Description

Abstract: The spatio-temporal patterns of spotted wilt disease in peanut, caused by thtips-vectored tomato spotted wiIt tospovirus (TSWV), were analyzed by several methods. The spatial distributions of symptomatic plants were mapped at 2-wk intervals during two consecutive years in fields of the susceptible peanut cultivar norunner and in the resistant cultivar Southern Runner. The disease frequency data were subjected to quadrat analyses, including indices of dispersion (variancdmean ratio and the negative binomial k parameter), comparison of frequency distributions of symptomatic plants to expected distributions derived from severaI models of spatial dispersion (binomial, Poisson, and negative binomial), and twodimensional distance ctass analysis at each sampling intervar. Although significant spatial aggregation of diseased plants was detected in most samples, random or nearly random clusters of infected plants that apparently arosc from a continuous immigration of viruliferous vectors dominated spatial aspects of epidemic progress. Aside from smaller incidence of disease in the resistant compared to the susceptible cultivar, no effect of cultivar was noted in relation to spatial or temporal patterns of disease development in this pathosystem. Spotted wiit remporal progress was well described by monomolecular models of disease progress in each cultivar and year. The data and analyses were consistent with the hypothesis that most infections arise as a result of primary transmission and that there is limited secondary spread of TSWV after ~t becomes established in the field,