Abstract
Phenotypic plasticity has recently been considered a powerful means of adaptation, but its relationships with corresponding life-history characters and plant specialization levels of insects have been controversial. To address the issues, Sitobion avenae clones from three plants in two areas were compared. Varying amounts of life-history trait plasticity were found among S. avenae clones on barley, oat and wheat. In most cases, developmental durations and their corresponding plasticities were found to be independent, and fecundities and their plasticities were correlated characters instead. The developmental time of first instar nymphs for oat and wheat clones, but not for barley clones, was found to be independent from its plasticity, showing environment-specific effects. All correlations between environments were found to be positive, which could contribute to low plasticity in S. avenae. Negative correlations between trait plasticities and fitness of test clones suggest that lower plasticity could have higher adaptive value. Correlations between plasticity and specialization indices were identified for all clones, suggesting that plasticity might evolve as a by-product of adaptation to certain environments. The divergence patterns of life-history plasticities in S. avenae, as well as the relationships among plasticity, specialization and fitness, could have significant implications for evolutionary ecology of this aphid.
Highlights
7 d-fecundity 0.324 b 0.293 b 0.294 b 0.502 a 0.184 c 0.161 c success in a wide variety of agricultural ecosystems can be at least partially attributed to their broad phenotypic plasticity in morphological, physiological, behavioral or other life-history characters
Significant differences in plasticity levels of test life-history traits were found among S. avenae clones, and between both areas (i.e., Qinghai and Shaanxi) as well (Table 1)
For S. avenae clones collected from the Qinghai area, barley clones showed higher plasticity in DT1 (F = 5.97; df = 2, 330; P < 0.01), but lower plasticity in DT2 (F = 3.80; df = 2, 330; P < 0.05), compared to wheat clones
Summary
7 d-fecundity 0.324 b 0.293 b 0.294 b 0.502 a 0.184 c 0.161 c success in a wide variety of agricultural ecosystems can be at least partially attributed to their broad phenotypic plasticity in morphological, physiological, behavioral or other life-history characters They are highly plastic in various characters, many aphid species are relatively specialized to certain plants[2,11]. This phenomenon seems to be in agreement with the specialization hypothesis where a relatively specialized genotype for a certain environment should have relatively high plasticity across a range of alternative environments, for life-history traits that are closely related to the genotype’s fitness[12] This hypothesis is in agreement with studies of Nylin[13] and West-Eberhard[14] where host plant specialization ( speciation) can be driven by phenotypic plasticity in host utilization. The aims of this study were to: (i) determine the amounts of phenotypic plasticity of S. avenae’s life-history traits on alternative host plants; (ii) explore the patterns of plasticity of different S. avenae clones on the three plants; (iii) examine the relationships among phenotypic plasticity, specialization and fitness of S. avenae
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