期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 615, 期 -, 页码 240-252出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2017.09.238
关键词
Beryllium-7 measurements; Resultant effective erosion wind direction; Slope gradient; Isoline distribution; Crisscross region
资金
- National Natural Science Foundation of China [41401314]
- West Light Foundation of the Chinese Academy of Sciences
- Natural Science Foundation Research Project of Shanxi Province [2015JQ4115]
- Ministry of Science and Technology [2016YFC0402406]
- Research Center of Soil and Water Conservation and Ecological Environment, Chinese Academy of Sciences
- Ministry of Education
Soil erosion is complex in the wind-water erosion crisscross region of the Chinese Loess Plateau, as interleaving of wind and water erosion occurs on both temporal and spatial scales. It is difficult to distinguish wind erosion from the total erosion in previous studies due to the untraceable of aeolian particles and the limitation of feasible methods and techniques. This study used beryllium-7 measurements to study wind erosion in the wind-water erosion crisscross region on the Chinese Loess Plateau arms to delineate wind erosion distribution, to analyze its implication to erosive winds and surface microrelief, and to determine correlations between erosion rates and slope gradients. Results obtained using beryllium-7measurements based on observation plots were verified with saltating particle collection method, and were also verified on a field scale. Results indicated that the effective resultant erosion wind was from northward, which was proved by the eight-directional distributed saltating particles. The microrelief of the ground surface contributed to the formation of high or low erosion centers. Wind erosion rates increased with a linear (R-2 >= 0.95) or exponential (R-2 >= 0.83) fitting increase in the slope gradients as reported in previous studies. Compared to wind erosion on field scale, both the plots and fields exhibited similar distribution patterns in wind erosion isolines. We also determined that the wind erosion rate for two fields estimated, based on equations developed from plot scale was acceptable. This study validates the feasibility of beryllium-7 measurements for soil-wind erosion field experiments and the potential to expand this approach to real field conditions. (C) 2017 Elsevier B.V. All rights reserved.
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