| Title | Spatiotemporal evolution of factors affecting agricultural carbon emissions: empirical evidence from 31 Chinese provinces |
|---|---|
| ID_Doc | 32408 |
| Authors | Zheng, XX; Tan, HX; Liao, WM |
| Title | Spatiotemporal evolution of factors affecting agricultural carbon emissions: empirical evidence from 31 Chinese provinces |
| Year | 2024 |
| Published | |
| Abstract | Reducing agricultural carbon emissions is a crucial aspect of China's overall carbon emission reduction plan. In this study, we first analyzed the spatiotemporal trends in agricultural carbon emissions across 31 provinces in China from 2007 to 2020. Subsequently, we employed a geographically and temporally weighted regression model to analyze the spatiotemporal evolution of the factors influencing provincial agricultural carbon emissions. Our findings revealed that high carbon emission areas are primarily distributed in the central and northern regions. The center of gravity of carbon emissions is located within Henan Province (112 degrees 30 '-113 degrees 30 ' E; 34 degrees 10 '-33 degrees 40 ' N) and has gradually shifted in the northwest direction. Therefore, the central, northern, and western regions should become the focal areas for agricultural carbon emission mitigation efforts. The influencing factors demonstrate spatiotemporal heterogeneity in their impacts on agricultural carbon emissions, so differentiated emission mitigation strategies should be formulated according to local conditions. The central and northern regions should prioritize the adoption of green technologies, support zero growth of chemical fertilizers and promotion of organic alternatives, and promote urbanization. Western regions should be encouraged to use less harmful fertilizers and increase mechanization levels. Nationwide, green technology innovation in agriculture should be strengthened to promote sustainable agricultural development. |
Similar Articles
| ID | Score | Article |
|---|---|---|
8426
|
Chen, WD; Peng, YF; Yu, GY The influencing factors and spillover effects of interprovincial agricultural carbon emissions in China(2020)Plos One, 15.0, 11 | |
| 30580
|
Zhao, HX; Cheng, Y; Liu, Y Spatiotemporal evolution of carbon emission intensity and the driving effect of green technology innovation: Evidence from China(2023)Environmental Science And Pollution Research, 30, 46 | |
| 15688
|
Lu, CY; Wang, D; Li, HJ; Cheng, W; Tang, XL; Liu, W Measurement of the Degree of Coordination in Regard to Carbon Emissions, Economic Development, and Environmental Protection in China(2021)Applied Sciences-Basel, 11, 4 | |
| 30623
|
Cai, AX; Zheng, SY; Cai, LH; Yang, HM; Comite, U How Does Green Technology Innovation Affect Carbon Emissions? A Spatial Econometric Analysis of China's Provincial Panel Data(2021) | |
| 30843
|
Zhang, L; Cai, CZ Innovative measurement, trade-off-synergy relationship and influencing factors for agricultural net carbon emissions and effective supply of agricultural products in China(2024)Heliyon, 10, 3 | |
| 32936
|
Wang, S; Wang, YX; Zhou, CX; Wang, XL Projections in Various Scenarios and the Impact of Economy, Population, and Technology for Regional Emission Peak and Carbon Neutrality in China(2022)International Journal Of Environmental Research And Public Health, 19.0, 19 | |
| 2155
|
Di, KS; Chen, WD; Zhang, XN; Shi, QM; Cai, QL; Li, DL; Liu, CP; Di, ZS Regional unevenness and synergy of carbon emission reduction in China's green low-carbon circular economy(2023) | |
| 33452
|
Jiang, P; Li, MY; Zhao, YT; Gong, XJ; Jin, RF; Zhang, YH; Li, X; Liu, L Does Environmental Regulation Improve Carbon Emission Efficiency? Inspection of Panel Data from Inter-Provincial Provinces in China(2022)Sustainability, 14.0, 16 | |
| 31088
|
Zhang, L; Chen, JY; Dinis, F; Wei, S; Cai, CZ Decoupling Effect, Driving Factors and Prediction Analysis of Agricultural Carbon Emission Reduction and Product Supply Guarantee in China(2022)Sustainability, 14, 24 | |
| 7130
|
Liang, HZ; Meng, Y; Ishii, K The effect of agricultural greenhouse gas emissions reduction policies: evidence from the middle and lower basin of Yangtze River, China(2022)Discover Sustainability, 3, 1 |