Background:The effects of biodiversity on community function and services are frequently studied in the history of ecology,while the response of individual species to biodiversity remains great elusive.In this study,w...Background:The effects of biodiversity on community function and services are frequently studied in the history of ecology,while the response of individual species to biodiversity remains great elusive.In this study,we determined the biodiversity effects on community productivity as well as species level plant mass and carbon(C)and nitrogen(N)metabolism of eight submerged plants.These macrophytes in Lake Erhai were selected and planted in a water depth of one meter along a diversity gradient of 1,2,4 or 8 species.Then,the community productivity or species level plant mass,soluble protein,free amino acid and soluble carbohydrate were correlated to species richness to determine the biodiversity effects on community and single species.Results:The results showed that the community level biomass was positively correlated to plant species richness although the species level plant mass of individual species responded differently to the overall plant species richness.Namely,only one plant mass positively correlated to species richness and the others decreased or showed no significant correlation with the increase of species richness.The soluble proteins of most macrophytes were positively correlated to species richness;however,both the free amino acid and soluble carbohydrate of the plants were negatively or not significantly correlated to species richness.Conclusions:These results indicated that the selection effects might dominate in our aquatic communities and the negative impacts of biodiversity on C and N metabolism of the macrophytes increased with the increase of species richness,which might result from the strong competition among the studied species.The biodiversity effects on the plant mass,and C and N metabolism of individual submerged species were first reported in this study,while more such field and control experiments deserve further research.展开更多
基金supported by the National Natural Science Foundation of China(Nos.31301725,41401358 and 31200427)Hunan Provincial Natural Science Foundation(No.2018JJ2162)the Special Foundation for National Science and Technology Basic Research Program of China(2019FY102000).
文摘Background:The effects of biodiversity on community function and services are frequently studied in the history of ecology,while the response of individual species to biodiversity remains great elusive.In this study,we determined the biodiversity effects on community productivity as well as species level plant mass and carbon(C)and nitrogen(N)metabolism of eight submerged plants.These macrophytes in Lake Erhai were selected and planted in a water depth of one meter along a diversity gradient of 1,2,4 or 8 species.Then,the community productivity or species level plant mass,soluble protein,free amino acid and soluble carbohydrate were correlated to species richness to determine the biodiversity effects on community and single species.Results:The results showed that the community level biomass was positively correlated to plant species richness although the species level plant mass of individual species responded differently to the overall plant species richness.Namely,only one plant mass positively correlated to species richness and the others decreased or showed no significant correlation with the increase of species richness.The soluble proteins of most macrophytes were positively correlated to species richness;however,both the free amino acid and soluble carbohydrate of the plants were negatively or not significantly correlated to species richness.Conclusions:These results indicated that the selection effects might dominate in our aquatic communities and the negative impacts of biodiversity on C and N metabolism of the macrophytes increased with the increase of species richness,which might result from the strong competition among the studied species.The biodiversity effects on the plant mass,and C and N metabolism of individual submerged species were first reported in this study,while more such field and control experiments deserve further research.