<document tableId="DF19661E4753FFB10898BFA6ACC20A75" sourceDocId="FFF6FFF84754FFB6083EBF0FA9700B6C" captionStart="Table 3" checkinTime="1754596388033" checkinUser="guilherme" pageId="7" pageNumber="669" updateTime="1754596695379" updateUser="ExternalLinkService"><mods:mods xmlns:mods="http://www.loc.gov/mods/v3">
    <mods:titleInfo>
        <mods:title>Trypanosoma (Euglenozoa: Kinetoplastea) Infections in Rodents, Bats, and Shrews along an Elevation and Disturbance Gradient in Central Sulawesi, Indonesia</mods:title>
    </mods:titleInfo>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Mursyid, Ahmad</mods:namePart>
        <mods:affiliation>Masters in Biology, Department of Biology, Faculty of Mathematics and Natural Sciences, Andalas University, Limau Manis, Padang 25163, Indonesia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Achmadi, Anang Setiawan</mods:namePart>
        <mods:affiliation>Bogor Zoological Museum, Research Center for Biology, Cibinong, West Java, Indonesia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Novarino, Wilson</mods:namePart>
        <mods:affiliation>Department of Biology, Faculty of Mathematics and Natural Sciences, Andalas University, Limau Manis, Padang 25163, Indonesia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Handika, Heru</mods:namePart>
        <mods:affiliation>Museum of Natural Science and Department of Biological Sciences, Louisiana State University, Baton Rouge, LA 70803, United States of America</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Nugroho, Herjuno Ari</mods:namePart>
        <mods:affiliation>Bogor Zoological Museum, Research Center for Biology, Cibinong, West Java, Indonesia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Anita, Syahfitri</mods:namePart>
        <mods:affiliation>Bogor Zoological Museum, Research Center for Biology, Cibinong, West Java, Indonesia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Adams, Amy Louise</mods:namePart>
        <mods:affiliation>Sciences Department, Museums Victoria, Melbourne, Australia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Rowe, Karen Marie Cavey</mods:namePart>
        <mods:affiliation>Sciences Department, Museums Victoria, Melbourne, Australia &amp; School of BioSciences, The University of Melbourne, Melbourne, Australia</mods:affiliation>
    </mods:name>
    <mods:name type="personal">
        <mods:role>
            <mods:roleTerm>Author</mods:roleTerm>
        </mods:role>
        <mods:namePart>Rowe, Kevin Christopher</mods:namePart>
        <mods:affiliation>Sciences Department, Museums Victoria, Melbourne, Australia &amp; School of BioSciences, The University of Melbourne, Melbourne, Australia</mods:affiliation>
    </mods:name>
    <mods:typeOfResource>text</mods:typeOfResource>
    <mods:relatedItem type="host">
        <mods:titleInfo>
            <mods:title>Records of the Australian Museum</mods:title>
        </mods:titleInfo>
        <mods:part>
            <mods:date>2023</mods:date>
            <mods:detail type="pubDate">
                <mods:number>2023-12-13</mods:number>
            </mods:detail>
            <mods:detail type="volume">
                <mods:number>75</mods:number>
            </mods:detail>
            <mods:detail type="issue">
                <mods:number>5</mods:number>
            </mods:detail>
            <mods:extent unit="page">
                <mods:start>663</mods:start>
                <mods:end>671</mods:end>
            </mods:extent>
        </mods:part>
