Responses of Soil Carbon and Nitrogen Dynamics and GHG Fluxes in Forest Ecosystems to Climate Change and Human Activity
Materialtyp:
ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2025Beskrivning: 1 electronic resource (188 p.)Innehållstyp: - text
- computer
- online resource
- 9783725830572
- 9783725830589
- The Arts
- Performing arts
- Theatre studies
- CH4 uptake
- Chinese fir forest
- GHG flux
- N2O emissions
- Pleioblastus amarus plantation
- Taihang mountain
- active soil substances
- carbon dioxide emission
- climate change
- elevation gradients
- enzyme stoichiometry
- fertilizer
- fine root biomass
- forest ecosystem
- forest soil
- forest soil carbon cycling
- greenhouse gas
- heterotrophic respiration
- human activity
- land use and land cover
- land-use types
- leaf litter decomposition
- litter manipulation
- management strategy
- methane flux
- microbial biomass carbon
- microbial carbon use efficiency
- microbial enzyme activity
- nitrogen addition
- nitrogen deposition
- permafrost changes
- phosphorus addition
- plant diversity indexes
- rocky mountainous region of North China
- snow manipulation
- soil carbon and nitrogen dynamics
- soil carbon dioxide emission
- soil carbon flux
- soil carbon pool
- soil enzymatic activity
- soil moisture
- soil nitrogen pool
- soil organic carbon density
- soil organic carbon fractions
- soil organic carbon stocks
- soil respiration
- stable isotope
- temperature at the top of permafrost
- throughfall
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Forest soils are considered the largest carbon and nitrogen pools in soil organic matter among terrestrial ecosystems, and soil carbon and nitrogen dynamics and greenhouse gas (GHG) emissions are normally affected by climate change and human activity. This Special Issue includes the effects of climate changes such as changes in throughfall, snow cover, and permafrost degradation; human activities such as nitrogen and/or phosphorus addition and the use of biochar; and soil–plant interactions on soil carbon and nitrogen dynamics and GHG fluxes in forest ecosystems. Although this collection of papers reflects only a small part of this scientific theme, it can, to some extent, provide a basis for understanding some important research aspects related to the future of forest soil carbon and nitrogen dynamics and GHG fluxes in a changing world, thereby enabling sustainable development and the mitigation of climate change.
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