="13"docTitle="Drouetiella fasciculata Mai, Johansen et Bohunicka 2018, sp. nov."docType="treatment"docVersion="2"lastPageNumber="33"masterDocId="FF86A61C6C6EFF840012FFAAFF98FF96"masterDocTitle="Revision of the Synechococcales (Cyanobacteria) through recognition of four families including Oculatellaceae fam. nov. and Trichocoleaceae fam. nov. and six new genera containing 14 species"masterLastPageNumber="59"masterPageNumber="1"pageNumber="32"updateTime="1725596029488"updateUser="ExternalLinkService"zenodo-license-figures="UNSPECIFIED"zenodo-license-treatments="UNSPECIFIED">
<mods:titleid="DFA35AECE138C639B3BB0F7B4ED86FE7">Revision of the Synechococcales (Cyanobacteria) through recognition of four families including Oculatellaceae fam. nov. and Trichocoleaceae fam. nov. and six new genera containing 14 species</mods:title>
<mods:affiliationid="5F9E6C5E45204C8741345B42DA5C8D18">Department of Biology, John Carroll University, 1 John Carroll Blvd., University Heights, Ohio 44118, USA & Department of Plant and Environmental Sciences, New Mexico State University, Skeen Hall Room N 127, P. O Box 30003 MSC 3 Q, Las Cruces, New Mexico 88003, USA.</mods:affiliation>
<mods:affiliationid="33E8A00902BDE0308ED6A6F57045620B">Department of Biology, John Carroll University, 1 John Carroll Blvd., University Heights, Ohio 44118, USA & Department of Botany, Faculty of Science, University of South Bohemia, 31 Branišovská, 37005 České Budějovice, Czech Republic</mods:affiliation>
<mods:affiliationid="E15FDB226DA2013179BEB0C2A9B1143A">Department of Plant and Environmental Sciences, New Mexico State University, Skeen Hall Room N 127, P. O Box 30003 MSC 3 Q, Las Cruces, New Mexico 88003, USA.</mods:affiliation>
<mods:namePartid="025EC78058BE00EA0F4E673035636CD0">Martin, Michael P.</mods:namePart>
<mods:affiliationid="C4532D7E3753FCC0C462E2AC6B4931A1">Department of Biology, John Carroll University, 1 John Carroll Blvd., University Heights, Ohio 44118, USA</mods:affiliation>
<taxonomicNameid="4C1614F16C71FF9B009AFA7EFD70FA7B"authority="Mai, Johansen et Bohunicka"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[136,744,1492,1517]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="31"pageNumber="32"phylum="Cyanobacteria"rank="species"species="fasciculata"status="sp. nov.">
<taxonomicNameid="4C1614F16C71FF9B0133FA52FE2EF987"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[289,438,1528,1553]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="31"pageNumber="32"phylum="Cyanobacteria"rank="species"species="fasciculata">
<figureCitationid="132D73F76C71FF9B02D6F9EAFC8CF9CF"box="[708,788,1600,1625]"captionStart="FIGURE 8"captionStartId="18.[136,229,1187,1208]"captionTargetBox="[152,1434,425,1107]"captionTargetId="figure-143@18.[151,1436,422,1162]"captionTargetPageId="18"captionText="FIGURE 8. V2 helices of species described in Oculatellaceae. Several species do not have this structure, including Pegethrix convoluta, P. indistincta, Antartic Pegethrix species, Cartusia fontana¸ Kaiparowitsia implicata."figureDoi="http://doi.org/10.5281/zenodo.13704941"httpUri="https://zenodo.org/record/13704941/files/figure.png"pageId="31"pageNumber="32">Fig. 8e</figureCitation>
); however, in general it is distinctive in length and sequence from all other species (
<tableCitationid="C6945AC96C71FF9B019BF9CEFE78F9EB"box="[393,480,1636,1661]"captionStart="TABLE 6"captionStartId="14.[136,224,161,184]"captionText="TABLE 6. Length of regions within the ITS structure of species within family Oculatellaceae."pageId="31"pageNumber="32">Table 6</tableCitation>
