treatments-xml/data/19/F4/28/19F4284699D25FCDB177A58B33DAFFE3.xml

<document ID-DOI="http://dx.doi.org/10.3897/mycokeys.76.58465" ID-GBIF-Dataset="5a5eeb3e-98b2-43d4-993e-33bc5ac12bf5" ID-PMC="PMC7790812" ID-Pensoft-Pub="1314-4049-76-81" ID-Pensoft-UUID="521CFDA6D9F95A25AB0EF6B1F5742E80" ID-PubMed="33505198" ModsDocID="1314-4049-76-81" checkinTime="1609463476003" checkinUser="pensoft" docAuthor="Zhang, Jin-Feng, Liu, Jian-Kui, Hyde, Kevin D., Ekanayaka, Anusha H. &amp; Liu, Zuo-Yi" docDate="2020" docId="19F4284699D25FCDB177A58B33DAFFE3" docLanguage="en" docName="MycoKeys 76: 81-106" docOrigin="MycoKeys 76" docPubDate="2020-12-31" docSource="http://dx.doi.org/10.3897/mycokeys.76.58465" docTitle="Terriera sigmoideospora J. F. Zhang &amp; K. D. Hyde 2020, sp. nov." docType="treatment" docVersion="4" id="521CFDA6D9F95A25AB0EF6B1F5742E80" lastPageNumber="81" masterDocId="521CFDA6D9F95A25AB0EF6B1F5742E80" masterDocTitle="Morpho-phylogenetic evidence reveals new species in Rhytismataceae (Rhytismatales, Leotiomycetes, Ascomycota) from Guizhou Province, China" masterLastPageNumber="106" masterPageNumber="81" pageNumber="81" updateTime="1668136595652" updateUser="ExternalLinkService">
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<mods:title>Morpho-phylogenetic evidence reveals new species in Rhytismataceae (Rhytismatales, Leotiomycetes, Ascomycota) from Guizhou Province, China</mods:title>
</mods:titleInfo>
<mods:name type="personal">
<mods:role>
<mods:roleTerm>Author</mods:roleTerm>
</mods:role>
<mods:namePart>Zhang, Jin-Feng</mods:namePart>
<mods:nameIdentifier type="ORCID">https://orcid.org/0000-0003-0765-2485</mods:nameIdentifier>
<mods:affiliation>Institute of Tea Research, Guizhou Academy of Agricultural Sciences, Guiyang 550006, China &amp; Guizhou Key Laboratory of Agriculture Biotechnology, Guizhou Academy of Agricultural Sciences, Guiyang 550006, China &amp; Center of Excellence in Fungal Research and School of Science, Mae Fah Luang University, Chiang Rai 57100, Thailand</mods:affiliation>
</mods:name>
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<mods:roleTerm>Author</mods:roleTerm>
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<mods:namePart>Liu, Jian-Kui</mods:namePart>
<mods:nameIdentifier type="ORCID">https://orcid.org/0000-0002-9232-228X</mods:nameIdentifier>
<mods:affiliation>Guizhou Key Laboratory of Agriculture Biotechnology, Guizhou Academy of Agricultural Sciences, Guiyang 550006, China &amp; School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu 611731, China</mods:affiliation>
</mods:name>
<mods:name type="personal">
<mods:role>
<mods:roleTerm>Author</mods:roleTerm>
</mods:role>
<mods:namePart>Hyde, Kevin D.</mods:namePart>
<mods:affiliation>Center of Excellence in Fungal Research and School of Science, Mae Fah Luang University, Chiang Rai 57100, Thailand &amp; Innovative Institute of Plant Health, Zhongkai University of Agriculture and Engineering, Haizhu District, Guangzhou 510225, China &amp; Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650201, China</mods:affiliation>
</mods:name>
<mods:name type="personal">
<mods:role>
<mods:roleTerm>Author</mods:roleTerm>
</mods:role>
<mods:namePart>Ekanayaka, Anusha H.</mods:namePart>
<mods:affiliation>Center of Excellence in Fungal Research and School of Science, Mae Fah Luang University, Chiang Rai 57100, Thailand &amp; Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650201, China</mods:affiliation>
