BEGIN:VCALENDAR VERSION:2.0 PRODID:-//CucCAP - ECPv4.2.5//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-WR-CALNAME:CucCAP X-ORIGINAL-URL:https://cuccap.org X-WR-CALDESC:Events for CucCAP BEGIN:VEVENT DTSTART;VALUE=DATE:20221030 DTEND;VALUE=DATE:20221102 DTSTAMP:20240328T105313 CREATED:20200605 LAST-MODIFIED:20240105 UID:9115-1667088000-1667433599@cuccap.org SUMMARY:CUCURBITACEAE 2022 DESCRIPTION:\nHosts\n\n \tDr. Geoffrey Meru University of Florida\, Assistant Professor — Vegetable Breeding\, Genetics and Genomics\n \tDr. Cecelia McGregor\, University of Georgia\, Associate Professor — Cucurbit Breeding\, Genetics and Genomics\n\nResearch Presentations\nMembers of the CucCAP team are authors on 33 presentations in the Cucurbitaceae 2022 Abstract Book.\n\n \tQTL Mapping of Young Fruit Resistance to Phytophthora capsici in Cucumber.\nby Lin Y.C.\, Grumet R.\n \tIsolation and Characterization of Lipid Droplets in Cucumber Fruit.\nby Rett-Cadman S\, Hammar S\, and Grumet R.\n \tDowny mildew disease management of cucumber and squash in North Carolina.\nby Rosado-Rivera Y. I.\, Adams M. L.\, D’Arcangelo K. N. and Quesada-Ocampo L. M.\n \tThe Gy14v2.0 pickling cucumber genome.\nby Weng\, Y.\n \tThe US processing cucumber genome assembly Gy14v2.0.\nby Weng Y\, Xu XW\, Dymerski R\, Wang YH\, Copetti D\, Luo MC\, Fei ZJ\, Sun HH\, Qu SJ\, Jiang N\, Bostan H\, Iorizzo M.\n \t Identification and characterization of genetic resistance in cucumber and watermelon to Cucumber green mottle mosaic virus.\nby Zia\, B.\, Yiqun Weng\, Y.\, Chen\, F.\, Levi\, A.\, Matthew A. Cutulle\, M.A.\, and Ling\, K.-S.\n \tAdvancement of CYSDV-resistant melon lines using marker-assisted selection.\nby Mondal\, S.\, Ando\, K.\, Tamang\, P.\, Fashing\, P.\, Chen\, C.\, Wintermantel\, W.M.\, and McCreight\, J.D.\n \tAdvancement of CYSDV-resistant melon using marker-assisted selection.\nby Alzohairy\, S.A.\, Moore\, B.M.\, Hammerschmidt\, R.\, Shiu\, S.\, and Hausbeck\, M.K.\n \tLignin biosynthesis gene expression is associated with age-related resistance of winter squash to Phytophthora capsici.\nby Shaonpius Mondal\, K. Ando\, P. Tamang\, P. Fashing\, W.M. Wintermantel\, and J.D. McCreight.\n \tBiofungicides for organic management of powdery mildew in winter squash. Poster.\nby Indermaur\, E. J.\, Day\, C. T. C.\, and Smart\, C. D.\n\n \tScreening for powdery mildew resistance in Cucurbita moschata in Lajas\, Puerto Rico. Proceedings\nby Landrón A\, Linares AM. \n \tGenome wide association study of C. pepo evaluated for whiteflies and their transmitted viruses.\nby Luckew\, A.\, Bag\, S.\, Srinivasan\, R.\, Dutta\, B.\, Da Silva\, A.L.B.R.\, Meru\, G.\, and C.E. McGregor. \n \tRNA‐SEQ reveals potential defense mechanisms against Phytophthora capsici in squash.\nby Meru\, G.\, Michael\, N.\, Acharya\, S.\, Fu\, Y.\, Shrestha\, S. and Sabharwal\, P. \n \tCommercial hard squash cultivars exhibit differences in resistance to Phytophthora fruit and crown rot.\nby Perla\, D.E\, Hayden\, Z.D.\, and Hausbeck\, M. K.\n \tXP-GWAS and marker development for resistance to powdery mildew race 2W in watermelon (Citrullus lanatus).\nby Branham\, S.E.\, Ganaparthi V\, Kousik S\, Wechter WP\, Park YH\, Wehner T\, Davis A\, Tetteh A\, Hammar S\, Grumet R\, Levi A. 2022.\n\n \tA super-pangenome of cultivated and wild watermelon species.\nby Fei\, Z.\n \tMapping and Validation of QTLs Imparting Fon Race 2 Resistance in Watermelon.\nby Ganaparthi\, V.\, Branham S.\, Levi\, A.\, Robinson\, S.\, Katawczik\, M.\, Wechter\, P. \n \tIdentifying and Confirming Resistance to Whitefly-Transmitted Cucurbit Leaf Crumple Virus in Watermelon Using Infectious Clones. Keynote talk.\nby Kousik\, C.S.\, Chanda\, B.\, Mandal\, M.\, Ikerd\, J.\, Sudarshana\, M.\, Turechek\, W.W.\, Adkin\, S. \n \tIncidence and yield response of seedless watermelon cultivars affected with Fusarium wilt.\nby Michel S.\, Schultheis J.\, Keinath A.\, and Quesada-Ocampo L. M.\n\n \tWhole-Genome Scanning Using QTL-Seq and GWAS for Gummy StemBlight Resistance in Watermelon.\nby Natarajan P\, Nimmakayala P\, Abburi V\, Lopez-Ortiz C\, Levi A\, Wehner T\, Reddy UK.\n \tWhole-genome scanning using QTL-Seq and GWAS for gummy stem blight resistance in watermelon.\nby Purushothaman Natarajan\, Padma Nimmakayala\, Carlos Lopez-Ortiz\, Akilan Rathnagiri\, Luis A. Rivera-Burgos\, Nebahat Sari\, Todd C. Wehner\, Amnon Levi\, Yan Tomason\, Umesh K. Reddy. \n \tMarker-Assisted Breeding for Gummy Stem Blight Resistance in Watermelon.\nby Rijal\, S. And C.E. McGregor.\n\n \tA new working group to address emerging viruses in cucurbits.\nby Melanson\, R.A. and Wintermantel\, W.M.\n\n \tMethods for detection and quantification of four whitefly-transmitted viruses of cucurbit crops during mixed infections.\nby Mondal\, S.\, Jenkins Hladky\, L.\, and Wintermantel\, W.M.\n\n \tPhytophthora capsici populations structure by host\, geography\, and fluopicolide sensitivity.\nby Parada-Rojas C. H. and Quesada-Ocampo L. M. \n \tMonitoring populations and fungicide resistance in Pseudoperonospora cubensis using biosurveillance and molecular markers.\nby Prieto-Torres\, M. and Quesada-Ocampo L. M. \n \tDowny mildew disease management of cucumber and squash in North Carolina.\nby Rosado-Rivera Y. I.\, Adams M. L.\, D’Arcangelo K. N. and Quesada-Ocampo L. M. \n \tSeasonal prevalence and spread of whitefly-transmitted viruses in western United states melon production regions.\nby Wintermantel\, W.M. and Mondal\, S. \n URL:https://cuccap.org/event/cucurbitaceae-2022/ LOCATION:475 Seagate Drive\, Naples\, FL\, 34103\, United States CATEGORIES:Scientific Conference END:VEVENT END:VCALENDAR