Tomato yellow leaf curl virus (TYLCV) is one of the most notorious plant pathogens affecting the production of tomato worldwide. While the occurrence of age-related resistance (ARR) against TYLCV has been reported, the factors impacting its development remain unknown. We conducted a series of experiments with three tomato cultivars that vary in basal resistance to TYLCV to explore factors involved in the development of ARR. Our data indicate that ARR is more pronounced in tomato cultivars with higher basal resistance. Additionally, increased plant biomass in older plants does not contribute to ARR. Virus source plants with a younger age at initial inoculation facilitates virus acquisition by whiteflies. Finally, an analysis on plant hormones suggests that salicylic acid (SA) may play a major role in the development of ARR in tomato against TYLCV. These findings provide new insights into the developmental resistance in tomato against TYLCV as well as clues for the deployment of ARR in the management of diseases caused by TYLCV.
AimsThe objectives are to compare the merits and demerits of rectangular hyperbola, nonrectangular hyperbola and the electron transport rate light-response Ye model, to investigate the difference of electron transport rate between the shaded and sunlit leaves, and to discuss the influence of bioenvironmental factors on the characteristic parameters of electron transport rate.
MethodsThe light-response (J-I) curves of electron transport rate were measured by the LI-6400XT fluorescence measurement system in Quercus variabilis and Robinia pseudoacacia plantations in north China. The rectangular hyperbola, nonrectangular hyperbola and the Ye model were used to simulate electron transport rate of the light-response curves.
Important findingsThe results showed that the determination coefficient of the J-I curves fitted by three models were more than 0.96. Compared with the rectangular hyperbola and nonrectangular hyperbola, the determination coefficient of the Ye model was the highest (>0.99). The dynamic downregulation of photosystem II and the saturated light intensity (I sat ) cannot be simulated and obtained by the rectangular hyperbola model and the nonrectangular hyperbola model. The maximum electron transport rate (J max ) obtained by the rectangular hyperbola model was obviously higher than the measured one. The dynamic downregulation of photosystem II was well simulated by the Ye model. The J max and I sat values obtained by the Ye model were close to the measured ones.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.