Plant Pathogen Invasion Modifies the Eco-Evolutionary Host Plant Interactions of an Endangered Checkerspot Butterfly

New plant pathogen invasions typified by cryptic disease symptoms or those appearing sporadically in time and patchily in space, might go largely unnoticed and not taken seriously by ecologists. We present evidence that the recent invasion of (Dermateaceae) into the Pacific Northwest USA, which caus...

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Bibliographic Details
Published in:Insects (Basel, Switzerland) Switzerland), 2021-03, Vol.12 (3), p.246
Main Authors: Severns, Paul M, Guzman-Martinez, Melinda
Format: Article
Language:English
Subjects:
Biological evolution
biological invasions
Butterflies & moths
dermateaceae
Developmental stages
Diapause
Endangered & extinct species
Endangered plants
Endangered species
Euphydryas
Flowers & plants
Food
Food plants
Food resources
Germination
Host plants
Larvae
Necrosis
Oviposition
Pathogens
Plant diseases
Plantago lanceolata
Populations
Pyrenopeziza
Signs and symptoms
Species extinction
Wildlife conservation
Winter
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Summary:New plant pathogen invasions typified by cryptic disease symptoms or those appearing sporadically in time and patchily in space, might go largely unnoticed and not taken seriously by ecologists. We present evidence that the recent invasion of (Dermateaceae) into the Pacific Northwest USA, which causes foliar necrosis in the fall and winter on (plantain), the primary (non-native) foodplant for six of the eight extant Taylor's checkerspot butterfly populations ( , endangered species), has altered eco-evolutionary foodplant interactions to a degree that threatens butterfly populations with extinction. Patterns of butterfly, larval food plant, and disease development suggested the ancestral relationship was a two-foodplant system, with perennial spp. supporting oviposition and pre-diapause larvae, and the annual supporting post-diapause larvae. Plantain, in the absence of disease, provided larval food resources throughout all butterfly life stages and may explain plantain's initial adoption by Taylor's checkerspot. However, in the presence of severe disease, plantain-dependent butterfly populations experience a six-week period in the winter where post-diapause larvae lack essential plantain resources. Only , which is rare and competitively inferior under present habitat conditions, can fulfill the post-diapause larval feeding requirements in the presence of severe disease. However, a germination timing experiment suggested to be suitably timed for only Washington Taylor's checkerspot populations. The recent invasion by appears to have rendered the ancestrally adaptive acquisition of plantain by Taylor's checkerspot an unreliable, maladaptive foodplant interaction.
ISSN:2075-4450
2075-4450
DOI:10.3390/insects12030246