</mods:name>
<mods:name type="personal">
<mods:role>
<mods:roleTerm>Author</mods:roleTerm>
</mods:role>
<mods:namePart>Liu, Zuo-Yi</mods:namePart>
<mods:affiliation>Guizhou Key Laboratory of Agriculture Biotechnology, Guizhou Academy of Agricultural Sciences, Guiyang 550006, China</mods:affiliation>
<mods:nameIdentifier type="email">gzliuzuoyi@163.com</mods:nameIdentifier>
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<mods:date>2020</mods:date>
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<mods:number>2020-12-31</mods:number>
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<mods:detail type="volume">
<mods:number>76</mods:number>
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<mods:start>81</mods:start>
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<mods:url>http://dx.doi.org/10.3897/mycokeys.76.58465</mods:url>
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<mods:classification>journal article</mods:classification>
<mods:identifier type="DOI">http://dx.doi.org/10.3897/mycokeys.76.58465</mods:identifier>
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<subSection pageId="0" pageNumber="81" type="taxonomy">
<treatment ID-GBIF-Taxon="176352551" LSID="urn:lsid:plazi:treatment:19F4284699D25FCDB177A58B33DAFFE3" httpUri="http://treatment.plazi.org/id/19F4284699D25FCDB177A58B33DAFFE3" lastPageNumber="81" pageId="0" pageNumber="81">
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<paragraph pageId="0" pageNumber="81">
<taxonomicName LSID="19F42846-99D2-5FCD-B177-A58B33DAFFE3" authority="J. F. Zhang &amp; K. D. Hyde" authorityName="J. F. Zhang &amp; K. D. Hyde" authorityYear="2020" class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora" status="sp. nov.">Terriera sigmoideospora J.F. Zhang &amp; K.D. Hyde</taxonomicName>
<taxonomicNameLabel pageId="0" pageNumber="81">sp. nov.</taxonomicNameLabel>
<figureCitation captionStart="Figure 5" captionStartId="F5" captionText="Figure 5. Terriera sigmoideospora a, b apothecia observed under the dissecting microscope c section of covering stroma d median vertical section through an apothecium e immature ascus f paraphyses and asci in various states of maturity g, h ascospores. Note: c-h mounted in water. Scale bar: 1 mm (a), 500 µm (b), 100 µm (c), 20 µm (d-h)." figureDoi="10.3897/mycokeys.76.58465.figure5" httpUri="https://binary.pensoft.net/fig/492866" pageId="0" pageNumber="81">Figure 5</figureCitation>
</paragraph>
</subSubSection>
<subSubSection pageId="0" pageNumber="81" type="holotype">
<paragraph pageId="0" pageNumber="81">Holotype.</paragraph>
<paragraph pageId="0" pageNumber="81">MFLU 18-2297.</paragraph>
</subSubSection>
<subSubSection pageId="0" pageNumber="81" type="etymology">
<paragraph pageId="0" pageNumber="81">Etymology.</paragraph>
<paragraph pageId="0" pageNumber="81">Refers to its sigmoidal ascospores.</paragraph>
</subSubSection>
<subSubSection pageId="0" pageNumber="81" type="description">
<paragraph pageId="0" pageNumber="81">Description.</paragraph>
<paragraph pageId="0" pageNumber="81">
<emphasis italics="true" pageId="0" pageNumber="81">Apothecia</emphasis>
developing on fallen leaves, scattered, dark brown to black, matt, elliptical, sometimes 3-lobed or triangular, straight or slightly curved, ends rounded to subacute, strongly raising the surface of the substrate at maturity, opening by a single longitudinal split that extends almost the whole length of the apothecium (Fig. 
