| Title | Satellite-based re-examination of global soil moisture variation |
| Creator | |
| Date Issued | 2025-02-15 |
| Source Publication | Advances in Space Research
 |
| ISSN | 0273-1177 |
| Volume | 75Issue:4Pages:3486-3495 |
| Abstract | It was crucial to capture the variation in global soil moisture for exploring the global eco-hydrological processes. Based on the global soil moisture data from the Climate Change Initiative (CCI) published by the European Space Agency (ESA), this study re-examined the spatial pattern and temporal trend of global soil moisture from 1978 to 2021. Our results showed that the global mean soil moisture was 0.208 cm·cm, which showed a weak decreasing trend over the past four decades (−1.2 × 10 cm·cm yr, R = 0.23, p = 0.001). Spatially, about 12.99 % of the land showed a significant drying trend, while only 6.74 % of the land showed a wetting trend. However, in the last decade, global soil moisture exhibited a distinct upward trend (7 × 10 cm·cm yr, R = 0.87, p = 0.000). Specifically, during this period, 5.72 % of the land showed a marked drying tendency, while 9.09 % of the land displayed a wetting trend. Soil moisture variation in the arid climate zones showed a negative contribution to the global trend, with the total contribution of −45.72 %. In contrast, soil moisture trends in temperate and cold climate zones mainly exerted positive contributions to the global trend. From a continental perspective, Asia's positive contribution was the most significant, accounting for 39.96 %, whereas North America showed a significant negative contribution of −37.43 %. Temporally, the negative maximum change in soil moisture occurs in June-August and the positive maximum change occurs in September-November, serving as the predominant d river for the annual trend. Results of this study helped to clarify the variation of global soil moisture, which could support the sustainable water management in the changing climate. |
| Keyword | Climate change Globe Hydrological cycle Satellite Soil moisture |
| DOI | 10.1016/j.asr.2024.12.030 |
| URL | View source |
| Language | 英语English |
| Scopus ID | 2-s2.0-85213294588 |
| Citation statistics | |
| Document Type | Journal article |
| Identifier | http://repository.uic.edu.cn/handle/39GCC9TT/12505 |
| Collection | Beijing Normal-Hong Kong Baptist University |
| Corresponding Author | Huang,Jixian |
| Affiliation | 1.School of Geosciences and Info-Physics,Central South University,Changsha,410083,China 2.Key Laboratory of Spatio-temporal Information and Intelligent Services,Chinese Ministry of Natural Resources,Changsha,410083,China 3.United International College,Beijing Normal University- Hong Kong Baptist University,Zhuhai,519087,China 4.International Department,The Affiliated High School of SCNU,510630,China |
| Recommended Citation GB/T 7714 | Feng,Huihui,Wang,Shu,Li,Shijieet al. Satellite-based re-examination of global soil moisture variation[J]. Advances in Space Research, 2025, 75(4): 3486-3495. |
| APA | Feng,Huihui., Wang,Shu., Li,Shijie., Wang,Wei., Li,Jingya., .. & Huang,Jixian. (2025). Satellite-based re-examination of global soil moisture variation. Advances in Space Research, 75(4), 3486-3495. |
| MLA | Feng,Huihui,et al."Satellite-based re-examination of global soil moisture variation". Advances in Space Research 75.4(2025): 3486-3495. |
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