Climate change and its impact on rice acreage in high-latitude regions of China: an estimation by machine learning

IF 3.5 3区社会学 Q2 ENVIRONMENTAL STUDIES

International Journal of Climate Change Strategies and Management Pub Date : 2022-08-04 DOI:10.1108/ijccsm-11-2020-0124

Yan Yu, Qingsong Tian, Fengxian Yan

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引用次数: 1

Abstract

Purpose Fewer researchers have investigated the climatic and economic drivers of land-use change simultaneously and the interplay between drivers. This paper aims to investigate the nonlinear and interaction effects of price and climate variables on the rice acreage in high-latitude regions of China. Design/methodology/approach This study applies a multivariate adaptive regression spline to characterize the effects of price and climate expectations on rice acreage in high-latitude regions of China from 1992 to 2017. Then, yield expectation is added into the model to investigate the mechanism of climate effects on rice area allocation. Findings The results of importance assessment suggest that rice price, climate and total agricultural area play an important role in rice area allocation, and the importance of temperature is always higher than that of precipitation, especially for minimum temperature. Based on the estimated hinge functions and coefficients, it is found that total agricultural area has strong nonlinear and interaction effects with climate and price as forms of third-order interaction. However, the order of interaction terms reduces to second order after absorbing the expected yield. Additionally, the marginal effects of driven factors are calculated at different quantiles. The total area shows a positive and increasing marginal effect with the increase of total area. But the positive impact of price on the rice area can only be observed when price reached 50% or higher quantiles. Climate variables also show strong nonlinear marginal effects, and most climatic effects would disappear or be weakened once absorbing the expected rice yield. Expected yield is an efficient mechanism to explain the correlation between crop area and climate variables, but the impact of minimum temperature cannot be completely modeled by the yield expectation. Originality/value To the best of the authors’ knowledge, this is the first study to examine the nonlinear response of land-use change to climate and economic in high-latitude regions of China using the machine learning method.

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气候变化及其对中国高纬度地区水稻种植面积的影响:基于机器学习的估计

目的研究土地利用变化的气候和经济驱动因素及其相互作用的研究较少。本文旨在探讨价格和气候变量对中国高纬度地区水稻种植面积的非线性交互效应。本研究采用多元自适应样条曲线来表征1992 - 2017年中国高纬度地区价格和气候预期对水稻种植面积的影响。然后，在模型中加入产量预期，探讨气候对水稻面积分配的影响机制。结果表明，水稻价格、气候和农业总面积对水稻面积分配具有重要影响，且温度的重要性始终高于降水，尤其是最低温度。根据估算的铰链函数和系数，发现农业总面积与气候和价格以三阶相互作用的形式具有较强的非线性相互作用效应。然而，吸收预期产率后，相互作用项的阶数降为二阶。此外，在不同的分位数上计算驱动因素的边际效应。随着总面积的增加，其边际效应呈正递增趋势。但只有当价格达到50%或更高的分位数时，才能观察到价格对水稻面积的积极影响。气候变量也表现出较强的非线性边际效应，大部分气候效应一旦吸收了水稻的预期产量就会消失或减弱。期望产量是解释作物面积与气候变量相关性的有效机制，但最低温度的影响不能完全用期望产量来模拟。原创性/价值据作者所知，这是第一个使用机器学习方法研究中国高纬度地区土地利用变化对气候和经济的非线性响应的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Climate Change Strategies and Management ENVIRONMENTAL STUDIES-

CiteScore

8.10

自引率

8.30%

发文量

审稿时长

15 weeks

期刊介绍： Effective from volume 10 (2018), International Journal of Climate Change Strategies and Management is an open access journal. In the history of science there have been only a few issues which have mobilized the attention of scientists and policy-makers alike as the issue of climate change currently does. International Journal of Climate Change Strategies and Management is an international forum that addresses the need for disseminating scholarly research, projects and other initiatives aimed to facilitate a better understanding of the subject matter of climate change. The journal publishes papers dealing with policy-making on climate change, and methodological approaches to cope with the problems deriving from climate change. It disseminates experiences from projects and case studies where due consideration to environmental, economic, social and political aspects is given and especially the links and leverages that can be attained by this holistic approach. It regards climate change under the perspective of its wider implications: for economic growth, water and food security, and for people''s survival – especially those living in the poorest communities in developing countries.