Development of a particulate collection instrument for soil wind erosion in the near surface layer

Chun-xing Hai, Baoyuan Liu, Ye Zhao, Jing Wang, Rui-rong Zhou, Yi Fang
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Abstract

Wind erosion, a primary cause of soil degeneration, is a problem in arid and semiarid areas throughout the world. Although many methods are available to study soil erosion, there are no effective methods for obtaining quantitative measurements in the field. To address this issue, we developed a new instrument for measuring sand flow, in particular the near-surface sediment distribution of dust weight. The technique also analyzes dust particle size, composition, and organic matter content. In this paper, we describe the construction and underlying principles of this particle collection instrument, which calculates the sand content of per unit volume of air at different heights from the ground. Field experiments are performed using the instrument, and the data are analyzed. Through the collection and measurements of wind erosion particulates in the near surface (0–2m), we found that as the altitude increased from ground level, the content of these materials in the atmosphere was gradually reduced, the particles became thinner, and the amount of organic residue significantly decreased. This method provides a meaningful contribution to the quantitative research of near surface sediment runoff and wind erosion, and has scientific significance for determining the intensity of sediment transport.
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近表层土壤风蚀颗粒采集仪的研制
风蚀是土壤退化的主要原因,是全世界干旱和半干旱地区的一个问题。虽然研究土壤侵蚀的方法有很多,但目前尚无有效的方法获得土壤侵蚀的实地定量测量结果。为了解决这一问题,我们开发了一种新的测量沙流的仪器,特别是近地表泥沙分布的粉尘重量。该技术还可以分析灰尘的粒度、组成和有机物含量。在本文中,我们描述了该颗粒收集仪器的结构和基本原理,该仪器可以计算离地面不同高度的单位体积空气中的含沙量。利用该仪器进行了现场试验,并对实测数据进行了分析。通过近地表(0-2m)风蚀颗粒物的采集和测量,我们发现,随着海拔高度的升高,大气中这些物质的含量逐渐降低,颗粒变薄,有机残留量明显减少。该方法为近地表泥沙径流和风蚀的定量研究做出了有意义的贡献,对确定输沙强度具有科学意义。
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