Abstract
This study compares the effects of temperature (constant at 15, 20, 25, 30 and 35 °C) on adult longevity, oviposition, and nymph development of the brown planthopper, Nilaparvata lugens, on susceptible and resistant rice varieties. The resistant variety contained the BPH32 gene. In our experiments, nymphs failed to develop to adults at 15, 20 and 35 °C on either variety. Host resistance had its greatest effect in reducing adult survival at 20–25 °C and its greatest effect in reducing nymph weight gain at 25 °C. This corresponded with optimal temperatures for adult survival (20–25 °C) and nymph development (25–30 °C). At 25 and 30 °C, adult females achieved up to three oviposition cycles on the susceptible variety, but only one cycle on the resistant variety. Maximum egg-laying occurred at 30 °C due to larger numbers of egg batches produced during the first oviposition cycle on both the susceptible and resistant varieties, and larger batches during the second and third oviposition cycles on the susceptible variety; however, resistance had its greatest effect in reducing fecundity at 25 °C. This revealed a mismatch between the optimal temperatures for resistance and for egg production in immigrating females. Increasing global temperatures could reduce the effectiveness of anti-herbivore resistance in rice and other crops where such mismatches occur.
Highlights
This study compares the effects of temperature on adult longevity, oviposition, and nymph development of the brown planthopper, Nilaparvata lugens, on susceptible and resistant rice varieties
Researchers have documented a northward shift in distribution of the green shield bug, Nezara viridula, in Japan that may be related to warmer winter temperatures[12]
Such virulence-adapted planthoppers often possess relatively high densities of yeast-like symbionts (YLS) compared to non-virulent planthoppers feeding on susceptible varieties, which may compensate for the effects of anti-feedants[21,23]
Summary
This study compares the effects of temperature (constant at 15, 20, 25, 30 and 35 °C) on adult longevity, oviposition, and nymph development of the brown planthopper, Nilaparvata lugens, on susceptible and resistant rice varieties. Studies that have examined temperature effects on rice resistance to planthoppers (including the whitebacked planthopper, Sogatella furcifera) have mainly applied only standard screening protocols[34,38,39,40] that confound resistance and tolerance, or have focused on varieties with genes that are currently ineffective throughout A sia[33,34]. It is still largely unknown how planthopper fitness and population parameters will be differentially affected by the combined and separate effects of host resistance and elevated temperatures as the global climate continues to warm. Factorial experiments that include at least two levels of host plant resistance across gradients of temperature are required to better elucidate such potential effects
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