). The percent dissimilarity between the ITS region of this species and the other taxa is>25% (
<tableCitationid="C6945AC96C71FF9B00C8F922FEA7F937"box="[218,319,1672,1697]"captionStart="TABLE 10"captionStartId="27.[136,224,971,994]"captionText="TABLE 10. ITS genetic similarity among Drouetiella species."pageId="31"pageNumber="32">Table 10</tableCitation>
<figureCitationid="132D73F76C71FF9B03C1F906FBACF953"box="[979,1076,1708,1733]"captionStart="FIGURE 15"captionStartId="29.[136,229,1832,1853]"captionTargetBox="[151,1435,187,1804]"captionTargetId="figure-14@29.[151,1435,187,1804]"captionTargetPageId="29"captionText="FIGURE 15. Drouetiella fasciculata. A. Fasiculated filaments with individual sheath. B. Mature trichomes with one to two large central granules. B–C. Different coiling patterns of filaments. D. Hormogonia. E–G. Cells barrel-shaped, not constricted and separated by somewhat translucent cross-walls. Scale bar 10μm in 400X (A) and 1000X magnification (B–J)."figureDoi="http://doi.org/10.5281/zenodo.13704957"httpUri="https://zenodo.org/record/13704957/files/figure.png"pageId="31"pageNumber="32">Fig. 15a</figureCitation>
<figureCitationid="132D73F76C71FF9B04C8F97AFAFCF97F"box="[1242,1380,1744,1769]"captionStart="FIGURE 15"captionStartId="29.[136,229,1832,1853]"captionTargetBox="[151,1435,187,1804]"captionTargetId="figure-14@29.[151,1435,187,1804]"captionTargetPageId="29"captionText="FIGURE 15. Drouetiella fasciculata. A. Fasiculated filaments with individual sheath. B. Mature trichomes with one to two large central granules. B–C. Different coiling patterns of filaments. D. Hormogonia. E–G. Cells barrel-shaped, not constricted and separated by somewhat translucent cross-walls. Scale bar 10μm in 400X (A) and 1000X magnification (B–J)."figureDoi="http://doi.org/10.5281/zenodo.13704957"httpUri="https://zenodo.org/record/13704957/files/figure.png"pageId="31"pageNumber="32">Figs. 15b–c</figureCitation>
), 2.7– 3.2 μm wide. Sheath firm, usually attached to trichome, occasionally distinct, clear, up to 1.3 μm wide. Trichomes not constricted at the cross-walls, with necridia, lacking meristematic zones, with cell division occurring throughout trichome, 1.5–2.4 (3.0) μm wide. Hormogonia rare (
<figureCitationid="132D73F76C71FF9B02C1F896FCACF8C3"box="[723,820,1852,1877]"captionStart="FIGURE 15"captionStartId="29.[136,229,1832,1853]"captionTargetBox="[151,1435,187,1804]"captionTargetId="figure-14@29.[151,1435,187,1804]"captionTargetPageId="29"captionText="FIGURE 15. Drouetiella fasciculata. A. Fasiculated filaments with individual sheath. B. Mature trichomes with one to two large central granules. B–C. Different coiling patterns of filaments. D. Hormogonia. E–G. Cells barrel-shaped, not constricted and separated by somewhat translucent cross-walls. Scale bar 10μm in 400X (A) and 1000X magnification (B–J)."figureDoi="http://doi.org/10.5281/zenodo.13704957"httpUri="https://zenodo.org/record/13704957/files/figure.png"pageId="31"pageNumber="32">Fig. 15d</figureCitation>
). Cells longer than wide, occasionally isodiametric after division, with peripheral thylakoids, with one large or two smaller central granules, 3.1–4.4 (5.4) μm long (
<figureCitationid="132D73F76C71FF9B0561F8CAFF54F80B"captionStart="FIGURE 15"captionStartId="29.[136,229,1832,1853]"captionTargetBox="[151,1435,187,1804]"captionTargetId="figure-14@29.[151,1435,187,1804]"captionTargetPageId="29"captionText="FIGURE 15. Drouetiella fasciculata. A. Fasiculated filaments with individual sheath. B. Mature trichomes with one to two large central granules. B–C. Different coiling patterns of filaments. D. Hormogonia. E–G. Cells barrel-shaped, not constricted and separated by somewhat translucent cross-walls. Scale bar 10μm in 400X (A) and 1000X magnification (B–J)."figureDoi="http://doi.org/10.5281/zenodo.13704957"httpUri="https://zenodo.org/record/13704957/files/figure.png"pageId="31"pageNumber="32">Figs. 15e–f</figureCitation>