    </mods:relatedItem>
    <mods:classification>journal article</mods:classification>
    <mods:identifier type="DOI">10.3853/j.2201-4349.75.2023.1786</mods:identifier>
    <mods:identifier type="ISSN">2201-4349</mods:identifier>
    <mods:identifier type="Zenodo-Dep">16763814</mods:identifier>
</mods:mods>
<table id="DF19661E4753FFB10898BFA6ACC20A75"><caption pageId="7" pageNumber="669" startId="7.[166,229,169,193]" targetType="table"><emphasis bold="true" box="[166,256,169,193]" pageId="7" pageNumber="669">Table 3.</emphasis> Mammalian host sample sizes and prevalence of <taxonomicName _evidence="catalogs" _step="genera" authorityName="Gruby" authorityYear="1843" box="[792,937,170,193]" class="Kinetoplastea" family="Trypanosomatidae" genus="Trypanosoma" kingdom="Protozoa" order="Trypanosomatida" pageId="7" pageNumber="669" phylum="Euglenozoa" rank="genus"><emphasis box="[792,937,170,193]" italics="true" pageId="7" pageNumber="669">Trypanosoma</emphasis></taxonomicName> and <taxonomicName _evidence="catalogs" _step="genera" authorityName="Gruby" authorityYear="1843" box="[991,1136,170,193]" class="Kinetoplastea" family="Trypanosomatidae" genus="Trypanosoma" kingdom="Protozoa" order="Trypanosomatida" pageId="7" pageNumber="669" phylum="Euglenozoa" rank="genus"><emphasis box="[991,1136,170,193]" italics="true" pageId="7" pageNumber="669">Trypanosoma</emphasis></taxonomicName> clades in each elevational bin. Prevalence of any <taxonomicName _evidence="catalogs" _step="genera" authorityName="Gruby" authorityYear="1843" box="[362,507,199,222]" class="Kinetoplastea" family="Trypanosomatidae" genus="Trypanosoma" kingdom="Protozoa" order="Trypanosomatida" pageId="7" pageNumber="669" phylum="Euglenozoa" rank="genus"><emphasis box="[362,507,199,222]" italics="true" pageId="7" pageNumber="669">Trypanosoma</emphasis></taxonomicName> and of the Theileri clade (<taxonomicName _evidence="catalog+fontStyle" _step="styledSpecies" box="[785,890,199,223]" class="Kinetoplastea" family="Trypanosomatidae" genus="Trypanosoma" kingdom="Protozoa" order="Trypanosomatida" pageId="7" pageNumber="669" phylum="Euglenozoa" rank="species" species="cyclops"><emphasis box="[785,890,199,223]" italics="true" pageId="7" pageNumber="669">T. cyclops</emphasis></taxonomicName>) were calculated using sample sizes of all mammalian species. For the Lewisi clade, prevalence was calculated considering only sample sizes of murid species. For the Cruzi clade, prevalence was calculated considering only sample sizes of bats. Sample sizes exclude failed sequences noted in Table 1.</caption><thead><tr id="355634D44753004908D2BE3BAC3E0A20"><th id="76875DA84753004908D2BE3BABCB0A20"/><th id="76875DA8475300490AECBE3BAA300A20"/><th box="[886,1188,308,332]" colspan="2" id="76875DA8475300490B48BE3BADD40A20" pageId="7" pageNumber="669">Elevational bins (m asl)</th><th id="76875DA8475300490CFABE3BAC3E0A20"/></tr></thead><tbody><tr id="355634D44753004908D2BE5DAC3E0AEB"><th id="76875DA84753004908D2BE5DABCB0AEB"/><td box="[722,832,338,391]" id="76875DA8475300490AECBE5DAA300AEB" pageId="7" pageNumber="669">I (300–800)</td><td box="[886,1010,338,391]" id="76875DA8475300490B48BE5DAA820AEB" pageId="7" pageNumber="669">II (801–1300)</td><td box="[1050,1188,338,391]" id="76875DA8475300490C24BE5DADD40AEB" pageId="7" pageNumber="669">III (1301–1800)</td><td box="[1220,1358,338,391]" id="76875DA8475300490CFABE5DAC3E0AEB" pageId="7" pageNumber="669">IV (1801–2225)</td></tr><tr id="355634D44753004908D2BE93AC3E0A83"><th