期刊
OIKOS
卷 2022, 期 6, 页码 -出版社
WILEY
DOI: 10.1111/oik.08966
关键词
biodiversity effect; complementarity effect; invasibility; multiple invasive plant species; plant community; selection effect
类别
资金
- Ten-Thousand-Talent Program of Zhejiang Province [2018R52016]
- Natural Science Foundation of Zhejiang Province of China [LQ20C160008]
Experimental study in subtropical monsoon regions of southeast China revealed that increasing richness of alien invasive species did not significantly reduce native plant biomass, but significantly increased invasive plant biomass and invasion success. Manipulating evenness of invasive species did not affect invasion success or have differential suppression effects on native plants. The dominance of one invasive species in terms of biomass was observed, regardless of its proportion in the alien plant mixtures. The effects of invasive species richness on invasion success were mainly driven by selection effects among the invasive species.
Native plant communities are often invaded by multiple alien species. It is still unclear how increasing diversity of alien invasive species suppresses the growth of native species and thus contributes to invasion success. In the subtropical monsoon region of southeast China, we experimentally created a native plant community with 18 herbaceous species. One week later, we let it be invaded by either zero (controls without invasion), one, two, four or eight alien plant species, with either high or low species evenness. After a four-month growth period we harvested the aboveground biomass of each species. We found that increasing invasive species richness significantly increased invasive plant biomass, the biomass of all invasive and native plant species within the community, and invasion success (the ratio of invasive plant biomass to the biomass of all native and invasive plants), but it did not significantly reduce native plant biomass. Experimentally manipulating invasive species evenness did not influence invasion success and did not show any differential suppression effects on native plants. One invasive species, Sesbania cannabina, became dominant in terms of plant biomass, irrespective of its proportion in the alien plant mixtures. Throughout this experiment, effects of invasive species richness on invasion success were mainly due to such selection effects among the invasive species. On the other hand, the unchanged biomass of native species under increasing invasive plant richness suggests the presence of at least partly complementary resource niches between invasive and native species.
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