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毛乌素沙地南缘多年气象干旱向土壤干旱垂向传播过程解析

贺军奇龙婷陈云飞刘祖钰石长春刘秀花

农业工程学报2025，Vol.41Issue(9)：113-124,12.

农业工程学报2025，Vol.41Issue(9)：113-124,12.DOI:10.11975/j.issn.1002-6819.202502032

毛乌素沙地南缘多年气象干旱向土壤干旱垂向传播过程解析

Analysis of the vertical propagation process from meteorological drought to soil drought in the southern margin of the Mu Us Sandy Land

贺军奇 ¹龙婷 ¹陈云飞 ¹刘祖钰 ¹石长春 ²刘秀花¹

作者信息

1. 长安大学水利与环境学院,西安 710054||旱区地下水与生态效应教育部重点实验室,西安 710054||水利部旱区生态水文与水安全重点实验室,西安 710054
2. 陕西省林业科学院,西安 710082||陕西榆林毛乌素沙地荒漠生态系统国家定位观测研究站,榆林 719000
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摘要

Abstract

To investigate the vertical propagation of meteorological drought into vadose zone soil drought at the southern margin of the Mu Us Sandy Land in the Yellow River Basin,this study utilized the Hydrus-1D model to simulate soil moisture dynamics at 0-150 cm depth from 1980 to 2020,based on in-situ monitoring data from grassland and bare land as well as long-term meteorological data.Using the standardized precipitation evapotranspiration index(SPEI),the past four decades were categorized into alternating wet-dry periods(S1),drought periods(S2),and wet periods(S3).Combined with the soil moisture deficit index(SMDI),methods including maximum correlation coefficient analysis,wavelet coherence analysis,and drought propagation indices were employed to explore drought propagation processes in grassland and bare land under different climatic regimes.The results indicated that meteorological drought propagation time to soil drought increased with soil depth.Propagation intensity generally weakened with depth,but the root zone of grassland exhibited weaker drought propagation intensity compared to other depths due to root distribution.Under different land cover conditions,grassland soil drought during the same period was more severe than bare land,characterized by longer drought duration,higher intensity,and deeper affected soil layers.Grassland responded more sensitively to meteorological drought-wet shifts,with drought propagation times 1-2 months faster than bare land across depths,and stronger propagation intensity.Drought propagation processes were influenced by climatic regimes.During S3,propagation time was shortest due to high precipitation and temperature,but propagation intensity was strongest in S1,followed by S3 and weakest in S2,owing to variations in evapotranspiration.Vertical drought propagation was jointly regulated by hydrological connectivity,root distribution,and evapotranspiration intensity.Given the stronger propagation intensity in grassland,vegetation density was suggested to be controlled in desertification control and ecological restoration projects to mitigate soil water overconsumption.The research results reveal the vertical propagation process from meteorological drought to soil drought,and illustrate the synergistic influence of vegetation cover and climate model on drought propagation process,which provides theoretical reference and practical basis for the work of desertification control in Mu Us Sandy Land.

关键词

干旱传播/垂向传播/毛乌素沙地/草地生态系统/干旱传播指数

Key words

drought propagation/vertical drought propagation/Mu Us Sandy Land/grassland ecosystem/drought propagation index

分类

天文与地球科学

引用本文复制引用

贺军奇,龙婷,陈云飞,刘祖钰,石长春,刘秀花..毛乌素沙地南缘多年气象干旱向土壤干旱垂向传播过程解析[J].农业工程学报,2025,41(9):113-124,12.

基金项目

国家自然科学基金项目(42372288) （42372288）

中央高校基本科研业务费项目(300102294903) （300102294903）

农业工程学报

OA北大核心

ISSN：1002-6819

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