Forest canopy structure is closely related to species diversity,crown packing efficiency,and ecological processes,while influencing ecosystem functions.However,most existing structural diversity indices only consider ...Forest canopy structure is closely related to species diversity,crown packing efficiency,and ecological processes,while influencing ecosystem functions.However,most existing structural diversity indices only consider internal heterogeneity within the canopy but often neglect the heterogeneity of the external canopy.While,the external canopy heterogeneity can increase the exchange surface area between canopy and external atmosphere,capture more light,which is closely linked to tree growth and ecosystem functions.Comprehensively and accurately estimating canopy structural diversity is crucial in understanding the underlying mechanisms of productivity change.Therefore,in this study,we apply a topographic index–canopy surface rugosity(CSR)–to capture canopy external heterogeneity,and use crown complementary index(CCI)and other canopy structural variables to quantify canopy internal heterogeneity.We find that CSR varies significantly among quadrats(20 m×20 m)and it decreases with species diversity and wood net primary productivity(NPP_(wood)).Species diversity increases NPP_(wood) directly and indirectly through CSR and CCI.Functional diversity increases NPP_(wood) through CSR and CCI.Community weighted mean of light demand decreases with NPP_(wood) through CCI.The mediating effect of CSR on the relationship between species(functional)diversity and NPP_(wood) is greater than the mediating effect of CCI.We find soil fertility positive effects on NPP_(wood) mainly through species richness and CSR.Conversely,water availability affects NPP_(wood) by a direct positive effect and indirect negative effects through species richness,CSR and CCI.Overall,our CSR and CCI provide strong support for a space-based niche partitioning mechanism regulating the relationship between species diversity and NPP_(wood).Additionally,CSR is sensitive to gap dynamics,suggesting mechanistic relationships between local disturbance,species diversity,and NPP_(wood).展开更多
基金funded by the National Natural Science Foundation of China(No.31700356)the Strategic Priority Research Program of the Chinese Academy of Sciences(XDB31000000).
文摘Forest canopy structure is closely related to species diversity,crown packing efficiency,and ecological processes,while influencing ecosystem functions.However,most existing structural diversity indices only consider internal heterogeneity within the canopy but often neglect the heterogeneity of the external canopy.While,the external canopy heterogeneity can increase the exchange surface area between canopy and external atmosphere,capture more light,which is closely linked to tree growth and ecosystem functions.Comprehensively and accurately estimating canopy structural diversity is crucial in understanding the underlying mechanisms of productivity change.Therefore,in this study,we apply a topographic index–canopy surface rugosity(CSR)–to capture canopy external heterogeneity,and use crown complementary index(CCI)and other canopy structural variables to quantify canopy internal heterogeneity.We find that CSR varies significantly among quadrats(20 m×20 m)and it decreases with species diversity and wood net primary productivity(NPP_(wood)).Species diversity increases NPP_(wood) directly and indirectly through CSR and CCI.Functional diversity increases NPP_(wood) through CSR and CCI.Community weighted mean of light demand decreases with NPP_(wood) through CCI.The mediating effect of CSR on the relationship between species(functional)diversity and NPP_(wood) is greater than the mediating effect of CCI.We find soil fertility positive effects on NPP_(wood) mainly through species richness and CSR.Conversely,water availability affects NPP_(wood) by a direct positive effect and indirect negative effects through species richness,CSR and CCI.Overall,our CSR and CCI provide strong support for a space-based niche partitioning mechanism regulating the relationship between species diversity and NPP_(wood).Additionally,CSR is sensitive to gap dynamics,suggesting mechanistic relationships between local disturbance,species diversity,and NPP_(wood).
