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Silent enemies: sublethal macroparasites can drive disease-mediated invasions
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  • Claudia Romeo,
  • Elisa Fesce,
  • Lucas Wauters,
  • Francesca Santicchia,
  • Peter Lurz,
  • Andy White,
  • Nicola Ferrari
Claudia Romeo
University of Copenhagen
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Elisa Fesce
Universita degli Studi di Milano

Corresponding Author:elisa.fesce@unimi.it

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Lucas Wauters
Università degli Studi dell'Insubria
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Francesca Santicchia
Università degli Studi dell'Insubria
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Peter Lurz
The University of Edinburgh Royal Dick School of Veterinary Studies
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Andy White
Heriot-Watt
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Nicola Ferrari
Università degli Studi di Milano
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Abstract

Shared pathogens can alter the interaction between native and alien species resulting in disease-mediated invasions (DMIs). Invasive species often harbour low-virulence macroparasites, but empirical evidence for macroparasite-driven DMIs is still limited due to their sublethal impacts and scarce prominence. Here we modelled the dynamics of native red squirrels, invasive grey squirrels and their shared nematode Strongyloides robustus to assess whether macroparasites can drive DMIs and lead to native species extinction. Our simulations showed that spillover of the alien parasite can lead to red squirrel extinction, that grey squirrels amplify the infection in the native host and that the infection accelerates the replacement of red squirrels compared to direct competition alone, ultimately facilitating invasion by grey squirrels. These results demonstrate that sublethal macroparasites can mediate invasions, suggesting that we are overlooking key drivers of native species decline.