Multi-time scale variability of rainfall erosivity and erosivity density in the karst region of southern China, 1960–2017

•Erosivity can be calculated well by a power law equation with cosine relation.•The magnitude of rainfall erosivity varies unevenly among seasons.•Increasing trend of annual and seasonal rainfall erosivity was observed.•Erosivity density shown a significant high correlation with rainfall erosivity.•...

Full description

Saved in:
Bibliographic Details
Published in:Catena (Giessen) 2021-02, Vol.197, p.104977, Article 104977
Main Authors: Zhu, Dayun, Xiong, Kangning, Xiao, Hua
Format: Article
Language:English
Subjects:
Erosivity density
karst region of southern China
Multiple time scales
Rainfall erosivity
Spatio-temporal change
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Erosivity can be calculated well by a power law equation with cosine relation.•The magnitude of rainfall erosivity varies unevenly among seasons.•Increasing trend of annual and seasonal rainfall erosivity was observed.•Erosivity density shown a significant high correlation with rainfall erosivity.•The gravity centre of rainfall erosivity has shifted across the three provinces. Rainfall erosivity, a measure of the potential for soil erosion by water, is an important factor for estimating soil loss. Understanding the variation tendency of rainfall erosivity is especially critical for soil and water conservation in the fragile ecological environment of the karst region in southern China. This study analysed the rainfall erosivity at multiple spatial and temporal scales based on daily rainfall data observed at 223 meteorological stations during the period of 1960–2017. A daily rainfall erosivity model, co-kring interpolation, regression analysis, gravity model and the Mann-Kendall test were applied in the analysis process. The results indicate the following: (i) The mean annual rainfall erosivity is 5130.00 MJ·mm·ha−1·h−1 in southern China, with a range of 3964.24 to 6425.87 MJ·mm·ha−1·h−1, and varies greatly among different provinces. (ii) The magnitude of rainfall erosivity varies unevenly among seasons, with the mean rainfall erosivity in summer being almost 15 times higher than that in winter. (iii) The annual and seasonal rainfall erosivity has increased in the karst region of southern China over the past 58 years, whereas at the province scale, the seasonal trend in rainfall erosivity is more complex, and the trends are not necessarily linear and positive. Furthermore, at the interdecadal scale, there is no regular trend, and the data exhibit considerable variation. (iv) The temporal variation characteristics of erosivity density are basically consistent with those of rainfall erosivity, and the two show a significant high correlation. (v) The gravity centre of annual rainfall erosivity is located in Tongdao County, while the monthly gravity centre has shifted across Guangxi, Hunan and Guizhou. In summary, knowledge of rainfall erosivity patterns is valuable for assessing the risk of soil erosion and formulating countermeasures.
ISSN:0341-8162
1872-6887
DOI:10.1016/j.catena.2020.104977