<figureCitationid="132D73F76C71FF9B0227F82EFD0FF80B"box="[565,663,1924,1949]"captionStart="FIGURE 15"captionStartId="29.[136,229,1832,1853]"captionTargetBox="[151,1435,187,1804]"captionTargetId="figure-14@29.[151,1435,187,1804]"captionTargetPageId="29"captionText="FIGURE 15. Drouetiella fasciculata. A. Fasiculated filaments with individual sheath. B. Mature trichomes with one to two large central granules. B–C. Different coiling patterns of filaments. D. Hormogonia. E–G. Cells barrel-shaped, not constricted and separated by somewhat translucent cross-walls. Scale bar 10μm in 400X (A) and 1000X magnification (B–J)."figureDoi="http://doi.org/10.5281/zenodo.13704957"httpUri="https://zenodo.org/record/13704957/files/figure.png"pageId="31"pageNumber="32">
D1-D1’ 65 nucleotides long, with a 3’ unilateral bulge of 7 nucleotides (5’-CAACCCA-3’), and several internal loops in the mid-helix region at positions 8–9/49–50 and 15–16/43–44, with the largest bilateral bulge at position 21–24/34–38 immediately subtending the terminal loop by a 5’-GC:GC-3’ clamp (
<figureCitationid="132D73F76C71FF9B040BF85AFBF5F79F"box="[1049,1133,2032,2057]"captionStart="FIGURE 6"captionStartId="15.[136,229,1976,1997]"captionTargetBox="[157,1425,273,1857]"captionTargetId="figure-14@15.[151,1436,267,1882]"captionTargetPageId="15"captionText="FIGURE 6. D1-D1’ stems of species described in Oculatellaceae.The stem structures of genera described previously in other publications (Oculatella, Thermoleptolyngbya, Timaviella) or in publications under provision (Trichotorquatus) are not shown here."figureDoi="http://doi.org/10.5281/zenodo.13704935"httpUri="https://zenodo.org/record/13704935/files/figure.png"pageId="31"pageNumber="32">Fig. 6h</figureCitation>
<figureCitationid="132D73F76C71FF9B0558F7BEFA07F7BB"box="[1354,1439,2068,2093]"captionStart="FIGURE 7"captionStartId="17.[136,229,1928,1949]"captionTargetBox="[314,1274,759,1806]"captionTargetId="figure-238@17.[311,1276,751,1831]"captionTargetPageId="17"captionText="FIGURE 7. Box B helices of species described in Oculatellaceae. The structures of genera described previously in other publications (Oculatella, Thermoleptolyngbya, Timaviella) or in publications under provision (Trichotorquatus) are not shown here."figureDoi="http://doi.org/10.5281/zenodo.13704937"httpUri="https://zenodo.org/record/13704937/files/figure.png"pageId="31"pageNumber="32">
<figureCitationid="132D73F76C4EFFA404D7FF0AFA8EFF2F"box="[1221,1302,160,185]"captionStart="FIGURE 8"captionStartId="18.[136,229,1187,1208]"captionTargetBox="[152,1434,425,1107]"captionTargetId="figure-143@18.[151,1436,422,1162]"captionTargetPageId="18"captionText="FIGURE 8. V2 helices of species described in Oculatellaceae. Several species do not have this structure, including Pegethrix convoluta, P. indistincta, Antartic Pegethrix species, Cartusia fontana¸ Kaiparowitsia implicata."figureDoi="http://doi.org/10.5281/zenodo.13704941"httpUri="https://zenodo.org/record/13704941/files/figure.png"pageId="32"pageNumber="33">Fig. 8e</figureCitation>
). V3 helix 51 nucleotides long, with one basal unpaired guanine residue at position 46 of the 3’ strand, and one large bilateral bulge at position 9–12/39–42. Terminal loop sequence 5’-UUGC-3’ (
