Abstract
The process of local adaptation creates diversity among allopatric populations, and may eventually lead to speciation. Plant-feeding insect populations that specialize on different host species provide an excellent opportunity to evaluate the causes of ecological specialization and the subsequent consequences for diversity. In this study, we used geographically separated Drosophila mettleri populations that specialize on different host cacti to examine oviposition preference for and larval performance on an array of natural and non-natural hosts (eight total). We found evidence of local adaptation in performance on saguaro cactus (Carnegiea gigantea) for populations that are typically associated with this host, and to chemically divergent prickly pear species (Opuntia spp.) in a genetically isolated population on Santa Catalina Island. Moreover, each population exhibited reduced performance on the alternative host. This finding is consistent with trade-offs associated with adaptation to these chemically divergent hosts, although we also discuss alternative explanations for this pattern. For oviposition preference, Santa Catalina Island flies were more likely to oviposit on some prickly pear species, but all populations readily laid eggs on saguaro. Experiments with non-natural hosts suggest that factors such as ecological opportunity may play a more important role than host plant chemistry in explaining the lack of natural associations with some hosts.
Highlights
Ecological specialization generates diversity within species, and may lead to speciation [1,2,3]
Local adaptation Analysis of performance data on saguaro and prickly pear revealed evidence of local adaptation for populations that primarily specialize on these hosts (i.e. Superstition and Guaymas for saguaro and Santa Catalina Island for prickly pear)
Earlier studies have suggested that D. mettleri detoxification enzymes might be highly substrate specific [24,25], which could explain for why tolerance is not necessarily general, even across these closely related species
Summary
Ecological specialization generates diversity within species, and may lead to speciation [1,2,3] This is likely when ecological divergence occurs among allopatric populations, as restricted gene flow creates favorable conditions for local adaptation and genetic differentiation. While many plant-breeding insect species are strict specialists, even polyphagous species often exhibit some degree of host specialization at the population level, as individuals in different locations may shift to novel hosts [8]. Such shifts may occur because newly encountered plants are chemically superior for adult feeding and larval development, because they represent a more predictable resource, or because favored hosts are not available. Regardless, host shifts should be accompanied by selection for increased preference for and performance on the new host, including physiological adaptations to host plant chemistry
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