On the role of niche specialization in the geographic distribution of aphid asexual lineages: a case study using the leaf‐curl plum aphid superclones

Godefroid, Martin; Meynard, Christine N.; Clamens, Anne‐Laure; Popkin, Megan; Jousselin, Emmanuelle

doi:10.1111/oik.10481

Oikos

2024

DOI: 10.1111/oik.10481

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On the role of niche specialization in the geographic distribution of aphid asexual lineages: a case study using the leaf‐curl plum aphid superclones

Martin Godefroid,

Christine N. Meynard,

Anne‐Laure Clamens

et al.

Abstract: Asexual lineages often exhibit broad distributions and can thrive in extreme habitats compared to their sexual counterparts. Several hypotheses can be proposed to explain this pattern. Asexual lineages could be versatile genotypes with wide environmental tolerance, enabling their dispersal and persistence across large geographic areas. Alternatively, asexual genotypes could be ecological specialists that thrive in specific environments and outcompete relative colonizing distantly related with similar condition… Show more

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Cited by 1 publication

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Spread of a single superclone drives insecticide resistance inAcyrthosiphon kondoiacross an invasive range

Thia,

Hunt,

Wang

et al. 2024

Preprint

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Populations under similar selection pressures may adapt via parallel evolution or dispersal of advantageous alleles. Here, we investigated insecticide resistance in the invasive blue-green aphid, Acyrthosiphon kondoi, which reproduces clonally in Australia and has rapidly developed resistance across geographic locations. Using genomic, transcriptomic, and experimental approaches, we explored the evolutionary origins and molecular mechanisms of resistance. We developed the first reference genome for A. kondoi (443.8 Mb, 28,405 annotated genes, BUSCO score 97.5%) and established isofemale strains from southern Australia with varying resistance statuses. All resistant strains shared a common ancestor, supporting the spread of a resistant 'superclone' distinct from susceptible strains. Resistance was associated with overexpression of an esterase gene homologous to the E4/FE4 esterases linked to multi-chemical resistance in other aphid pests. Functional experiments in Drosophila melanogaster confirmed the causal role of this E4-like esterase in resistance to organophosphates, carbamates, and pyrethroids. These findings highlight how clonal dispersal and insecticide overuse can transform local adaptation into a widespread pest management issue. Our results suggest a parallel macroevolutionary response to insecticide selection in A. kondoi and other aphid species at the gene family level, but with a distinct regulatory mechanism in A. kondoi. Given the rapid spread of the resistant superclone, alternative management strategies, including expanded chemical control options and enhanced biological control, are urgently needed to mitigate this growing pest problem.

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Spread of a single superclone drives insecticide resistance inAcyrthosiphon kondoiacross an invasive range

Thia,

Hunt,

Wang

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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On the role of niche specialization in the geographic distribution of aphid asexual lineages: a case study using the leaf‐curl plum aphid superclones

Cited by 1 publication

References 93 publications

Spread of a single superclone drives insecticide resistance inAcyrthosiphon kondoiacross an invasive range

Spread of a single superclone drives insecticide resistance inAcyrthosiphon kondoiacross an invasive range

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