Publication no. P-2002-0311-01R

Virology

Tomato yellow leaf curl virus in the Dominican Republic: Characterization of an Infectious Clone, Virus Monitoring in Whiteflies, and Identification of Reservoir Hosts. Raquel Salati, Medhat K. Nahkla, Maria R. Rojas, Pablo Guzman, Jose Jaquez, Douglas P. Maxwell, and Robert L. Gilbertson. First, third, and seventh authors: Department of Plant Pathology, University of California, Davis 95616; second and sixth authors: Department of Plant Pathology, University of Wisconsin, Madison 53706; fourth author: California Crop Improvement Association, Parson Seed Certification Center, University of California, Davis 95616; and fifth author: Transagricola S.A., Santiago, Dominican Republic. Phytopathology 92:487-496. Accepted for publication 14 January 2002. Copyright 2002 The American Phytopathological Society.

Epidemics of tomato yellow leaf curl disease (TYLCD) in the Dominican Republic in the early to mid-1990s resulted in catastrophic losses to processing tomato production. As part of an integrated management approach to TYLCD, the complete nucleotide sequence of a full-length infectious clone of an isolate of Tomato yellow leaf curl virus (TYLCV) from the Dominican Republic (TYLCV-[DO]) was determined. The TYLCV-[DO] genome was nearly identical in sequence (>97%) and genome organization to TYLCV isolates from Israel and Cuba. This established that TYLCV-[DO] is a bonafide TYLCV isolate (rather than a recombinant virus, such as isolates from Israel [Mild], Portugal, Japan, and Iran), and provided further evidence for the introduction of the virus from the eastern Mediterranean. A reduction in the incidence of TYLCV in the northern and southern processing tomato production areas of the Dominican Republic has been associated with the implementation of a mandatory 3-month whitefly host-free period (including tomato, common bean, cucurbits, eggplant, and pepper). Monitoring TYLCV levels in whiteflies, by polymerase chain reaction with TYLCV-specific primers, established that the incidence of TYLCV decreased markedly during the host-free period, and then gradually increased during the tomato-growing season. In contrast, TYLCV persisted in whiteflies and tomato plants in an area in which the host-free period was not implemented. Surveys for TYLCV reservoir hosts, conducted to identify where TYLCV persists during the host-free period, revealed symptomless infections in a number of weed species. The implications of these findings for TYLCV management in the Dominican Republic are discussed. Additional keywords: begomovirus, Bemisia tabaci, whitefly-transmitted geminivirus.