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Understanding the differences in carbon and nitrogen distribution and cycling both spatially and temporally using various approaches is essential in forest ecosystems. In addition, the influence of biotic and abiotic factors as well as natural and artificial disturbances on carbon and nitrogen cycling need to first be understood before drawing their implications to forest management practices. This Special Issue aims to understand carbon and nitrogen distribution and cycling in forest ecosystems for ecosystem-based forest management under different natural and artificial disturbances.
carbon --- decomposition --- disturbance --- ecosystem process --- extracellular enzymes --- exoenzymes --- forest fire --- nitrogen --- soil enzymes --- succession --- net primary production --- spatiotemporal patterns --- climate change --- phenology --- China --- protected forest --- carbon sequestration --- Abies religiosa --- soil organic carbon --- dissolved organic matter --- nitrogen addition --- Phyllostachys edulis --- carbon cycling --- Pinus resinosa --- soil respiration --- stand age --- carbon mass --- NPP --- Picea crassifolia --- carbon balance --- Qinling Mountains --- biomass regression model --- eddy covariance --- net primary productivity --- net ecosystem exchange --- hyphal exploration strategy --- atmospheric nitrogen deposition --- Russula --- deep soil --- forest floor --- forest management --- fertilization --- thinning --- fixed depth --- equivalent soil mass --- soil nitrogen mineralization --- plant-soil interactions --- resin core method --- forest conversion --- headwater catchment
Choose an application
Understanding the differences in carbon and nitrogen distribution and cycling both spatially and temporally using various approaches is essential in forest ecosystems. In addition, the influence of biotic and abiotic factors as well as natural and artificial disturbances on carbon and nitrogen cycling need to first be understood before drawing their implications to forest management practices. This Special Issue aims to understand carbon and nitrogen distribution and cycling in forest ecosystems for ecosystem-based forest management under different natural and artificial disturbances.
Research & information: general --- Biology, life sciences --- Technology, engineering, agriculture --- carbon --- decomposition --- disturbance --- ecosystem process --- extracellular enzymes --- exoenzymes --- forest fire --- nitrogen --- soil enzymes --- succession --- net primary production --- spatiotemporal patterns --- climate change --- phenology --- China --- protected forest --- carbon sequestration --- Abies religiosa --- soil organic carbon --- dissolved organic matter --- nitrogen addition --- Phyllostachys edulis --- carbon cycling --- Pinus resinosa --- soil respiration --- stand age --- carbon mass --- NPP --- Picea crassifolia --- carbon balance --- Qinling Mountains --- biomass regression model --- eddy covariance --- net primary productivity --- net ecosystem exchange --- hyphal exploration strategy --- atmospheric nitrogen deposition --- Russula --- deep soil --- forest floor --- forest management --- fertilization --- thinning --- fixed depth --- equivalent soil mass --- soil nitrogen mineralization --- plant-soil interactions --- resin core method --- forest conversion --- headwater catchment
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