<figureCitation captionStart="Figure 5" captionStartId="F5" captionText="Figure 5. Terriera sigmoideospora a, b apothecia observed under the dissecting microscope c section of covering stroma d median vertical section through an apothecium e immature ascus f paraphyses and asci in various states of maturity g, h ascospores. Note: c-h mounted in water. Scale bar: 1 mm (a), 500 µm (b), 100 µm (c), 20 µm (d-h)." figureDoi="10.3897/mycokeys.76.58465.figure5" httpUri="https://binary.pensoft.net/fig/492866" pageId="0" pageNumber="81">5a, b</figureCitation>
). Immature apothecia appearing as a single dark brown protrusion, circular to slightly elongated. In median vertical section (Fig. 
<figureCitation captionStart="Figure 5" captionStartId="F5" captionText="Figure 5. Terriera sigmoideospora a, b apothecia observed under the dissecting microscope c section of covering stroma d median vertical section through an apothecium e immature ascus f paraphyses and asci in various states of maturity g, h ascospores. Note: c-h mounted in water. Scale bar: 1 mm (a), 500 µm (b), 100 µm (c), 20 µm (d-h)." figureDoi="10.3897/mycokeys.76.58465.figure5" httpUri="https://binary.pensoft.net/fig/492866" pageId="0" pageNumber="81">5d</figureCitation>
), apothecia 185-220 
<normalizedToken originalValue="μm">μm</normalizedToken>
deep. 
<emphasis italics="true" pageId="0" pageNumber="81">Covering stroma</emphasis>
(Fig. 
<figureCitation captionStart="Figure 5" captionStartId="F5" captionText="Figure 5. Terriera sigmoideospora a, b apothecia observed under the dissecting microscope c section of covering stroma d median vertical section through an apothecium e immature ascus f paraphyses and asci in various states of maturity g, h ascospores. Note: c-h mounted in water. Scale bar: 1 mm (a), 500 µm (b), 100 µm (c), 20 µm (d-h)." figureDoi="10.3897/mycokeys.76.58465.figure5" httpUri="https://binary.pensoft.net/fig/492866" pageId="0" pageNumber="81">5c</figureCitation>
) 20-25 
<normalizedToken originalValue="μm">μm</normalizedToken>
thick near the centre of the apothecium, consisting of an outer layer of host cuticle, remains of epidermal and hypodermal cells filled with thick-walled, angular fungal cells and an inner layer of 
<emphasis italics="true" pageId="0" pageNumber="81">textura angularis</emphasis>
to 
<emphasis italics="true" pageId="0" pageNumber="81">textura globulosa</emphasis>
with 4-7 
<normalizedToken originalValue="μm">μm</normalizedToken>
diam., dark brown, thick-walled cells, slightly thinner towards the edges, extending to the basal stroma, but conspicuously thicker towards the apothecial opening, with a 15-27 
<normalizedToken originalValue="μm">μm</normalizedToken>
thick extension comprising highly melanised tissue with no obvious cellular structure. 
<emphasis italics="true" pageId="0" pageNumber="81">Excipulum</emphasis>
moderately developed, closely adhering to the covering stroma and the extension, arising from the marginal paraphyses, becoming thinner towards the base. 
<emphasis italics="true" pageId="0" pageNumber="81">Basal stroma</emphasis>
concave, 12-15 
<normalizedToken originalValue="μm">μm</normalizedToken>
thick, composed of dark brown, thick-walled, angular cells. A triangular space between the covering stroma and basal stroma is composed of thin-walled, colourless cells that are vertically arranged in rows. 
<emphasis italics="true" pageId="0" pageNumber="81">Subhymenium</emphasis>
6-9 
<normalizedToken originalValue="μm">μm</normalizedToken>
thick, flat, consisting of hyaline cells of 
<emphasis italics="true" pageId="0" pageNumber="81">textura intricata</emphasis>
. 
<emphasis italics="true" pageId="0" pageNumber="81">Paraphyses</emphasis>
filiform, hyaline, septate, gradually or suddenly swollen to 2.5 
<normalizedToken originalValue="μm">μm</normalizedToken>
near the apex, covered by a thin gelatinous sheath, forming a 4-8 
<normalizedToken originalValue="μm">μm</normalizedToken>
thick epithecium. 
