225 lines
27 KiB
XML
225 lines
27 KiB
XML
<document id="839C535D8B0553F6ADF69A551784F8FD" ID-CLB-Dataset="298622" ID-DOI="10.21307/jofnem-2021-003" ID-GBIF-Dataset="dfe913d5-9507-4728-ac25-84bf5d43f65e" ID-ISSN="2640-396X" ID-Zenodo-Dep="11644581" IM.bibliography_approvedBy="juliana" IM.illustrations_approvedBy="juliana" IM.metadata_approvedBy="juliana" IM.tables_approvedBy="juliana" IM.taxonomicNames_approvedBy="juliana" IM.treatments_approvedBy="juliana" checkinTime="1718309086786" checkinUser="felipe" docAuthor="Mwangi, James M., Mwangi, Grace N., Finckh, Maria R. & Kiewnick, Sebastian" docDate="2021" docId="6A5087F9523E056DFC83FB1BFE3CFDDD" docLanguage="en" docName="JNematol.53.1.003.pdf" docOrigin="Journal of Nematology 53 (1)" docSource="http://dx.doi.org/10.21307/jofnem-2021-003" docStyle="DocumentStyle:DDD1F39569878942AA8312288C6178BF.1:JNematol.2018-.journal_article" docStyleId="DDD1F39569878942AA8312288C6178BF" docStyleName="JNematol.2018-.journal_article" docStyleVersion="1" docTitle="Globodera rostochiensis" docType="treatment" docVersion="4" lastPageNumber="5" masterDocId="9669FF81523C0569FFA4FFFBFFD2FFAC" masterDocTitle="Biology, pathotype, and virulence of Globodera rostochiensis populations from Kenya" masterLastPageNumber="13" masterPageNumber="1" pageNumber="3" updateTime="1718725906290" updateUser="ExternalLinkService" zenodo-license-document="CC-BY-4.0">
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<mods:titleInfo id="FA86047E9CCE97133D64992290C2575B">
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<mods:title id="35A8B8EC21331FC7D9843D23F13FBD77">Biology, pathotype, and virulence of Globodera rostochiensis populations from Kenya</mods:title>
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<mods:name id="00A5562DA61E4EBD15053A935B8229A6" type="personal">
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<mods:namePart id="8586ACD4EB8105DFE3BFB8411ABA86AF">Mwangi, James M.</mods:namePart>
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<mods:affiliation id="BE18A647E134089756EA28B72764B8DC">Chuka University, P. O. Box 109 - 60400, Chuka, Kenya.</mods:affiliation>
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<mods:nameIdentifier id="963C53E49B8C84C18947C6855EBAFDFF" type="email">jmmaina@chuka.ac.ke</mods:nameIdentifier>
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<mods:namePart id="9A26A7AAB24FDC01211DFBECD9451B83">Mwangi, Grace N.</mods:namePart>
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<mods:affiliation id="34A06C4C35B28F4D2FAC7406977C3E7D">International Master of Science in Agro- and Environmental Nematology, Nematology Research Unit, Faculty of Sciences, Ghent University, K. L. Ledeganckstraat 35, 9000, Ghent, Belgium.</mods:affiliation>
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<mods:namePart id="0F1D074199C81CE407488EBEF5395098">Finckh, Maria R.</mods:namePart>
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<mods:affiliation id="90DDC6448468603FF696827021BCA965">Kassel University, Nordbahnhofstr. 1 a, 37213, Witzenhausen, Germany.</mods:affiliation>
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<mods:namePart id="D4BCCC41156CEAA8B9EBDE4581C18921">Kiewnick, Sebastian</mods:namePart>
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<mods:affiliation id="4E4F836CDAFD294D4AB0F5CEDFF81DD5">Julius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Plant Protection in Field Crops and Grassland, Messeweg 11 / 12, 38104, Braunschweig, Germany.</mods:affiliation>
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<mods:title id="3E6DE5D86EC6F1D5EBB50B356C25EBFA">Journal of Nematology</mods:title>
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<mods:date id="ED8DCC990662571D804D9B95A3F332E1">2021</mods:date>
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<mods:number id="B03234B5AE2B083D0CFF4DA02D121FFB">2021-01-01</mods:number>
