Aphid

About: Aphid is a research topic. Over the lifetime, 11380 publications have been published within this topic receiving 229721 citations. The topic is also known as: Aphidoidea & plant lice.

Demographic Assessment of Plant Cultivar Resistance to Insect Pests: A Case Study of the Dusky-Veined Walnut Aphid (Hemiptera: Callaphididae) on Five Walnut Cultivars.

Abstract: To provide a comprehensive evaluation of walnut cultivar resistance to the dusky-veined walnut aphid, Panaphis juglandis (Goeze), we collected the life table data of this aphid reared on five cultivars of walnut ('Akca I,' 'Chandler,' 'Fernette,' 'Fernor,' and 'Pedro') under field conditions. The raw data of the developmental time, survival rate, and fecundity was analyzed using the age-stage, two-sex life table to account for the variable developmental rate and stage differentiation among individuals. Due to the species' longer immature developmental time, shorter adult longevity, shorter reproduction period, and lower fecundity, the net reproduction rate (R0=5.9 offspring), intrinsic rate of increase (r=0.0983 d(-1)), and finite rate (λ=1.1034 d(-1)) were the lowest when aphids were reared on the Fernor cultivar, while those reared on Akca I exhibited the highest population parameters (R0=18.0 offspring, r=0.2031 d(-1), and λ=1.2252 d(-1)). Based on the population characteristics, Fernor is a less favorable cultivar for the development and reproduction of P. juglandis. We also demonstrated the advantages of using bootstrapping for the analysis of standard errors of developmental time, longevity, fecundity, and other parameters as well. Our results indicated that demographic analysis of pest development, survival, and reproduction based on the age-stage, two-sex life table offers a comprehensive assessment of pest growth potential on different crop cultivars.

The life-cycle and host preferences of the bird cherry-oat aphid, Rhopalosiphum padi L., and their bearing on the theories of host alternation in aphids.

Abstract: SUMMARY Emigrants of the host-alternating bird cherry-oat aphid fly from the primary host to various grasses before the end of June, even in the absence of natural enemies on bird cherry. They fly before the leaves of bird cherry mature and at a time when numbers of insect predators are rapidly increasing. In the autumn gynoparae and males return to bird cherry whose senescing leaves again provide the aphids with a rich source of food. The growth efficiency of R. padi on bird cherry and oats indicates that the quality of the available food on the two hosts is markedly different. Apterous exules prefer oats to young bird cherry leaves and survive best on oats. Gynoparae prefer bird cherry leaves and only successfully produce offspring on the primary host. This, and other work published on R. padi, support the premise that a change in the aphid's preferences causes the change of host. The dual-discrimination theory of host alternation in aphids is examined in the light of this and other published work.

Aphid Protein Effectors Promote Aphid Colonization in a Plant Species-Specific Manner

Abstract: Microbial pathogens and pests produce effectors to modulate host processes. Aphids are phloem-feeding insects, which introduce effectors via saliva into plant cells. However, it is not known if aphid effectors have adapted to modulate processes in specific plant species. Myzus persicae is a polyphagous insect that colonizes Arabidopsis thaliana and Nicotiana benthamiana, while the pea aphid Acyrthosiphon pisum specializes on colonizing plant species of the family Fabaceae. We found that M. persicae reproduction increased on transgenic Arabidopsis, producing the M. persicae effectors C002, PIntO1 (Mp1), and PIntO2 (Mp2), whereas reproduction of M. persicae did not increase on Arabidopsis producing the A. pisum orthologs of these three proteins. Plant-mediated RNA interference experiments showed that c002- and PIntO2-silenced M. persicae produce less progeny on Arabidopsis and N. benthamiana than nonsilenced aphids. Orthologs of c002, PIntO1, and PIntO2 were identified in multiple aphid species with dissimilar plant host ranges. We revealed high nonsynonymous versus synonymous nucleotide substitution rates within the effector orthologs, indicating that the effectors are fast evolving. Application of maximum likelihood methods identified specific sites with high probabilities of being under positive selection in PIntO1, whereas those of C002 and PIntO2 may be located in alignment gaps. In support of the latter, a M. persicae c002 mutant without the NDNQGEE repeat region, which overlaps with an alignment gap in C002, does not promote M. persicae colonization on Arabidopsis. Taken together, these results provide evidence that aphid effectors are under positive selection to promote aphid colonization on specific plant species.