<emphasis italics="true" pageId="0" pageNumber="81">Asci</emphasis>
(93.5-)102-121 
<normalizedToken originalValue="×">x</normalizedToken>
5-6 
<normalizedToken originalValue="μm">μm</normalizedToken>
(
<emphasis italics="true" pageId="0" pageNumber="81">x</emphasis>
¯ = 108.5 
<normalizedToken originalValue="×">x</normalizedToken>
5.5 
<normalizedToken originalValue="µm">µm</normalizedToken>
, n = 20), 8-spored, unitunicate, cylindrical, apex tapering to round, thin-walled, J-, without circumapical thickening. 
<emphasis italics="true" pageId="0" pageNumber="81">Ascospores</emphasis>
79-95 
<normalizedToken originalValue="×">x</normalizedToken>
1.5-2 
<normalizedToken originalValue="μm">μm</normalizedToken>
(
<emphasis italics="true" pageId="0" pageNumber="81">x</emphasis>
¯ = 89.5 
<normalizedToken originalValue="×">x</normalizedToken>
1.9 
<normalizedToken originalValue="µm">µm</normalizedToken>
, n = 30), fascicle, filiform, sigmoid, tapering slightly towards the ends, hyaline, aseptate, guttulate, gelatinous sheath not observed. 
<emphasis italics="true" pageId="0" pageNumber="81">Asexual morph</emphasis>
: Not observed.
</paragraph>
<caption doi="10.3897/mycokeys.76.58465.figure5" httpUri="https://binary.pensoft.net/fig/492866" pageId="0" pageNumber="81" start="Figure 5" startId="F5">
<paragraph pageId="0" pageNumber="81">
<emphasis bold="true" pageId="0" pageNumber="81">Figure 5.</emphasis>
<taxonomicName authorityName="J. F. Zhang &amp; K. D. Hyde" authorityYear="2020" class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora">
<emphasis italics="true" pageId="0" pageNumber="81">Terriera sigmoideospora</emphasis>
</taxonomicName>
<emphasis bold="true" pageId="0" pageNumber="81">a, b</emphasis>
apothecia observed under the dissecting microscope 
<emphasis bold="true" pageId="0" pageNumber="81">c</emphasis>
section of covering stroma 
<emphasis bold="true" pageId="0" pageNumber="81">d</emphasis>
median vertical section through an apothecium 
<emphasis bold="true" pageId="0" pageNumber="81">e</emphasis>
immature ascus 
<emphasis bold="true" pageId="0" pageNumber="81">f</emphasis>
paraphyses and asci in various states of maturity 
<emphasis bold="true" pageId="0" pageNumber="81">g, h</emphasis>
ascospores. Note: 
<emphasis bold="true" pageId="0" pageNumber="81">c-h</emphasis>
mounted in water. Scale bar: 1 mm (
<emphasis bold="true" pageId="0" pageNumber="81">a</emphasis>
), 500 
<normalizedToken originalValue="µm">µm</normalizedToken>
(
<emphasis bold="true" pageId="0" pageNumber="81">b</emphasis>
), 100 
<normalizedToken originalValue="µm">µm</normalizedToken>
(
<emphasis bold="true" pageId="0" pageNumber="81">c</emphasis>
), 20 
<normalizedToken originalValue="µm">µm</normalizedToken>
(
<emphasis bold="true" pageId="0" pageNumber="81">d-h</emphasis>
).
</paragraph>
</caption>
</subSubSection>
<subSubSection pageId="0" pageNumber="81" type="materials_examined">
<paragraph pageId="0" pageNumber="81">Material examined.</paragraph>
<paragraph pageId="0" pageNumber="81">
CHINA, Guizhou Province, Guiyang, dead leaves of unidentified host, 5 October 2016, J.F. Zhang, GZ-28 (MFLU 18-2297, 
<emphasis bold="true" italics="true" pageId="0" pageNumber="81">holotype</emphasis>
); 
<emphasis italics="true" pageId="0" pageNumber="81">ibid</emphasis>
. (GZAAS 19-1729, 
<emphasis bold="true" italics="true" pageId="0" pageNumber="81">isotype</emphasis>
).