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<treatment id="6A5087F9523E056DFC83FB1BFE3CFDDD" ID-DOI="http://doi.org/10.5281/zenodo.12097395" ID-GBIF-Taxon="233221219" ID-Zenodo-Dep="12097395" LSID="urn:lsid:plazi:treatment:6A5087F9523E056DFC83FB1BFE3CFDDD" httpUri="http://treatment.plazi.org/id/6A5087F9523E056DFC83FB1BFE3CFDDD" lastPageId="4" lastPageNumber="5" pageId="2" pageNumber="3">
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<subSubSection id="AAE36564523E056BFC83FB1BFAC3FB52" box="[807,1297,1248,1278]" pageId="2" pageNumber="3" type="nomenclature">
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<paragraph id="E24636EF523E056BFC83FB1BFAC3FB52" blockId="2.[807,1297,1248,1278]" box="[807,1297,1248,1278]" pageId="2" pageNumber="3">
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<heading id="B90E8183523E056BFC83FB1BFAC3FB52" box="[807,1297,1248,1278]" fontSize="12" level="2" pageId="2" pageNumber="3" reason="2">
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<emphasis id="D08DEAFD523E056BFC83FB1BFAC3FB52" bold="true" box="[807,1297,1248,1278]" pageId="2" pageNumber="3">
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Study of
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<taxonomicName id="25F94D6C523E056BFC08FB1BFB49FB52" ID-CoL="8FTB3" authority="(Woll.)" baseAuthorityName="Woll." box="[940,1179,1248,1278]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="2" pageNumber="3" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523E056BFC08FB1BFB49FB52" bold="true" box="[940,1179,1248,1278]" italics="true" pageId="2" pageNumber="3">G. rostochiensis</emphasis>
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</taxonomicName>
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biology
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</emphasis>
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<paragraph id="E24636EF523E056BFC83FAE1FCACF8BF" blockId="2.[807,1423,1306,1907]" pageId="2" pageNumber="3">
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The development of the
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<taxonomicName id="25F94D6C523E056BFBE8FAE1FAD8FA9F" box="[1100,1290,1306,1331]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="2" pageNumber="3" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523E056BFBE8FAE1FAD8FA9F" box="[1100,1290,1306,1331]" italics="true" pageId="2" pageNumber="3">G. rostochiensis</emphasis>
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</taxonomicName>
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population ‘HAR1’ from
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<collectingCountry id="9AEE767F523E056BFC6BFAC1FBC4FAFF" box="[975,1046,1338,1363]" name="Kenya" pageId="2" pageNumber="3">Kenya</collectingCountry>
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in the roots of the resistant potato ‘Laura’ and susceptible potato ‘Désirée’ was assessed in the glasshouse experiments and compared with the reference
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<taxonomicName id="25F94D6C523E056BFB65FA61FA5CFA1F" box="[1217,1422,1434,1459]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="2" pageNumber="3" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523E056BFB65FA61FA5CFA1F" box="[1217,1422,1434,1459]" italics="true" pageId="2" pageNumber="3">G. rostochiensis</emphasis>
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</taxonomicName>
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population ‘Ecosse’. Eye-plugs were scooped from the pre-germinated tubers of the two cultivars and planted in 192ml pots. For each of the cultivarpopulation combinations, 50 potatoes were planted and immediately inoculated with 10 cysts per pot. In the first experiment ‘Ecosse’ cysts were sieved using 500µm sieve prior to inoculation. However, due to lack of enough inoculum for ‘HAR1’ the cysts used varied in size. In the second experiment, only cysts larger than 500µm were used for both, ‘Ecosse’ and ‘HAR1’.
