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Forest ecosystems are often disturbed by agents such as harvesting, fire, wind, insects and diseases, and acid deposition, with differing intensities and frequencies. Such disturbances can markedly affect the amount, form, and stability of soil organic carbon in, and the emission of greenhouse gases, including CO2, CH4, and N2O from, forest ecosystems. It is vitally important that we improve our understanding of the impact of different disturbance regimes on forest soil carbon dynamics and greenhouse gas emissions to guide our future research, forest management practices, and policy development. This Special Issue provides an important update on the disturbance effects on soil carbon and greenhouse gas emissions in forest ecosystems in different climate regions.
greenhouse gas emission --- heterotrophic respiration --- Camellia oleifera --- Larix principis-rupprechtii Mayr --- soil microbial residue --- assisted natural regeneration --- soil organic carbon --- soil carbon sequestration --- soil CO2 --- surface soil layer --- landform --- anthropogenic effect --- South Korea --- CO2 effluxes --- storm damage --- microbial properties --- calcareous soil --- land use pattern --- soil total nitrogen --- generation --- tree mortality --- land use types --- forest conversion --- DCD --- carbon source–sink --- stoichiometric ratios --- autotrophic respiration --- N2O --- CO2 emission --- organic carbon mineralization --- CH4 emissions --- clear-cutting --- CO2 production and diffusion --- soil quality --- nitrification inhibitor --- organic carbon accumulation --- climate change mitigation --- global change --- greenhouse gas inventory --- warming --- soil properties --- bacterial community --- sensitivity --- soil characteristics --- forest --- insect outbreak --- biochar --- nitrous oxide --- CO2 --- soil respiration --- land-use change --- decomposition --- soil --- natural forest --- calcareous soils --- greenhouse gas --- forest soils --- karst graben basin --- plantation --- rocky desertification --- fitting parameters --- temperature --- forest disturbance --- microbe --- subtropical forest --- N addition --- carbon stock changes --- IPCC --- next-generation sequencing --- nitrogen --- N2O emissions --- red soils --- CH4 --- coastal wetlands --- CO2 emissions --- stand age --- successive planting --- plum plantation ages
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This book, a printed edition of the Special Issue Soil Nitrogen Supply: Linking Plant Available N to Ecosystem Functions and Productivity, presents thoughtful research papers that will advance our understanding of this fascinating topic. New knowledge about modeling and the impact of cover crops, crop residues, soil amendment, and other management practices is presented in the context of agricultural and urban ecosystems.
Technology: general issues --- Environmental science, engineering & technology --- nitrification inhibitors --- soil type --- CO2 and N2O emissions --- soil nitrogen dynamic --- winter malting barley --- malting quality indices --- summer cover crops --- sunn hemp --- crimson clover --- seeding rate --- nitrogen management --- aerobic incubation --- CO2 production --- microbial metabolism --- enzyme activities --- active biomass --- gross mineralization/immobilization --- Bradyrhizobium --- attachment --- root --- biofilm --- lectin --- soybean --- soil --- hydrophobicity --- Brassica napus --- natural variation --- nitrogen nutrition --- root system architecture --- nitrogen --- miscanthus --- willow --- field experiment --- lettuce --- plant-based amendment --- rhizosphere --- rainfall simulator --- nutrient runoff --- ammonium --- nitrate --- nitrogen use efficiency --- biochar --- total nitrogen --- soil organic carbon --- nitrogen mineralization --- nitrification --- turfgrass --- residential landscapes --- landscape patches --- urban soils --- perennial peanut --- urban landscapes --- N mineralization --- C/N ratio --- crop residue --- N availability --- NBPT --- nitrification inhibitor --- half-life --- degradation rate constant --- nitrogen leaching --- autumn tillage --- no-till --- lysimeter --- field experiment network --- soil nitrogen mineralization --- soil properties --- cropping system --- modeling --- STICS model --- n/a
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This book, a printed edition of the Special Issue Soil Nitrogen Supply: Linking Plant Available N to Ecosystem Functions and Productivity, presents thoughtful research papers that will advance our understanding of this fascinating topic. New knowledge about modeling and the impact of cover crops, crop residues, soil amendment, and other management practices is presented in the context of agricultural and urban ecosystems.
Technology: general issues --- Environmental science, engineering & technology --- nitrification inhibitors --- soil type --- CO2 and N2O emissions --- soil nitrogen dynamic --- winter malting barley --- malting quality indices --- summer cover crops --- sunn hemp --- crimson clover --- seeding rate --- nitrogen management --- aerobic incubation --- CO2 production --- microbial metabolism --- enzyme activities --- active biomass --- gross mineralization/immobilization --- Bradyrhizobium --- attachment --- root --- biofilm --- lectin --- soybean --- soil --- hydrophobicity --- Brassica napus --- natural variation --- nitrogen nutrition --- root system architecture --- nitrogen --- miscanthus --- willow --- field experiment --- lettuce --- plant-based amendment --- rhizosphere --- rainfall simulator --- nutrient runoff --- ammonium --- nitrate --- nitrogen use efficiency --- biochar --- total nitrogen --- soil organic carbon --- nitrogen mineralization --- nitrification --- turfgrass --- residential landscapes --- landscape patches --- urban soils --- perennial peanut --- urban landscapes --- N mineralization --- C/N ratio --- crop residue --- N availability --- NBPT --- nitrification inhibitor --- half-life --- degradation rate constant --- nitrogen leaching --- autumn tillage --- no-till --- lysimeter --- field experiment network --- soil nitrogen mineralization --- soil properties --- cropping system --- modeling --- STICS model --- n/a
Choose an application
This book, a printed edition of the Special Issue Soil Nitrogen Supply: Linking Plant Available N to Ecosystem Functions and Productivity, presents thoughtful research papers that will advance our understanding of this fascinating topic. New knowledge about modeling and the impact of cover crops, crop residues, soil amendment, and other management practices is presented in the context of agricultural and urban ecosystems.
nitrification inhibitors --- soil type --- CO2 and N2O emissions --- soil nitrogen dynamic --- winter malting barley --- malting quality indices --- summer cover crops --- sunn hemp --- crimson clover --- seeding rate --- nitrogen management --- aerobic incubation --- CO2 production --- microbial metabolism --- enzyme activities --- active biomass --- gross mineralization/immobilization --- Bradyrhizobium --- attachment --- root --- biofilm --- lectin --- soybean --- soil --- hydrophobicity --- Brassica napus --- natural variation --- nitrogen nutrition --- root system architecture --- nitrogen --- miscanthus --- willow --- field experiment --- lettuce --- plant-based amendment --- rhizosphere --- rainfall simulator --- nutrient runoff --- ammonium --- nitrate --- nitrogen use efficiency --- biochar --- total nitrogen --- soil organic carbon --- nitrogen mineralization --- nitrification --- turfgrass --- residential landscapes --- landscape patches --- urban soils --- perennial peanut --- urban landscapes --- N mineralization --- C/N ratio --- crop residue --- N availability --- NBPT --- nitrification inhibitor --- half-life --- degradation rate constant --- nitrogen leaching --- autumn tillage --- no-till --- lysimeter --- field experiment network --- soil nitrogen mineralization --- soil properties --- cropping system --- modeling --- STICS model --- n/a
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