</paragraph>
</subSubSection>
<subSubSection pageId="0" pageNumber="81" type="notes">
<paragraph pageId="0" pageNumber="81">Notes.</paragraph>
<paragraph pageId="0" pageNumber="81">
In the present phylogenetic analysis (Fig. 
<figureCitation captionStart="Figure 1" captionStartId="F1" captionText="Figure 1. Phylogram of Rhytismataceae is presented as the best tree revealed by MP analysis, based on the concatenated LSU-ITS-mtSSU sequence dataset. MP bootstrap support values (MPBP ≥ 50 %) and Bayesian inference posterior probabilities (BYPP ≥ 0.95) are shown near the nodes. The tree is rooted to Marthamyces emarginatus (ICMP 22854), the scale bar showing 10 changes. Type strains are indicated in bold and new sequences, generated in this study, are given in red." figureDoi="10.3897/mycokeys.76.58465.figure1" httpUri="https://binary.pensoft.net/fig/492862" pageId="0" pageNumber="81">1</figureCitation>
), 
<taxonomicName authorityName="J. F. Zhang &amp; K. D. Hyde" authorityYear="2020" class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora">
<emphasis italics="true" pageId="0" pageNumber="81">Terriera sigmoideospora</emphasis>
</taxonomicName>
is placed within 
<taxonomicName class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="genus">
<emphasis italics="true" pageId="0" pageNumber="81">Terriera</emphasis>
</taxonomicName>
and is related to 
<taxonomicName class="Ascomycetes" family="Rhytismataceae" higherTaxonomySource="GBIF" kingdom="Fungi" lsidName="T. houjiazhuangensis" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="houjiazhuangensis">
<emphasis italics="true" pageId="0" pageNumber="81">T. houjiazhuangensis</emphasis>
</taxonomicName>
C.L. Hou &amp; S.R. Hou by strong statistical support (MPBP 99% and BYPP 1.00). 
<taxonomicName authorityName="J. F. Zhang &amp; K. D. Hyde" authorityYear="2020" class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora">
<emphasis italics="true" pageId="0" pageNumber="81">Terriera sigmoideospora</emphasis>
</taxonomicName>
shares similar-sized asci with 
<taxonomicName class="Ascomycetes" family="Rhytismataceae" higherTaxonomySource="GBIF" kingdom="Fungi" lsidName="T. houjiazhuangensis" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="houjiazhuangensis">
<emphasis italics="true" pageId="0" pageNumber="81">T. houjiazhuangensis</emphasis>
</taxonomicName>
(102-121 
<normalizedToken originalValue="×">x</normalizedToken>
5-6 
<normalizedToken originalValue="μm">μm</normalizedToken>
vs. 103-128 
<normalizedToken originalValue="×">x</normalizedToken>
4-6 
<normalizedToken originalValue="μm">μm</normalizedToken>
), but has larger ascospores (79-95 
<normalizedToken originalValue="×">x</normalizedToken>
1.5-2 
<normalizedToken originalValue="μm">μm</normalizedToken>
vs. 73-82 
<normalizedToken originalValue="×">x</normalizedToken>
0.6-0.9 
<normalizedToken originalValue="μm">μm</normalizedToken>
) (
<bibRefCitation DOI="https://doi.org/10.1007/s11557-020-01594-4" author="Cai, SR" journalOrPublisher="Mycological Progress" pageId="0" pageNumber="81" pagination="825 - 835" refId="B1" refString="Cai, SR, Wang, SJ, Lv, T, Hou, CL, 2020. Three new species of Terriera (Rhytismatales, Ascomycota) from China. Mycological Progress 19: 825 - 835, DOI: https://doi.org/10.1007/s11557-020-01594-4" title="Three new species of Terriera (Rhytismatales, Ascomycota) from China." url="https://doi.org/10.1007/s11557-020-01594-4" volume="19" year="2020">Cai et al. 2020</bibRefCitation>
). Besides, the ascospores of 
<taxonomicName class="Ascomycetes" family="Rhytismataceae" higherTaxonomySource="GBIF" kingdom="Fungi" lsidName="T. houjiazhuangensis" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="houjiazhuangensis">
<emphasis italics="true" pageId="0" pageNumber="81">T. houjiazhuangensis</emphasis>
</taxonomicName>
are enveloped by an inconspicuous gelatinous sheath, while this is not observed in 
<taxonomicName class="Ascomycetes" family="Rhytismataceae" higherTaxonomySource="GBIF" kingdom="Fungi" lsidName="T. sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora">
<emphasis italics="true" pageId="0" pageNumber="81">T. sigmoideospora</emphasis>
</taxonomicName>
. In addition, the comparison of the ITS gene region between these two taxa has been processed and showed that there are 19/815 (2.3%) bp differences. 