<figureCitationid="132D73F76C4EFFA4035AFF42FC04FE97"box="[840,924,232,257]"captionStart="FIGURE 9"captionStartId="19.[136,229,1958,1979]"captionTargetBox="[229,912,769,1871]"captionTargetId="figure-135@19.[151,1436,768,1875]"captionTargetPageId="19"captionText="FIGURE 9. V3 helices of species described in Oculatellaceae. All species described have this structure. The V3 helix of Cartusia aeruginosa is missing because we do not have the full length of its ITS region."figureDoi="http://doi.org/10.5281/zenodo.13704943"httpUri="https://zenodo.org/record/13704943/files/figure.png"pageId="32"pageNumber="33">Fig. 9h</figureCitation>
<collectingRegionid="49D2A1906C4EFFA4041CFED2FBDFFE07"box="[1038,1095,376,401]"country="United States of America"name="Utah"pageId="32"pageNumber="33">Utah</collectingRegion>
,
<collectingCountryid="F3012FE26C4EFFA40440FED2FB16FE07"box="[1106,1166,376,401]"name="United States of America"pageId="32"pageNumber="33">USA</collectingCountry>
<specimenCodeid="DBB0C7096C4EFFA40207FE36FD04FE23"box="[533,668,412,437]"collectionCode="BRY"country="USA"httpUri="http://biocol.org/urn:lsid:biocol.org:col:15673"lsid="urn:lsid:biocol.org:col:15673"name="Brigham Young University - S.L. Welsh Herbarium"pageId="32"pageNumber="33"type="Herbarium">BRY37779</specimenCode>
<collectingRegionid="49D2A1906C4EFFA400CBFE6AFE8BFE4F"box="[217,275,448,473]"country="United States of America"name="Utah"pageId="32"pageNumber="33">Utah</collectingRegion>
―GSE-PSE-MK29-07A, Algal Culture Collection at John Carroll University, Cleveland,
<collectingCountryid="F3012FE26C4EFFA4009AFDA2FF5CFDB7"box="[136,196,520,545]"name="United States of America"pageId="32"pageNumber="33">USA</collectingCountry>
<taxonomicNameid="4C1614F16C4EFFA402FEFD86FC15FDD3"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[748,909,556,581]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="fasciculata">
<taxonomicNameid="4C1614F16C4EFFA404C5FD86FAF7FDD3"authorityName="Anagnostidis & Komarek"authorityYear="1988"box="[1239,1391,556,581]"class="Cyanophyceae"family="Oscillatoriaceae"genus="Leptolyngbya"kingdom="Bacteria"order="Nostocales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="genus">
<taxonomicNameid="4C1614F16C4EFFA40198FDFAFAA6FDFF"authority="(Hansgirg 1892 b: 41) Anagnostidis & Komarek (1988: 391)"authorityName="Anagnostidis & Komarek"authorityPageNumber="391"authorityYear="1988"baseAuthorityName="Zopf ex Hansgirg"baseAuthorityPageNumber="41"baseAuthorityYear="1892"box="[394,1342,592,617]"class="Cyanophyceae"family="Oscillatoriaceae"genus="Leptolyngbya"kingdom="Bacteria"order="Nostocales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="gracillima">
<bibRefCitationid="EF8712836C4EFFA402B9FDFAFC12FDFF"author="Hansgirg, A."box="[683,906,592,617]"pageId="32"pageNumber="33"refId="ref33316"refString="Hansgirg, A. (1892 b) Prodomus der Algenflora von Bohmen. 2. Arch Naturwiss Landesdurchforsch Bohmen 8: 268."type="journal volume"year="1892">Hansgirg 1892b: 41</bibRefCitation>
) Anagnostidis &
<bibRefCitationid="EF8712836C4EFFA4045FFDFAFAA6FDFF"author="Komarek, J. & Lukavsky, J."box="[1101,1342,592,617]"pageId="32"pageNumber="33"pagination="249 - 267"refId="ref34146"refString="Komarek, J. & Lukavsky, J. (1988) Arthronema, a new cyanophyte genus from Afro-Asian deserts. Archiv fur Hydrobiologie, Supplement 50 - 53: 249 - 267."type="book chapter"year="1988">Komárek (1988: 391)</bibRefCitation>
</taxonomicName>
is similar in dimensions, but differs in the possession of false branching.
