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A review of the characteristics of rainfall simulators in soil erosion research studies

ORCID
0000-0002-3771-7596
Affiliation
Leibniz Centre for Agricultural Landscape Research (ZALF), Germany
Koch, Tobias;
Affiliation
Philipps-University of Marburg, Department for Geography, Germany
Chifflard, Peter;
GND
1280841486
Affiliation
Julius Kühn Institute (JKI), Institute for Crop and Soil Science, Germany
Aartsma, Peter;
GND
1058990144
Affiliation
Julius Kühn Institute (JKI), Institute for Crop and Soil Science, Germany
Panten, Kerstin

Rainfall simulators are widely employed in soil erosion studies, and it is common for these simulators to be customized to address specific research questions. Nevertheless, there are certain characteristics that rainfall simulators should fulfill in the context of soil erosion studies. Rainfall simulators should simulate natural precipitation as accurately as possible. It is essential to monitor the size spectrum of generated raindrops, their maximum or terminal velocity, the uniformity of the surface distribution of rain, the kinetic energy and the overall intensity of the rain. This review aims to outline the characteristics and the corresponding measurement methods for rainfall simulators in soil erosion research. Electronic instruments like distrometers are considered more suitable for precise and comprehensive measurements than traditional instroments or literature based derivatives. By adhering to these characteristics, researchers can ensure the reliability and accuracy of their findings. Consequently, this overview serves as a valuable resource for researchers seeking to employ rainfall simulators in their investigations of soil erosion.

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