Crops Feed Rain to Drylands in Northwest China

IF 7.3 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Earths Future Pub Date : 2024-10-09 DOI:10.1029/2024EF004791
Qiang An, Arie Staal, Liu Liu, Yongming Cheng, Jing Liu, Guanhua Huang
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Abstract

As a key region supplementing China's limited croplands, Northwest China has undergone rapid cropland expansion over the past decades to satisfy rising food demand from population growth and socio-economic development. Although cropland expansion may overconsume local water resources in general, in Northwest China, increased precipitation and enhanced glacier melt have increased the water available for croplands. Counterintuitively, the enhanced evapotranspiration (ET) resulting from this cropland expansion could benefit remote ecologically vulnerable natural vegetation through atmospheric moisture recycling. In this study, we used a moisture tracking model to quantify contributions of croplands and cropland expansion to local precipitation and the consequent precipitation supply to natural vegetation in Northwest China. We found that the croplands contributed 27.69 billion m3/year (2.13%) of regional total precipitation and supplied 17.30 billion m3/year (2.39%) of precipitation over natural vegetation, and the cropland expansion resulted in a net increase of 80.25 million m3/year (1.07% of the total increase) in regional precipitation and 36.23 million m3/year (4.56% of the total increase) in precipitation supply for natural vegetation. Among different types of natural vegetation, grasslands received the most precipitation supply due to its vast area, followed by forests and shrublands. The more arid regions experienced not only faster rates of cropland expansion but also obtained a greater increase in regional precipitation and precipitation supply to natural vegetation. Our study quantifies the ecological impacts of cropland expansion through moisture recycling in Northwest China. This shows the complexities of water competition between agricultural development and ecological conservation in drylands and elsewhere.

Abstract Image

农作物为中国西北旱地带来甘霖
作为中国有限耕地的重要补充地区,中国西北地区在过去几十年中经历了快速的耕地扩张,以满足人口增长和社会经济发展带来的不断增长的粮食需求。虽然耕地扩张可能会过度消耗当地的水资源,但在中国西北地区,降水量的增加和冰川融化的加剧增加了耕地的可用水量。与直觉相反的是,耕地扩张导致的蒸散量(ET)增加可能会通过大气水分循环使偏远地区生态脆弱的自然植被受益。在这项研究中,我们利用水汽跟踪模型量化了耕地和耕地扩张对当地降水量的贡献,以及由此对中国西北地区自然植被的降水供应。我们发现,耕地对区域总降水量的贡献为 276.9 亿立方米/年(占总降水量的 2.13%),对自然植被的降水供应为 173.0 亿立方米/年(占总降水量的 2.39%),耕地扩张导致区域降水量净增加 8025 万立方米/年(占总降水量增加的 1.07%),对自然植被的降水供应净增加 3623 万立方米/年(占总降水量增加的 4.56%)。在不同类型的自然植被中,草地因其广阔的面积而获得最多的降水供应,其次是森林和灌木林地。更干旱的地区不仅耕地扩张速度更快,而且区域降水量和自然植被降水供应量的增幅也更大。我们的研究通过水分循环量化了中国西北地区耕地扩张对生态的影响。这显示了干旱地区和其他地区农业发展与生态保护之间水竞争的复杂性。
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来源期刊
Earths Future
Earths Future ENVIRONMENTAL SCIENCESGEOSCIENCES, MULTIDI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
11.00
自引率
7.30%
发文量
260
审稿时长
16 weeks
期刊介绍: Earth’s Future: A transdisciplinary open access journal, Earth’s Future focuses on the state of the Earth and the prediction of the planet’s future. By publishing peer-reviewed articles as well as editorials, essays, reviews, and commentaries, this journal will be the preeminent scholarly resource on the Anthropocene. It will also help assess the risks and opportunities associated with environmental changes and challenges.
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