<taxonomicNameid="4C1614F16C4EFFA40340FDDEFDEFFD27"authority="(Gomont ex Gomont 1892: 147) Anagnostidis & Komarek (1988: 391)"authorityName="Anagnostidis & Komarek"authorityPageNumber="391"authorityYear="1988"baseAuthorityName="Gomont ex Gomont"baseAuthorityPageNumber="147"baseAuthorityYear="1892"class="Cyanophyceae"family="Oscillatoriaceae"genus="Leptolyngbya"kingdom="Bacteria"order="Nostocales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="lagerheimii">
<bibRefCitationid="EF8712836C4EFFA4051AFDDEFF2BFD27"author="Gomont, M."pageId="32"pageNumber="33"pagination="91 - 264"refId="ref33040"refString="Gomont, M. (1892) Monographie des Oscillariees (Nostocacees Homocystees). Deuxieme partie. - Lyngbyees. Annales des Sciences Naturelles, Botanique, Serie 7 (16): 91 - 264."type="journal article"year="1892">Gomont 1892: 147</bibRefCitation>
) Anagnostidis &
<bibRefCitationid="EF8712836C4EFFA40192FD32FDEFFD27"author="Komarek, J. & Lukavsky, J."box="[384,631,664,689]"pageId="32"pageNumber="33"pagination="249 - 267"refId="ref34146"refString="Komarek, J. & Lukavsky, J. (1988) Arthronema, a new cyanophyte genus from Afro-Asian deserts. Archiv fur Hydrobiologie, Supplement 50 - 53: 249 - 267."type="book chapter"year="1988">Komárek (1988: 391)</bibRefCitation>
</taxonomicName>
is similar but was described from stagnant waters in a tropical climate (
<bibRefCitationid="EF8712836C4EFFA40235FD16FC84FD43"author="Woronichin, N. N."box="[551,796,700,725]"pageId="32"pageNumber="33"pagination="1 - 77"refId="ref38473"refString="Woronichin, N. N. (1930) Algen des Polar-und des Nord-Urals. Travaux de la Societe de Naturalistes de Leningrad 60: 1 - 77."type="journal article"year="1930">Woronichin 1930: 69</bibRefCitation>
)
<bibRefCitationid="EF8712836C4EFFA40339FD16FBD6FD43"author="Anagnostidis, K."box="[811,1102,700,725]"pageId="32"pageNumber="33"pagination="359 - 375"refId="ref30726"refString="Anagnostidis, K. (2001) Nomenclatural changes in cyanoprokaryotic order Oscillatoriales. Preslia 73: 359 - 375."type="journal article"year="2001">Anagnostidis (2001: 368)</bibRefCitation>
</taxonomicName>
was close to
<taxonomicNameid="4C1614F16C4EFFA404FFFD16FA15FD43"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[1261,1421,700,725]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="fasciculata">
is an incompletely described species, and is sufficiently ecologically different from
<taxonomicNameid="4C1614F16C4EFFA40288FCAEFCA2FC8B"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[666,826,772,797]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="fasciculata">
that we do not feel using this name is appropriate for our populations. Several other species were also described to have similar morphology, especially the irregular coils, including
<bibRefCitationid="EF8712836C4EFFA401E4FCE6FC8EFCF3"author="Anagnostidis, K."box="[502,790,844,869]"pageId="32"pageNumber="33"pagination="359 - 375"refId="ref30726"refString="Anagnostidis, K. (2001) Nomenclatural changes in cyanoprokaryotic order Oscillatoriales. Preslia 73: 359 - 375."type="journal article"year="2001">Anagnostidis (2001: 366)</bibRefCitation>
</taxonomicName>
,
<taxonomicNameid="4C1614F16C4EFFA40330FCE6FE18FC1F"authority="(Gardner 1927: 43) Anagnostidis & Komarek (1988: 392)"authorityName="Anagnostidis & Komarek"authorityPageNumber="392"authorityYear="1988"baseAuthorityName="Gardner"baseAuthorityPageNumber="43"baseAuthorityYear="1927"class="Cyanophyceae"family="Oscillatoriaceae"genus="Leptolyngbya"kingdom="Bacteria"order="Nostocales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="mucosa">
