Net Carbon Sequestration Performance of Cropland Use in China’s Principal Grain-Producing Area: An Evaluation and Spatiotemporal Divergence

Wu, Haoyue; Tang, Jin; Huang, Hefei; Chen, Wenkuan; Meng, Yue

doi:10.3390/land10070714

Cited by 8 publications

(3 citation statements)

References 39 publications

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“…It has been estimated that global agricultural soils can sequester about 0.4 to 0.9 Pg C year −1 [98]. In other words, agricultural soils have the dual long-term effects of emitting and sequestering [99]. A slight modification of the fragile equilibrium between C input and losses may offset the biological terrestrial carbon sink.…”

Section: Soil C Accumulation or Depletionmentioning

confidence: 99%

Plant Nutrition under Climate Change and Soil Carbon Sequestration

et al. 2022

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The climate is one of the key elements impacting several cycles connected to soil and plant systems, as well as plant production, soil quality, and environmental quality. Due to heightened human activity, the rate of CO2 is rising in the atmosphere. Changing climatic conditions (such as temperature, CO2, and precipitation) influence plant nutrition in a range of ways, comprising mineralization, decomposition, leaching, and losing nutrients in the soil. Soil carbon sequestration plays an essential function—not only in climate change mitigation but also in plant nutrient accessibility and soil fertility. As a result, there is a significant interest globally in soil carbon capture from atmospheric CO2 and sequestration in the soil via plants. Adopting effective management methods and increasing soil carbon inputs over outputs will consequently play a crucial role in soil carbon sequestration (SCseq) and plant nutrition. As a result, boosting agricultural yield is necessary for food security, notoriously in developing countries. Several unanswered problems remain regarding climate change and its impacts on plant nutrition and global food output, which will be elucidated over time. This review provides several remarkable pieces of information about the influence of changing climatic variables on plant nutrients (availability and uptake). Additionally, it addresses the effect of soil carbon sequestration, as one of climate change mitigations, on plant nutrition and how relevant management practices can positively influence this.

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Section: Soil C Accumulation or Depletionmentioning

confidence: 99%

Plant Nutrition under Climate Change and Soil Carbon Sequestration

et al. 2022

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“…The restoration capacity dimension, which reflects the level of environmental restoration of urban land, is an important influencing factor of LUE [48]. Green vegetation is better able to clean air pollution [49] and is one of the excellent pollution remediation tools. Urban green space is the sum of natural and artificial vegetation in the city, which reflects the total amount of green vegetation in the city.…”

Section: Explained Variablesmentioning

confidence: 99%

“…To avoid this problem, this paper will reduce the number of control variables as much as possible while ensuring the effect of control variables. In this paper, only the effects from foreign countries are controlled [41][42][43][44][45][46][47][48][49][50][51][52][53]. The actual utilization of foreign capital measures the domestic absorption of foreign investment in China, which can effectively control the interference of foreign investors on domestic LUE.…”

Section: Control Variablementioning

confidence: 99%

Can Carbon Finance Optimize Land Use Efficiency? The Example of China’s Carbon Emissions Trading Policy

Bin

2021

Land

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Land resources have become one of the major factors limiting urban development in China. In the context of sustainable development, how to improve land use efficiency (LUE) has become a major challenge on the road to sustainable development in China. Carbon finance provides a new idea for sustainable development. With the help of carbon emissions trading policy (CETP), this paper aims to investigate whether carbon finance can optimize LUE in terms of economic effects and environmental effects. Based on the data of 158 prefectural-level cities in China from 2010 to 2017, this paper uses a combination of qualitative and quantitative analysis to investigate these issues. Specifically, this paper measures the land use efficiency from economic effects (LUE_Eco) and environmental effects (LUE_Env) using the entropy method, and visualizes the data to obtain information on their spatio-temporal evolution patterns. Furthermore, this paper verifies the causal relationship between policy implementation and LUE_Eco and LUE_Env by using the difference in differences (DID) method. The conclusions show that: (1) the levels of LUE_Eco and LUE_Env in the pilot regions generally increase after the implementation of the CETP, but only the increase of LUE_Env is due to the policy implementation; (2) the CETP not only effectively reduces CO2 emissions, but also promotes the reduction of industrial ‘three wastes’ emissions. Accordingly, this paper has gained insights on how to improve LUE in China.

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Enhancing Carbon Stocks in Agricultural and Forest Soils: A Crucial Step Toward Climate Change Mitigation and Ecological Security

Pakhira,

Singh

2024

Warming Mountains

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Net Carbon Sequestration Performance of Cropland Use in China’s Principal Grain-Producing Area: An Evaluation and Spatiotemporal Divergence

Cited by 8 publications

References 39 publications

Plant Nutrition under Climate Change and Soil Carbon Sequestration

Plant Nutrition under Climate Change and Soil Carbon Sequestration

Can Carbon Finance Optimize Land Use Efficiency? The Example of China’s Carbon Emissions Trading Policy

Enhancing Carbon Stocks in Agricultural and Forest Soils: A Crucial Step Toward Climate Change Mitigation and Ecological Security

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