Indirect effects of non‐native Spartina alterniflora and its fungal pathogen (Fusarium palustre) on native saltmarsh plants in China

Pathogens can affect their hosts and change community composition and structure. Pathogens may be key determinants of biological invasions. However, few empirical studies exist examining how non‐native plants drive their invasions through indirect effects involved with pathogens. Here, indirect effe...

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Bibliographic Details
Published in:The Journal of ecology 2014-09, Vol.102 (5), p.1112-1119
Main Authors: Li, Hui, Zhang, Xiameng, Zheng, Rushui, Li, Xiao, Elmer, Wade H, Wolfe, Lorne M, Li, Bo, Mack, Richard
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Biological invasions
Brackish water ecosystems
Coastal ecology
community structure
dieback
Ecological invasion
Ecosystems
endophytes
Environmental restoration
estuaries
Fundamental and applied biological sciences. Psychology
Fungi
Fusarium
General aspects
Grasses
hosts
indigenous species
indirect effects
Invasion ecology
invasive species
Nonnative species
pathogen spillover
Pathogens
Phragmites australis
Plant diseases
Plant ecology
salt marsh plants
Salt marshes
soil
Spartina
Spartina alterniflora
Synecology
virulence
Wetland ecology
Wetlands
Yangtze River estuary
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Summary:Pathogens can affect their hosts and change community composition and structure. Pathogens may be key determinants of biological invasions. However, few empirical studies exist examining how non‐native plants drive their invasions through indirect effects involved with pathogens. Here, indirect effects refer to how one species alters the effect that another species has on a third. Fusarium palustre was associated with the dieback of Spartina alterniflora in its native North American saltmarshes. Native plant Phragmites australis was also found to die back in the Dongtan wetland of the Chinese Yangtze River estuary invaded by non‐native Spartina alterniflora. This phenomenon suggests that Spartina might not escape from its pathogen when being introduced from its native North America and has indirectly caused the dieback of Phragmites in China. To investigate the indirect effect of Spartina involving Fusarium, we sampled plants and soils in dieback patches to isolate the pathogen. Next, we used an artificial inoculation study to determine the virulence of Fusarium to both Phragmites and Spartina. Finally, the spatial distribution of Fusarium was studied through examining its incidence in saltmarshes along the east coast of China. The endophytic fungus F. palustre was found to be closely associated with Phragmites dieback in the Dongtan wetland and it is likely that it was transported by non‐native Spartina from its native North American saltmarshes to the Chinese saltmarshes. The spillover of F. palustre from non‐native Spartina to native Phragmites might subsequently facilitate Spartina invasion. Synthesis. Invasive plants do not only directly compete with native plants, but also indirectly cause pathogen infection on the latter, by acting as vectors and reservoirs for pathogens shared with native plants. Our findings highlight the significance of indirect effects involving pathogens in biological invasions. It is necessary to consider these pathogen‐mediated indirect effects of non‐native plant species in multi‐host‐pathogen systems for management and restoration purposes.
ISSN:0022-0477
1365-2745
DOI:10.1111/1365-2745.12285