<bibRefCitationid="EF8712836C4EFFA40437FCE6FB75FCF3"author="Gardner, N. L."box="[1061,1261,844,869]"pageId="32"pageNumber="33"pagination="1 - 144"refId="ref32795"refString="Gardner, N. L. (1927) New Myxophyceae from Porto-Rico. Memoirs of the New York Botanical Garden 7: 1 - 144."type="journal article"year="1927">Gardner 1927: 43</bibRefCitation>
) Anagnostidis &
<bibRefCitationid="EF8712836C4EFFA4009AFCDAFE18FC1F"author="Komarek, J. & Lukavsky, J."box="[136,384,880,905]"pageId="32"pageNumber="33"pagination="249 - 267"refId="ref34146"refString="Komarek, J. & Lukavsky, J. (1988) Arthronema, a new cyanophyte genus from Afro-Asian deserts. Archiv fur Hydrobiologie, Supplement 50 - 53: 249 - 267."type="book chapter"year="1988">Komárek (1988: 392)</bibRefCitation>
<bibRefCitationid="EF8712836C4EFFA40281FCDAFCEEFC1F"author="Schwabe, G. H."box="[659,886,880,905]"pageId="32"pageNumber="33"pagination="1 - 300"refId="ref37082"refString="Schwabe, G. H. (1944) Umraumfremde Quellen. Mitteilungen der deutschen Gesellschaft fur Natur-und Volkerkunde Ostasiens Suppl. 21: 1 - 300."type="journal article"year="1944">Schwabe 1944: 180</bibRefCitation>
)
<bibRefCitationid="EF8712836C4EFFA40397FCDAFB31FC1F"author="Anagnostidis, K."box="[901,1193,880,905]"pageId="32"pageNumber="33"pagination="359 - 375"refId="ref30726"refString="Anagnostidis, K. (2001) Nomenclatural changes in cyanoprokaryotic order Oscillatoriales. Preslia 73: 359 - 375."type="journal article"year="2001">Anagnostidis (2001: 367)</bibRefCitation>
<bibRefCitationid="EF8712836C4EFFA400DBFC3EFEE9FC3B"author="Jao, C. C."box="[201,369,916,941]"pageId="32"pageNumber="33"pagination="161 - 177"refId="ref33602"refString="Jao, C. C. (1948) The marine Myxophyceae in the vicinity of Friday Harbor, Washington. Botanical Bulletin of Academia Sinica 2: 161 - 177."type="journal article"year="1948">Jao 1948: 169</bibRefCitation>
)
<bibRefCitationid="EF8712836C4EFFA40193FC3EFD3CFC3B"author="Anagnostidis, K."box="[385,676,916,941]"pageId="32"pageNumber="33"pagination="359 - 375"refId="ref30726"refString="Anagnostidis, K. (2001) Nomenclatural changes in cyanoprokaryotic order Oscillatoriales. Preslia 73: 359 - 375."type="journal article"year="2001">Anagnostidis (2001: 367)</bibRefCitation>
<bibRefCitationid="EF8712836C4EFFA403A0FC3EFB16FC3B"author="Kisselev"box="[946,1166,916,941]"pageId="32"pageNumber="33"refId="ref34076"refString="Kisselev (1935) Uber das Phytoplankton einiger Seen des Jakutzkschen Gebietes (Autonome Jakutzk Republik) in Explorations des lacs de I'URSS, VIII. Leningrad Institut Hydrologique, 1908 pp."type="book"year="1935">Kisselev (1935:73)</bibRefCitation>
</taxonomicName>
. These five species were described from tropical, marine, or polar aquatic habitats very different from the temperate climate, subaerophytic habitat in which
<taxonomicNameid="4C1614F16C4EFFA40151FC76FE79FC63"authorityName="Mai, Johansen et Bohunicka"authorityYear="2018"box="[323,481,988,1013]"class="Cyanobacteriia"family="Oculatellaceae"genus="Drouetiella"higherTaxonomySource="GBIF"kingdom="Bacteria"order="Synechococcales"pageId="32"pageNumber="33"phylum="Cyanobacteria"rank="species"species="fasciculata">
was found. Furthermore, they differ in dimensions, and it appears to be a new species. It is equally morphologically dissimilar to these species, such that it could not be assigned to any one of them with confidence.
