TY - BOOK ID - 146105489 TI - Carbon and Nitrogen in Forest Ecosystems—Series I PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Research & information: general KW - Biology, life sciences KW - Technology, engineering, agriculture KW - carbon KW - decomposition KW - disturbance KW - ecosystem process KW - extracellular enzymes KW - exoenzymes KW - forest fire KW - nitrogen KW - soil enzymes KW - succession KW - net primary production KW - spatiotemporal patterns KW - climate change KW - phenology KW - China KW - protected forest KW - carbon sequestration KW - Abies religiosa KW - soil organic carbon KW - dissolved organic matter KW - nitrogen addition KW - Phyllostachys edulis KW - carbon cycling KW - Pinus resinosa KW - soil respiration KW - stand age KW - carbon mass KW - NPP KW - Picea crassifolia KW - carbon balance KW - Qinling Mountains KW - biomass regression model KW - eddy covariance KW - net primary productivity KW - net ecosystem exchange KW - hyphal exploration strategy KW - atmospheric nitrogen deposition KW - Russula KW - deep soil KW - forest floor KW - forest management KW - fertilization KW - thinning KW - fixed depth KW - equivalent soil mass KW - soil nitrogen mineralization KW - plant-soil interactions KW - resin core method KW - forest conversion KW - headwater catchment UR - https://www.unicat.be/uniCat?func=search&query=sysid:146105489 AB - 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. ER -