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</paragraph>
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The cysts were packed in small retrievable bags made up of a nylon mesh and placed next to the eye-plug. Pots were randomized in the support boxes (
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<bibRefCitation id="86684B1E523F056AFEA0FF43FDC3FF7D" author="Mwangi, J. M. & Niere, B. & Daub, M. & Finckh, M. R. & Kiewnick, S." box="[260,529,184,209]" pageId="3" pageNumber="4" pagination="613 - 23" refId="ref11435" refString="Mwangi, J. M., Niere, B., Daub, M., Finckh, M. R. and Kiewnick, S. 2019 a. Reproduction of GlOBOdeRa Pallida on tissue culture-derived potato plants and their potential use in resistance screening process. Nematology 21: 613 - 23." type="journal article" year="2019">Mwangi et al., 2019a</bibRefCitation>
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) and transferred to the glasshouse benches. Plants were watered as required throughout the duration of the experiment.
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</paragraph>
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<paragraph id="E24636EF523F056AFF68FEE3FF25FC1D" blockId="3.[166,782,184,945]" pageId="3" pageNumber="4">
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To assess the development of the nematodes in the roots, four pots per treatment were randomly selected at 14, 18, 23, 28, 35, 42, 49, 56, 63, and 70 days after planting. Soil adhering to the roots was collected into centrifugation tubes and second stage juveniles (J2s), males and females extracted using the centrifugation flotation method (
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<bibRefCitation id="86684B1E523F056AFD84FE23FD61FE5D" author="EPPO" box="[544,691,472,497]" pageId="3" pageNumber="4" pagination="471 - 95" refId="ref9960" refString="EPPO. 2013. Nematode extraction. EPPO Bulletin 43: 471 - 95." type="journal article" year="2013">EPPO, 2013</bibRefCitation>
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). Roots were then washed and stained in acid fuchsin (
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<bibRefCitation id="86684B1E523F056AFD72FE03FEF9FD9D" author="Byrd, D. W. & Kirkpatrick, T. & Barker, K. R." pageId="3" pageNumber="4" pagination="142 - 3" refId="ref9479" refString="Byrd, D. W., Kirkpatrick, T. and Barker, K. R. 1983. An improved technique for clearing and staining plant tissues for detection of nematodes. Journal of Nematology 15: 142 - 3." type="journal article" year="1983">Byrd et al., 1983</bibRefCitation>
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). The stained roots were cut into approx.
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long sections and macerated in water using an ULTRATURRAX
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homogenizer (
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rpm for approx. 30sec. By this, nematodes at different developmental stages were freed from the root tissues into the water to form a suspension. The developmental stages of the nematodes were counted from the entire suspension using a 15ml counting dish under a Nikon
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SMZ1270 stereo microscope. In total, 12 weeks after planting, the experiment was stopped and the final dry cysts extracted from four pots per treatment as described above.
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</paragraph>
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<paragraph id="E24636EF523F056AFF02FC1CFD62FB87" blockId="3.[166,773,999,1067]" pageId="3" pageNumber="4">
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<emphasis id="D08DEAFD523F056AFF02FC1CFD62FB87" bold="true" pageId="3" pageNumber="4">
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Investigating the presence of diapause in
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<collectingCountry id="9AEE767F523F056AFF02FBF6FED0FB87" box="[166,258,1037,1067]" name="Kenya" pageId="3" pageNumber="4">Kenya</collectingCountry>
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<taxonomicName id="25F94D6C523F056AFEAEFBF6FE2BFB87" box="[266,505,1037,1067]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523F056AFEAEFBF6FE2BFB87" bold="true" box="[266,505,1037,1067]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
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</taxonomicName>
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populations
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</emphasis>
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</paragraph>
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<paragraph id="E24636EF523F056AFF02FBBCFE2AF94C" blockId="3.[166,783,1095,1920]" pageId="3" pageNumber="4">
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The presence of diapause in the six Kenyan
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<taxonomicName id="25F94D6C523F056AFF02FB9CFEB7FB2C" box="[166,357,1127,1152]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523F056AFF02FB9CFEB7FB2C" box="[166,357,1127,1152]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
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</taxonomicName>
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populations was investigated using two methods. First, the populations were reproduced twice on the susceptible potato ‘Désirée’. After the first reproduction the cysts were stored to break the diapause as described above. The freshly developed cysts from the second reproduction cycle were used in this experiment without storage to break the diapause. In total, 10 fresh cysts (1st generation cysts), for each of the six populations, were packed in small retrievable nylon bags described above with five replications per treatment and buried in the pot next to the tuber of the susceptible cultivar ‘Désirée’. Pots were filled with soil, randomized in the glasshouse, and watered as required. After 12 weeks, the experiment was terminated and cysts extracted and enumerated as described above. The newly extracted cysts were then immediately used for the next inoculation cycle as described above. The experiment was repeated until four generations were completed without diapause.
