Dynamics of agricultural system vulnerability to climate change and the externalities of its mitigation in China

China is one of the countries where the agricultural system has been significantly affected by climate change. Reduced agricultural labor, water shortages, and carbon emission restrictions bring more challenges to China's agricultural system vulnerability to climate change. Quantifying and visu...

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Bibliographic Details
Published in:Mitigation and adaptation strategies for global change 2024-10, Vol.29 (7), p.76-76, Article 76
Main Authors: Yingying, Wang, Yibin, Wang, Fei, Li
Format: Article
Language:English
Subjects:
Ageing
Aging
Agricultural equipment
Agricultural land
agricultural machinery and equipment
agricultural plastics
Agricultural production
Agricultural technology
Agrochemicals
Atmospheric Sciences
Biophysics
Carbon
China
Climate change
Climate Change Management and Policy
Climatic conditions
Crop yield
cropland
Cropping systems
Decision making
Developing countries
Disasters
Drought
Earth and Environmental Science
Earth Sciences
Emergency preparedness
Emissions
Emissions control
Environmental impact
Environmental Management
farm labor
Farm machinery
Farming systems
Farmworkers
Fertilizers
grain yield
industrialization
irrigation
Labor
Labor force
LDCs
Machinery
mechanization
Meteorology
Mitigation
Modernization
Original Article
Pesticides
Polymer films
risk assessment
Socioeconomic factors
Urbanization
Water
Water consumption
Water shortages
Waterlogging
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Summary:China is one of the countries where the agricultural system has been significantly affected by climate change. Reduced agricultural labor, water shortages, and carbon emission restrictions bring more challenges to China's agricultural system vulnerability to climate change. Quantifying and visualizing agricultural system vulnerability to climate change could provide targeted decision-making suggestions for agricultural production in different regions. However, the effectiveness and externalities of strategies to deal with agricultural system vulnerability to climate change required a long-term historical process to test. Therefore, this study explored the long-term vulnerability dynamics of agricultural systems to climate change since China’s reform and opening up. The agricultural system vulnerability assessment model used in this study integrated socioeconomic-based assessment method and biophysics-based assessment method. In the context of declining and aging agricultural labor and not obvious increase in grain sown area, the alleviation of the vulnerability of China's agricultural systems to climate change benefited from the high-intensity input such as fertilizers, pesticides, irrigation, agricultural plastic films, agricultural machinery. Although agricultural machinery effectively compensated for the risks caused by the migration and aging of agricultural labor, it was not advisable to continue to strengthen mechanized production within the current sowing area due to the significant reduction in the marginal substitution rate of machinery to labor. In the process of mitigating agricultural system vulnerability, the water consumption and carbon emissions of agricultural production are multiplied. Increased water consumption resisted the impact of drought on agricultural system vulnerability, but agricultural production was helpless in dealing with waterlogging. It was difficult to increase grain yield by intensifying water consumption and carbon emissions under current climatic conditions. To further reduce agricultural system vulnerability to climate change, the challenges of how to adjust the cropping system to adapt to climate change, how to deal with the impact of meteorological disasters on agricultural production, and how to avoid excessive non-grainization of cropland should be addressed. The resolution of these issues will help the developing countries that are in the process of industrialization and urbanization to coordinate the relationshi
ISSN:1381-2386
1573-1596
DOI:10.1007/s11027-024-10171-z