Novel interactions between alien pathogens and native plants increase plant–pathogen network connectance and decrease specialization

Novel interactions between alien pathogens and native plants increase plant–pathogen network connectance and decrease specialization

Alien plant pathogens are a threat to native plants and are increasingly integrating into native plant–pathogen networks, but how these novel plant–pathogen networks are structured remains unclear. Theory predicts that novel antagonists are likely to be generalists, resulting in interaction networks...

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Bibliographic Details
Published in:The Journal of ecology Vol. 108; no. 2; pp. 750 - 760
Main Authors: Bufford, Jennifer L., Hulme, Philip E., Sikes, Benjamin A., Cooper, Jerry A., Johnston, Peter R., Duncan, Richard P., Allan, Eric
Format: Journal Article
Language:English
Published: Oxford Blackwell Publishing Ltd 01-03-2020
Subjects:
Antagonists
Destabilization
emerging diseases
exotic
fungal pathogens
graph theory
Health risks
Herbivores
Host plants
host range
Indigenous plants
Indigenous species
invasive species
Modularity
Native species
Networks
non‐native
oomycetes
Pathogens
Phylogeny
Plant diversity
Specialization
Species diversity
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Summary:Alien plant pathogens are a threat to native plants and are increasingly integrating into native plant–pathogen networks, but how these novel plant–pathogen networks are structured remains unclear. Theory predicts that novel antagonists are likely to be generalists, resulting in interaction networks with greater nestedness as well as lower modularity and specialization than native networks. We tested these predictions by quantifying associations between native plants and their native and alien pathogens using a comprehensive database of plant–fungal associations in New Zealand. We compared the host ranges of alien and native pathogens and the structure of native and alien pathogen subnetworks. As predicted, alien pathogens associated with a greater number and diversity of native plant host species than native pathogens. The alien pathogen subnetwork was more nested and connected, but less modular and less specialized than the native pathogen subnetwork, consistent with expectations for novel interactions. Alien pathogens altered the overall native plant–pathogen network structure, making the full network more connected and less specialized than the native network. Modules in the native and alien subnetworks were clustered by host phylogeny but did not show a clear signal associated with host habitat or region. Synthesis. Our study provides some of the first empirical insights into the structure of novel plant–pathogen networks and the changes that occur when alien pathogens invade a native network. Because alien pathogens interacted with more hosts than native pathogens, alien pathogens have an increased risk of adverse indirect effects, including pathogen spillover, host jumps and network destabilization. Our study provides some of the first empirical insights into the structure of novel plant–pathogen networks and the changes that occur when alien pathogens invade a native network. Because alien pathogens interacted with more hosts than native pathogens, alien pathogens have an increased risk of adverse indirect effects, including pathogen spillover, host jumps and network destabilization.
ISSN:0022-0477
1365-2745
DOI:10.1111/1365-2745.13293