<taxonomicName authorityName="Tibpromma &amp; K.D.Hyde" authorityYear="2018" class="Leotiomycetes" family="Rhytismataceae" genus="Terriera" higherTaxonomySource="CoL" kingdom="Fungi" lsidName="Terriera pandanicola" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="pandanicola">
<emphasis italics="true" pageId="0" pageNumber="81">Terriera pandanicola</emphasis>
</taxonomicName>
is sister to the above two taxa; however, it is significantly distinguished from 
<taxonomicName class="Ascomycetes" family="Rhytismataceae" higherTaxonomySource="GBIF" kingdom="Fungi" lsidName="T. sigmoideospora" order="Rhytismatales" pageId="0" pageNumber="81" phylum="Ascomycota" rank="species" species="sigmoideospora">
<emphasis italics="true" pageId="0" pageNumber="81">T. sigmoideospora</emphasis>
</taxonomicName>
as its obviously smaller asci (50-66 
<normalizedToken originalValue="×">x</normalizedToken>
4-5 
<normalizedToken originalValue="μm">μm</normalizedToken>
vs. 102-121 
<normalizedToken originalValue="×">x</normalizedToken>
5-6 
<normalizedToken originalValue="μm">μm</normalizedToken>
) and ascospores (55-78 
<normalizedToken originalValue="×">x</normalizedToken>
1-2 
<normalizedToken originalValue="μm">μm</normalizedToken>
vs. 79-95 
<normalizedToken originalValue="×">x</normalizedToken>
1.5-2 
<normalizedToken originalValue="μm">μm</normalizedToken>
) (
<bibRefCitation DOI="https://doi.org/10.1007/s13225-018-0408-6" author="Tibpromma, S" journalOrPublisher="Fungal Diversity" pageId="0" pageNumber="81" pagination="1 - 160" refId="B56" refString="Tibpromma, S, Hyde, KD, McKenzie, EHC, Bhat, DJ, Phillips, AJL, Wanasinghe, DN, Samarakoon, MC, Jayawardena, RS, Dissanayake, AJ, Tennakoon, DS, Doilom, M, Phookamsak, R, Tang, AMC, Xu, JC, Mortimer, PE, Promputtha, I, Maharachchikumbura, SSN, Khan, S, Karunarathna, SC, 2018. Fungal diversity notes 840-928: micro-fungi associated with Pandanaceae. Fungal Diversity 93: 1 - 160, DOI: https://doi.org/10.1007/s13225-018-0408-6" title="Fungal diversity notes 840 - 928: micro-fungi associated with Pandanaceae." url="https://doi.org/10.1007/s13225-018-0408-6" volume="93" year="2018">Tibpromma et al. 2018</bibRefCitation>
).
</paragraph>
</subSubSection>
</treatment>
</subSection>
</document>