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</paragraph>
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<paragraph id="E24636EF523F056AFF68F91CFA8FFD9D" blockId="3.[166,783,1095,1920]" lastBlockId="3.[822,1437,184,561]" pageId="3" pageNumber="4">
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In a second experiment, the
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<taxonomicName id="25F94D6C523F056AFDECF91CFCDFF8AC" box="[584,781,1767,1792]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523F056AFDECF91CFCDFF8AC" box="[584,781,1767,1792]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
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</taxonomicName>
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population ‘HAR1’ was used to test the ability of the newly formed cysts to hatch without diapause. Hatching tests were done in potato root diffusate (PRD) and tap water was used as the control. The PRD was obtained as described by
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<bibRefCitation id="86684B1E523F056AFAB6FF43FBC3FF5D" author="Rawsthorne, D. & Brodie, B. B." pageId="3" pageNumber="4" pagination="379 - 84" refId="ref11651" refString="Rawsthorne, D. and Brodie, B. B. 1986. Relationship between root growth of potato, root diffusate production, and hatching of GlOBOdeRa ROSTOChienSiS. Nematology 18: 379 - 84." type="journal article" year="1986">Rawsthorne and Brodie (1986)</bibRefCitation>
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. In total, 20 newly formed cysts (1st generation cysts) were placed in hatching tubes (
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<bibRefCitation id="86684B1E523F056AFC2FFEE3FB5CFE9D" author="Mwangi, J. M. & Niere, B. & Finckh, M. R. & Krussel, S. & Kiewnick, S." box="[907,1166,280,305]" pageId="3" pageNumber="4" pagination="1 - 13" refId="ref11491" refString="Mwangi, J. M., Niere, B., Finckh, M. R., Krussel, S. and Kiewnick, S. 2019 b. Reproduction and life history traits of a resistance breaking GlOBOdeRa Pallida population. Journal of Nematology 51: 1 - 13." type="journal article" year="2019">Mwangi et al., 2019b</bibRefCitation>
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) with four replications per treatment and hatching media (PRD or water) added. The experiment was left in the dark at room temperature for 10 weeks. Hatched juveniles were counted and hatching solution replaced once per week. At the end of the experiment, the cysts were crushed to determine the number of the unhatched eggs. The hatching tests were repeated using the 2nd and 3rd generation cysts without diapause.
