Invading parasites: spillover of an alien nematode reduces survival in a native species

It is widely assumed that spillover of alien parasites to native host species severely impacts naïve populations, ultimately conferring a competitive advantage to invading hosts that introduced them. Despite such host-switching events occurring in biological invasions, studies demonstrating the impa...

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Bibliographic Details
Published in:Biological invasions 2021-12, Vol.23 (12), p.3847-3857
Main Authors: Romeo, Claudia, Piscitelli, Anna Pia, Santicchia, Francesca, Martinoli, Adriano, Ferrari, Nicola, Wauters, Lucas A.
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Body mass
Breeding success
Capture-recapture studies
Competition
Developmental Biology
Ecology
Females
Freshwater & Marine Ecology
Indigenous animals
Indigenous species
Introduced species
Life Sciences
Native species
Nematodes
Original Paper
Parasites
Plant Sciences
Reproduction
Reproductive fitness
Rodents
Sciurus carolinensis
Sciurus vulgaris
Squirrels
Strongyloides robustus
Survival
Viral diseases
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Summary:It is widely assumed that spillover of alien parasites to native host species severely impacts naïve populations, ultimately conferring a competitive advantage to invading hosts that introduced them. Despite such host-switching events occurring in biological invasions, studies demonstrating the impact of alien macroparasites on native animal hosts are surprisingly few. In Europe, native red squirrels ( Sciurus vulgaris) are replaced by introduced North American grey squirrels ( S. carolinensis ) mainly through resource competition, and, only in the United Kingdom and Ireland, by competition mediated by a viral disease. In Italy such disease is absent, but spillover of an introduced North American nematode ( Strongyloides robustus ) from grey to red squirrels is known to occur. Here, we used long-term (9 years) capture-mark-recapture and parasitological data of red squirrels in areas co-inhabited by grey squirrels in Northern Italy to investigate the impact of this alien helminth on naïve native squirrels’ body mass, local survival, and reproduction of females. We found no negative effect of the alien parasite on body mass or reproductive success, but intensity of infection by S. robustus reduced survival of both male and female squirrels. Significantly, survival of squirrels co-infected by their native nematode, Trypanoxyuris sciuri , was less affected by S. robustus , suggesting a protective effect of the native helminth against the new infection. Hence, we demonstrate that alien S. robustus spillover adds to the detrimental effects of resource competition and stress induced by grey squirrels, further reducing the fitness of the native species in the presence of the invasive competitor.
ISSN:1387-3547
1573-1464
DOI:10.1007/s10530-021-02611-7