box="[236,699,412,495]" id="76875DA84753004908D2BE93ABCB0A83" pageId="7" pageNumber="669">sample size (all mammals) prevalence <taxonomicName _evidence="catalogs" _step="genera" authorityName="Gruby" authorityYear="1843" box="[391,536,442,465]" class="Kinetoplastea" family="Trypanosomatidae" genus="Trypanosoma" id="4C664D154753FFB109B9BEB5AB680ABD" kingdom="Protozoa" order="Trypanosomatida" pageId="7" pageNumber="669" phylum="Euglenozoa" rank="genus"><emphasis box="[391,536,442,465]" id="B912EA844753FFB109B9BEB5AB680ABD" italics="true" pageId="7" pageNumber="669">Trypanosoma</emphasis></taxonomicName> (all mammals) prevalence Theileri clade (all mammals)</th><td box="[722,832,412,495]" id="76875DA8475300490AECBE93AA300A83" pageId="7" pageNumber="669">120 10.8% 3.3%</td><td box="[886,1010,412,495]" id="76875DA8475300490B48BE93AA820A83" pageId="7" pageNumber="669">97 23.7% 21.6%</td><td box="[1050,1188,412,495]" id="76875DA8475300490C24BE93ADD40A83" pageId="7" pageNumber="669">336 26.2% 24.1%</td><td box="[1220,1358,412,495]" id="76875DA8475300490CFABE93AC3E0A83" pageId="7" pageNumber="669">53 18.9% 18.9%</td></tr><tr id="355634D44753004908D2BD1EAC3E092B"><th box="[236,699,529,583]" id="76875DA84753004908D2BD1EABCB092B" pageId="7" pageNumber="669">sample size (<taxonomicName _evidence="catalogs" _step="family" authorityName="Illiger" authorityYear="1811" box="[373,467,529,553]" class="Mammalia" family="Muridae" id="4C664D154753FFB1094BBD1EA8A30945" kingdom="Animalia" order="Rodentia" pageId="7" pageNumber="669" phylum="Chordata" rank="family">Muridae</taxonomicName>) prevalence Lewisi clade (<taxonomicName _evidence="catalogs" _step="family" authorityName="Illiger" authorityYear="1811" box="[541,635,559,583]" class="Mammalia" family="Muridae" id="4C664D154753FFB10A23BD20AB0B092B" kingdom="Animalia" order="Rodentia" pageId="7" pageNumber="669" phylum="Chordata" rank="family">Muridae</taxonomicName>)</th><td box="[722,832,529,583]" id="76875DA8475300490AECBD1EAA30092B" pageId="7" pageNumber="669">63 9.5%</td><td box="[886,1010,529,583]" id="76875DA8475300490B48BD1EAA82092B" pageId="7" pageNumber="669">50 2.0%</td><td box="[1050,1188,529,583]" id="76875DA8475300490C24BD1EADD4092B" pageId="7" pageNumber="669">211 2.8%</td><td box="[1220,1358,529,583]" id="76875DA8475300490CFABD1EAC3E092B" pageId="7" pageNumber="669">17 0</td></tr><tr id="355634D44753004908D2BD66AC3E09F3"><th box="[236,699,617,671]" id="76875DA84753004908D2BD66ABCB09F3" pageId="7" pageNumber="669">sample size (<taxonomicName _evidence="catalogs" _step="order" box="[373,491,617,641]" class="Mammalia" id="4C664D154753FFB1094BBD66A89B09ED" kingdom="Animalia" order="Chiroptera" pageId="7" pageNumber="669" phylum="Chordata" rank="order">Chiroptera</taxonomicName>) prevalence Cruzi clade (<taxonomicName _evidence="catalogs" _step="order" box="[527,645,647,671]" class="Mammalia" id="4C664D154753FFB10A31BD88ABF509F3" kingdom="Animalia" order="Chiroptera" pageId="7" pageNumber="669" phylum="Chordata" rank="order">Chiroptera</taxonomicName>)</th><td box="[722,832,617,671]" id="76875DA8475300490AECBD66AA3009F3" pageId="7" pageNumber="669">46 6.5%</td><td box="[886,1010,617,671]" id="76875DA8475300490B48BD66AA8209F3" pageId="7" pageNumber="669">23 4.3%</td><td box="[1050,1188,617,671]" id="76875DA8475300490C24BD66ADD409F3" pageId="7" pageNumber="669">27 3.7%</td><td box="[1220,1358,617,671]" id="76875DA8475300490CFABD66AC3E09F3" pageId="7" pageNumber="669">0 na</td></tr></tbody></table></document>