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</paragraph>
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<paragraph id="E24636EF523F056AFC92FDA6FC0CFD0E" blockId="3.[822,1429,605,674]" pageId="3" pageNumber="4">
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<emphasis id="D08DEAFD523F056AFC92FDA6FC0CFD0E" bold="true" pageId="3" pageNumber="4">
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Testing the pathotype of
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<taxonomicName id="25F94D6C523F056AFB02FDA6FA47FDD7" box="[1190,1429,605,635]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
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<emphasis id="D08DEAFD523F056AFB02FDA6FA47FDD7" bold="true" box="[1190,1429,605,635]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
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</taxonomicName>
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from
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<collectingCountry id="9AEE767F523F056AFC27FD7FFC0CFD0E" box="[899,990,644,674]" name="Kenya" pageId="3" pageNumber="4">Kenya</collectingCountry>
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</emphasis>
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</paragraph>
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<paragraph id="E24636EF523F056AFC92FD45FB2BFBDB" blockId="3.[822,1438,702,1143]" pageId="3" pageNumber="4">
|
||
Due to limited availability of planting material from differential potato clones, only the pathotype of ‘HAR1’
|
||
<taxonomicName id="25F94D6C523F056AFC2BFD05FB9EFCBB" box="[911,1100,766,791]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFC2BFD05FB9EFCBB" box="[911,1100,766,791]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
population was tested twice in glasshouse experiments on six differential clones (
|
||
<bibRefCitation id="86684B1E523F056AFC98FCC5FBC7FCFB" author="Kort, J. & Rumpenhorst, H. J. & Stone, A. R." box="[828,1045,830,855]" pageId="3" pageNumber="4" pagination="333 - 9" refId="ref10689" refString="Kort, J., Rumpenhorst, H. J. and Stone, A. R. 1977. An international scheme for identification and classifying pathotypes of potato cyst nematodes GlOBOdeRa ROSTOChienSiS and G. Pallida. Nematologica 23: 333 - 9." type="journal article" year="1977">Kort et al., 1977</bibRefCitation>
|
||
). Pre-germinated tubers of the differential potato clones were planted into 1L pots with five replications each. In total, 14 days after planting, each pot was inoculated with 5,000 eggs and juveniles of
|
||
<taxonomicName id="25F94D6C523F056AFC50FC45FB62FC7B" authority="HAR" authorityName="HAR" box="[1012,1200,958,983]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFC50FC45FB62FC7B" box="[1012,1200,958,983]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
‘HAR1’ to achieve a Pi of
|
||
<specimenCount id="F4FFFD66523F056AFCD2FC25FC0DFC5B" box="[886,991,990,1015]" count="5" pageId="3" pageNumber="4" type="egg">five eggs</specimenCount>
|
||
and J2 per ml soil. As control, plants were inoculated with the Ro1 reference population
|
||
<taxonomicName id="25F94D6C523F056AFC92FBE5FC27FB9B" box="[822,1013,1054,1079]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFC92FBE5FC27FB9B" box="[822,1013,1054,1079]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
‘Ecosse’. The pots were left in the glasshouse for 12 weeks and the reproduction factor assessed at the end of the experiment.
|
||
</paragraph>
|
||
<paragraph id="E24636EF523F056AFC92FB5CFC0CFB47" blockId="3.[822,1431,1191,1259]" pageId="3" pageNumber="4">
|
||
<emphasis id="D08DEAFD523F056AFC92FB5CFC0CFB47" bold="true" pageId="3" pageNumber="4">
|
||
Virulence assessment of
|
||
<taxonomicName id="25F94D6C523F056AFB0CFB5CFA45FB69" box="[1192,1431,1191,1221]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFB0CFB5CFA45FB69" bold="true" box="[1192,1431,1191,1221]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
from
|
||
<collectingCountry id="9AEE767F523F056AFC27FB36FC0CFB47" box="[899,990,1229,1259]" name="Kenya" pageId="3" pageNumber="4">Kenya</collectingCountry>
|
||
</emphasis>
|
||
</paragraph>
|
||
<paragraph id="E24636EF523F056AFC92FAFCFB6DF82C" blockId="3.[822,1437,1287,1920]" pageId="3" pageNumber="4">
|
||
