Emergence and epidemiology of Cucurbit yellow stunting disorder virus in the American Desert Southwest, and development of host plant resistance in melon

•CYSDV established rapidly in the southwestern US desert melon production region.•New host plants from nine families were identified from regional crop and weed plants.•Epidemiologically important reservoir hosts differentiated from less important host plants.•Identification and introgression of new...

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Bibliographic Details
Published in:Virus research 2017-09, Vol.241, p.213-219
Main Authors: Wintermantel, William M., Gilbertson, Robert L., Natwick, Eric T., McCreight, James D.
Format: Article
Language:English
Subjects:
Host plant resistance
Host range
Symptoms
Virus emergence
Whitefly
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Summary:•CYSDV established rapidly in the southwestern US desert melon production region.•New host plants from nine families were identified from regional crop and weed plants.•Epidemiologically important reservoir hosts differentiated from less important host plants.•Identification and introgression of new resistance sources into cantaloupe and honeydew. Cucurbit yellow stunting disorder virus (CYSDV), emerged in the Sonoran Desert region of the southwestern USA in 2006 and has become well established. Symptoms induced by CYSDV infection include a striking interveinal chlorosis or yellowing and reduced yield and quality. The virus is transmitted by Bemisia tabaci, and the cryptic species MEAM1 has been present in the region since the early 1990s. CYSDV has now become the most economically important of the viruses affecting cucurbit production in the southwestern US. Here, we present a review of recent studies on CYSDV in the southwestern US, with implications for management of this virus throughout the world. Field surveys have established that CYSDV results in late-season infection of spring melon crops with limited economic impact; however, all summer and fall cucurbits become infected shortly after emergence due to high B. tabaci populations and abundant sources of inoculum. Studies have also demonstrated that CYSDV has an extensive host range among crops and weeds prevalent in the region. Recent studies demonstrated considerable variation in virus accumulation and transmission rates among the host plants evaluated as potential reservoirs. Cucurbit hosts had the highest CYSDV titers, were efficient sources for virus acquisition, and showed a positive correlation between titer in source plants and transmission to cucurbit plants. Non-cucurbit hosts had significantly lower CYSDV titers and varied in their capacity to serve as sources for transmission. Experiments demonstrated that multiple factors influence the efficiency with which a host plant species will be a reservoir for vector transmission of CYSDV to crops. Melon PI 313970 was identified as a new source of host plant resistance to CYSDV, in addition to the previously identified TGR 1551 (=PI 482420) and TGR 1937 (=PI 482431). Potential new sources of CYSDV resistance were identified by field screening of ca. 500 melon accessions with naturally occurring inoculum from 2007 through 2012. Host plant resistance to B. tabaci has also been identified in melon germplasm resistant to CYSDV and could be an import
ISSN:0168-1702
1872-7492
DOI:10.1016/j.virusres.2017.06.004