Assessing the feedback relationship between vegetation and soil moisture over the Loess Plateau, China

• Published in: Ecological indicators Vol. 134; p. 108493
• Main Authors: Wei, Xiaoting, Huang, Qiang, Huang, Shengzhi, Leng, Guoyong, Qu, Yanping, Deng, Mingjiang, Han, Zhiming, Zhao, Jing, Liu, Dong, Bai, Qingjun
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.01.2022; Elsevier
• Subjects: Feedback relationship; Loess Plateau; NDVI; Revegetation; Soil moisture; Revegetation; Feedback relationship; Soil moisture; NDVI; Loess Plateau
• ISSN: 1470-160X; 1872-7034
• DOI: 10.1016/j.ecolind.2021.108493

[Display omitted] •Identification of feedback patterns between NDVI and SM in the Loess Plateau.•SM1 exhibits a stronger feedback relationship with NDVI than SM2 and SM3.•After large-scale afforestation activities, their feedback relationship obviously enhanced. The study of the feedback relationship between vegetation and soil water is of great significance for improving the understanding of hydrological process, soil and water conservation and water resources utilization. However, the mutual feedback between vegetation and soil moisture had remained unresolved. To this end, the feedback relationships between NDVI and soil moisture (SM) over the Loess Plateau (LP) were studied by using the Granger causality method. Three layers of soil moisture data were used, with depths of 0–10 cm (SM1), 10–40 cm (SM2) and 40–100 cm (SM3), respectively. The spatial distribution characteristics of causality between NDVI and SM1/ SM2/SM3 were further analyzed. Results indicated that (1) NDVI and SM1 were positively correlated in the whole region of the LP, while NDVI and SM2/SM3 were negatively correlated in the southeast of the region; (2) compared with SM2 and SM3, SM1 and NDVI had a more significant mutual feedback relationship; (3) after the program of “Grain for Green” on the LP, the vegetation increased, the feedback relationship between NDVI and SM1 was further enhanced, and the mutual feedback relationship was the most obvious in the key areas of revegetation. In general, this study sheds new insights into the feedback between vegetation and soil moisture, which can help guide the adjustment of local agricultural structure and ecological restoration.