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干旱区土壤结皮对风蚀影响的风洞模拟研究
引用本文:毛旭芮,杨建军,曹月娥,汤 东,丁肇龙. 干旱区土壤结皮对风蚀影响的风洞模拟研究[J]. 水土保持学报, 2020, 34(3)
作者姓名:毛旭芮  杨建军  曹月娥  汤 东  丁肇龙
作者单位:新疆大学 资源与环境科学学院;教育部绿洲生态重点实验室;上海师范大学 环境与地理科学学院,新疆大学 资源与环境科学学院,上海师范大学 环境与地理科学学院,新疆大学 资源与环境科学学院,新疆大学 资源与环境科学学院
基金项目:国家自然科学基金“干旱区大型工程项目无组织尘排放特征及其对周边植被的影响”项目(41601572);“基于多核素联合示踪的干旱区风蚀对有机碳的影响研究”项目(41661057);“新疆典型露天煤矿区土壤风蚀研究”项目(41461056)资助。第一作者:毛旭芮(1995—),女,硕士研究生。主要从事土壤风蚀研究。E-mail: 1519489590@qq.com。通讯作者:杨建军(1978—),男,博士,副教授。主要从事干旱区水土保持与荒漠化防治研究。E-mail: yjjdfly@sina.com。 ,2,杨建军1,2,曹月娥3,汤 东1,2,丁肇龙1,2
摘    要:土壤结皮在干旱半干旱地区广泛分布,是影响风蚀的重要因素。以准葛尔盆地东部矿区周边表层土壤为对象,通过控制土壤结皮率和结皮分布,利用风洞试验结合土壤风蚀传感器,对不同土壤结皮和风速条件下土壤风蚀量、风沙流结构、土壤颗粒释放的变化特征进行了研究。结果表明:(1)风蚀量随风速增加显著上升,随土壤结皮率增加显著下降。均匀分布的结皮风蚀量整体低于集中分布的结皮;(2)风沙流高度随风速增加而增加,高度在0-3cm的收集物占总的80%左右。14m/s的风速能够使土壤发生跃移,而土壤结皮率达到50%能够有效抑制土壤颗粒跃移现象;(3)颗粒碰撞的数量与能量随风速的增加而增加,随结皮率增加而减少;首次出现颗粒碰撞时的风速随结皮率的增加而增加;颗粒碰撞的数量和能量在风速持续增加的时间段内增加至最大值,在风速稳定后开始下降,120s左右降低至稳定值,随后不再发生明显起伏,在风速下降时间段内不发生颗粒碰撞。

关 键 词:土壤结皮;风蚀;颗粒碰撞;风洞实验;
收稿时间:2019-11-14
修稿时间:2019-12-16

Wind tunnel study of soil crust affecting on wind erosion in arid area
maoxurui,and. Wind tunnel study of soil crust affecting on wind erosion in arid area[J]. Journal of Soil and Water Conservation, 2020, 34(3)
Authors:maoxurui  and
Affiliation:Xinjiang University,,,,
Abstract:Soil crust is widely distributed in arid and semi-arid regions which is an important factor affecting wind erosion. In this paper, taking the surface soils around the eastern mining area of the Junggar Basin as the object, wind tunnel test combined with soil wind erosion sensor are used to study the changes of soil wind erosion, sand flow structure and soil particle release under different soil crust and wind speed conditions by controlling soil crust cover rate and crust distribution. The results showed that :(1) wind erosion increased significantly with the increase of wind speed and decreased significantly with the increase of soil crust cover rate. The wind erosion amount of uniform distribution was lower than that of centralized distribution. (2) the height of wind-sand flow increases with the increase of wind speed, and the collection at the height of 0-3cm accounts for about 80% of the total. The wind speed of 14m/s can make the soil saltation occur, and the soil skinning rate of 50% can effectively inhibit the saltation phenomenon of soil particles. (3) The number and energy of particle collision increased with the increase of wind speed and decreased with the increase of crust cover rate. The wind speed of the first particle collision increases with the increase of the crust cover rate; The number and energy of particle collision increased to the maximum value in the period when the wind speed continued to increase, and began to decrease after the wind speed was stable. It dropped to the stable value around 120s, and then no obvious fluctuation occurred, and it was 0 during the period when the wind speed was decreasing.
Keywords:soil crust  wind erosion   particle collision  wind tunnel experience
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