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Soil Carbon, Nitrogen Sequestration and Greenhouse Gas Mitigation under Global Change

Global change induced extreme climate events are becoming more common than ever. Soil carbon and nitrogen pools correlated significantly with changes in atmospheric greenhouse gas. Large increase in atmospheric greenhouse gases, majorly carbon dioxide, nitrous oxide, and methane, can enhance the hea...

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Bibliographic Details
Main Author: Zhang, Ling
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
N2o Emissions
N Surplus
Nutrient Content
Carbon Dioxide
Dioecious Plant
Mollisols
Metabolite
Ecological Science, The Biosphere / Bicssc
Wheat Stripe Rust
Greenhouse Gas
Nutrient Characteristics
Loess Plateau
Soil Nitrogen
Sedimentation
Nitrification
Wetlands
Minimum Data Set
Greenhouse Gas Emissions
Net Ecosystem Co2 Exchange
Nitrogen Leaching
Blackwater
Abscisic Acid (aba)
Hyperspectral Remote Sensing
Soil Micro-organism
Integrated Nutrient Management
Soil Quality Index
High-performance Liquid Chromatography (hplc)
Substrate Quality
Camellia Oleifera
Girdling
Endophytes
Wugong Mountain
Temperature Sensitivity
Research & Information: General / Bicssc
Kinetic Theory
Landscape
Denitrification
Runoff
Biology, Life Sciences / Bicssc
Idesia Polycarpa
Carbon Budgets
Carbon Soil Sequestration
C:n Ratio
Wastewater Reuse
Composting
Foliar Fertilizer
Mountain Meadow
Reproductive Stages
Maize Fertilization
Carbon Sequestration
Climate Change
Phytoremediation
Trans-zeatin-riboside (tzr)
Wheat
Environmental Services
Land Use/cover Change
Biofuel Crops
Identification Model
Indole-3-acetic Acid (iaa)
Yield
Gibberellina3 (ga3)
Tourism Disturbance
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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245 0 0 |a Soil Carbon, Nitrogen Sequestration and Greenhouse Gas Mitigation under Global Change  |h Elektronische Ressource 
260 |a Basel  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2023 
300 |a 1 electronic resource (198 p.) 
653 |a N2O emissions 
653 |a N surplus 
653 |a nutrient content 
653 |a carbon dioxide 
653 |a dioecious plant 
653 |a Mollisols 
653 |a metabolite 
653 |a Ecological science, the Biosphere / bicssc 
653 |a wheat stripe rust 
653 |a greenhouse gas 
653 |a nutrient characteristics 
653 |a Loess Plateau 
653 |a soil nitrogen 
653 |a sedimentation 
653 |a nitrification 
653 |a wetlands 
653 |a minimum data set 
653 |a greenhouse gas emissions 
653 |a net ecosystem CO2 exchange 
653 |a nitrogen leaching 
653 |a blackwater 
653 |a abscisic acid (ABA) 
653 |a hyperspectral remote sensing 
653 |a soil micro-organism 
653 |a integrated nutrient management 
653 |a soil quality index 
653 |a High-Performance Liquid Chromatography (HPLC) 
653 |a substrate quality 
653 |a Camellia oleifera 
653 |a girdling 
653 |a endophytes 
653 |a Wugong Mountain 
653 |a temperature sensitivity 
653 |a Research & information: general / bicssc 
653 |a Kinetic theory 
653 |a landscape 
653 |a denitrification 
653 |a runoff 
653 |a Biology, life sciences / bicssc 
653 |a Idesia polycarpa 
653 |a carbon budgets 
653 |a carbon soil sequestration 
653 |a C:N ratio 
653 |a wastewater reuse 
653 |a composting 
653 |a foliar fertilizer 
653 |a mountain meadow 
653 |a reproductive stages 
653 |a maize fertilization 
653 |a carbon sequestration 
653 |a climate change 
653 |a phytoremediation 
653 |a trans-Zeatin-riboside (tZR) 
653 |a wheat 
653 |a environmental services 
653 |a land use/cover change 
653 |a biofuel crops 
653 |a identification model 
653 |a indole-3-acetic acid (IAA) 
653 |a yield 
653 |a gibberellinA3 (GA3) 
653 |a tourism disturbance 
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520 |a Global change induced extreme climate events are becoming more common than ever. Soil carbon and nitrogen pools correlated significantly with changes in atmospheric greenhouse gas. Large increase in atmospheric greenhouse gases, majorly carbon dioxide, nitrous oxide, and methane, can enhance the heating of atmosphere, which will be generally followed by global warming. Mitigation of greenhouse gas emissions including various strategies, such as the sequestrations of carbon and nitrogen in soil, plant or ecosystems, efficient management of agricultural and forestry ecosystems, mitigation of ecosystem carbon and nitrogen leaching, etc. The mitigation of greenhouse gas emissions from all kinds of sources will be therefore crucial in mitigation of global climate change.This reprint gathered latest case studies and methodologies, including, but not limited to measurement and mitigation strategies of carbon and nitrogen pools in soil, plant, or ecosystems, and greenhouse gas emissions, will substantially improve our understanding of the potential, ability, and capacity of ecosystems in mitigation of greenhouse gas emissions and hence global climate change. This reprint can be used by colleagues working on global climate change, ecology, agriculture, forestry and policy makers associated with global change. Chapters included in this reprint were contributed by colleagues from China, Egypt, Italy, Jordan, Mexico, Pakistan, Saudi Arabia, Turkey, etc. It can be used in most countries in the world. 

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