Two different experiments were done to assess the virulence of Kenyan
|
||
<taxonomicName id="25F94D6C523F056AFB9EFADCFB2CFAEC" box="[1082,1278,1319,1344]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFB9EFADCFB2CFAEC" box="[1082,1278,1319,1344]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
populations. In the first experiment, the virulence of three
|
||
<taxonomicName id="25F94D6C523F056AFC92FA9CFC29FA2C" box="[822,1019,1383,1408]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFC92FA9CFC29FA2C" box="[822,1019,1383,1408]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
populations (‘HAR2’, ‘KIN1’, and ‘TGN’) from
|
||
<collectingCountry id="9AEE767F523F056AFC65FA7CFBDAFA0C" box="[961,1032,1415,1440]" name="Kenya" pageId="3" pageNumber="4">Kenya</collectingCountry>
|
||
and the European
|
||
<taxonomicName id="25F94D6C523F056AFB46FA7CFA4EFA0C" box="[1250,1436,1415,1440]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="3" pageNumber="4" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD523F056AFB46FA7CFA4EFA0C" box="[1250,1436,1415,1440]" italics="true" pageId="3" pageNumber="4">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
population ‘Ecosse’ was assessed on six in vitro derived potato cultivars. At planting, the TC plants used in the study were approx. three weeks old and
|
||
<quantity id="25019B0A523F056AFCD1F9FCFC11F98C" box="[885,963,1543,1568]" metricMagnitude="-2" metricUnit="m" metricValue="3.0" pageId="3" pageNumber="4" unit="mm" value="30.0">30mm</quantity>
|
||
tall. Plantlets of ‘Désirée’, ‘Amanda’, ‘Performer’, ‘Caruso’ and ‘Connect’, and ‘Rossini’ were removed from the growing media and the roots washed in running water followed by planting into 192ml pots with 10 replications each. The pots were randomized in support boxes and placed on the glasshouse bench. Due to the lack of TC plants, ‘Laura’ was tested using eye-plugs in 192ml pots. In total, 14 days after planting, each plant was inoculated with 1,000 eggs and J2s of each of the four nematode populations to achieve an estimated Pi of
|
||
<specimenCount id="F4FFFD66523F056AFCD4F89CFC05F82C" box="[880,983,1895,1920]" count="5" pageId="3" pageNumber="4" type="egg">five eggs</specimenCount>
|
||
and J2s per ml soil.
|
||
</paragraph>
|
||
<paragraph id="E24636EF5238056DFF19FF43FE3CFDDD" blockId="4.[151,768,184,625]" pageId="4" pageNumber="5">
|
||
In the second experiment, the virulence of the ‘HAR1’
|
||
<taxonomicName id="25F94D6C5238056DFF56FF23FE62FF5D" box="[242,432,216,241]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="4" pageNumber="5" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD5238056DFF56FF23FE62FF5D" box="[242,432,216,241]" italics="true" pageId="4" pageNumber="5">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
population from
|
||
<collectingCountry id="9AEE767F5238056DFDD9FF23FD16FF5D" box="[637,708,216,241]" name="Kenya" pageId="4" pageNumber="5">Kenya</collectingCountry>
|
||
was tested on seven tuber derived potato cultivars. The reference
|
||
<taxonomicName id="25F94D6C5238056DFEABFEE3FE1DFE9D" box="[271,463,280,305]" class="Chromadorea" family="Heteroderidae" genus="Globodera" kingdom="Animalia" order="Rhabditida" pageId="4" pageNumber="5" phylum="Nematoda" rank="species" species="rostochiensis">
|
||
<emphasis id="D08DEAFD5238056DFEABFEE3FE1DFE9D" box="[271,463,280,305]" italics="true" pageId="4" pageNumber="5">G. rostochiensis</emphasis>
|
||
</taxonomicName>
|
||
population ‘Ecosse’ was also used for comparison. Tubers of the ‘Désirée’, ‘Albatros’, ‘Seresta’, ‘Papageno’ ‘Belana’, ‘Ribera’, and ‘Amado’ were planted into 1l pots with five replications. In total, 14 days after planting, each pot was inoculated with 5,000 eggs and juveniles to achieve a Pi of
|
||
<specimenCount id="F4FFFD665238056DFED7FE23FE0EFE5D" box="[371,476,472,497]" count="5" pageId="4" pageNumber="5" type="egg">five eggs</specimenCount>
|
||
and J2 per ml soil. The experiment was terminated 84 days after inoculation (
|
||
<collectionCode id="84E8AE2A5238056DFF3BFDE3FF1AFD9D" box="[159,200,536,561]" pageId="4" pageNumber="5">DAI</collectionCode>
|
||
) and the cysts extracted. Cysts were then enumerated and crushed to estimate the final nematode population density.
|
||
</paragraph>
|
||
</subSubSection>
|
||
</treatment>
|
||
</document> |