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1.
为探明植被恢复对乌兰布和沙漠土壤风蚀可蚀性的影响,以乌兰布和沙漠内不同沙地固 定阶段的 8 种典型植物群落及群落内表土作为研究对象,对土壤物理因子(可蚀性颗粒含量、土壤 含水量、有机质含量)、土壤结皮因子、植被因子 3 类土壤风蚀可蚀性因子指标进行监测,分析土壤 风蚀可蚀性因子在不同植物群落类型间、沙地固定阶段间的差异。结果表明:(1)在乌兰布和沙漠 典型植物群落中,沙蓬、沙生针茅、盐爪爪等草本植物群落的土壤风蚀可蚀性最强,白刺、梭梭、沙 冬青等灌木植物群落土壤风蚀可蚀性弱于草本植物群落,说明灌木林能显著降低土壤风蚀作用。
(2)随着沙地的不断固定,土壤结构不断发育,土壤可蚀性不断降低,土壤风蚀可蚀性强弱表现为 固定沙地<半固定沙地<流动沙地。(3)土壤可蚀性颗粒含量、土壤有机质含量、土壤含水量、土壤结 皮、植被因子与植被类型及沙地固定阶段具有显著相关关系。因此,在沙区生态建设工程中,为了 减少土壤风蚀量,不仅要考虑物种的选择,还要促进人工生态系统的演替和恢复,从而有效降低土 壤风蚀可蚀性。研究结果可为乌兰布和沙区植被生态系统服务功能的科学评价、防沙治沙工程的 建设与管理提供一定参考。 相似文献
2.
黄河内蒙古段土壤风蚀特征模拟 总被引:1,自引:0,他引:1
采集黄河内蒙古段风沙土、灰漠土、棕钙土和灌淤土,在室内进行土壤理化性质测定和风洞模拟试验。对比分析了4种土壤的理化性质和不同风速及含水量条件下的风蚀特征,并量化了不同土壤的风蚀强度与土壤理化性质间关系。结果表明:(1)相对于棕钙土和灌淤土,风沙土和灰漠土易蚀性颗粒含量较大,团聚体、有机质和碳酸钙含量较低,但相同风速和含水量条件下平均风蚀强度风沙土>棕钙土>灰漠土>灌淤土。(2)不同土壤风蚀强度与风速均呈较好的幂函数关系(R2≥0.85,P<0.05),尤其是风沙土和棕钙土,幂函数关系明显优于指数函数。(3)除灰漠土,土壤风蚀强度与土壤含水量均呈较好指数函数关系(R2>0.90,P<0.05),风沙土和灰漠土的风蚀强度突降的含水量临界点在4.5%左右,灌淤土和棕钙土无明显临界点。(4)不同土壤输沙率均随距地表高度的增加而急剧减少。在距地表10 cm范围内,不同土壤输沙率占总输沙率比例风沙土(82.67%)>灰漠土(80.77%)>灌淤土(74.07%)>棕钙土(73.77%),当距地表大于30 cm后,集沙仪中基本收集不到风沙土和灰漠土风蚀颗粒。当轴心风速为16 m·s-1时,不同土壤风沙流结构均表现为单峰曲线。(5)不同土壤风蚀强度与风速、含水量、团聚体、易蚀性颗粒和黏粒含量均呈较强的非线性相关关系(R2=0.76,P<0.05)。易蚀性颗粒含量是影响风蚀强度最主要的土壤属性,其次是干团聚体和黏粒含量。 相似文献
3.
阴山北麓不同用地方式下春季土壤可蚀性研究 总被引:1,自引:0,他引:1
阴山北麓位于中国北方农牧交错带内,此区属于生态环境脆弱地带,加之人类对土地资源的不合理利用,导致了严重的土壤风蚀问题,土壤可蚀性是影响土壤侵蚀大小的重要因素之一。本文通过对该区域土壤取样及室内理化分析,结合采样点的地表物质组成、植被覆盖度及土壤有机质含量等因素,分析了其潜在可蚀性。研究结果表明:阴山北麓草地的平均土壤潜在可蚀性最小,为63.82%,耕地的平均土壤潜在可蚀性最大,为66.05%,灌丛和林地居于其中,分别64.58%和64.88%。耕地的平均可蚀性>林地的平均可蚀性>灌丛的平均可蚀性>草地的平均可蚀性。随着春季温度的升高和不断的风蚀,土壤可蚀性也发生相应的变化,但这种变化并不是持续的,当温度达到一定程度时,土壤温度和湿度环境发生了变化,土壤潜在可蚀性反而降低,表现为第二次采样的土壤可蚀性>第三次采样的土壤可蚀性>第一次采样的土壤可蚀性。土地利用方式不同,土壤表层的理化性质、地表状况也会产生一定的差异,从而导致了表层土壤的潜在风蚀性不同。人类活动在土地利用过程中起主导作用,它是叠加在自然因素之上的影响土壤潜在风蚀性的人为因素。所以,应加强对耕地的保护,退耕还林草,减小其潜在风蚀性。 相似文献
4.
威连滩冲沟砂黄土的风蚀与降雨侵蚀模拟实验 总被引:3,自引:0,他引:3
通过风洞与模拟降雨实验,研究了风力与降雨对青海省贵南县威连滩冲沟砂黄土的复合侵蚀作用。实验得出:①风蚀后的降雨使砂黄土表面在风干过程中形成了一层较为坚硬的结壳,增大了土壤的抗蚀性,降低了第二次风洞实验后期的风蚀率;②土壤水分与人为扰动是影响土壤风蚀的两个重要因素。当土壤水分较小时,风蚀率受人为扰动影响巨大;当土壤水分较大时,人为扰动对土壤风蚀的影响较小;③在持续降雨的实验条件下,砂黄土的产流、产沙量随着雨强的变化而改变。这种变化与表土的侵蚀率、可蚀性物质的多少、土壤水分以及土壤的入渗率等都有很大的关系。 相似文献
5.
The endangerment of aeolian sand is one of the most serious eco-environmental problems facing the southern suburb of Beijing. To control wind erosion is thus a matter of great urgency. This paper chooses typical land-use types, i.e., cultivated land, wild grassland, drifting sandy land, etc. based on the fixed experimental observation and quantitative analysis, to conduct studies on the principles and characteristics of aeolian activities and measures controlling wind erosion in Daxing District of Beijing. The results show that: the near ground wind velocity yielded the logarithmic distribution with height; there are significant differences among different ground cover roughness; there are significant differences in the corresponding friction velocities caused by different properties of the underlying surface; there are differences in the threshold wind velocities speed in different land use types; and there are minus exponential relations between the sediment discharge percentage and the height at a range of 0–20 cm air flow layer. Different land use types result in various degrees of coarse component. There is a significant exponential relation between sediment transport concentration and wind velocity. 相似文献
6.
Changes in intensity of wind erosion at different stages of degradation development in grasslands of Inner Mongolia, China 总被引:14,自引:1,他引:14
F.-R. Li L.-F. Kang H. Zhang L.-Y. Zhao Y. Shirato I. Taniyama 《Journal of Arid Environments》2005,62(4):567-585
Overgrazing by increasing numbers of livestock in the Horqin Sandy Land of Inner Mongolia, China, has led to extensive degradation of the region's sandy steppes. Degraded grasslands are generally classified into four main types: fixed (least degradation), semi-fixed (light degradation), semi-shifting (moderate degradation) and shifting (severe degradation) sandy lands, representing four stages of degradation development. An experiment was conducted in the Horqin Sandy Land to investigate changes in intensity of wind erosion at different stages of degradation development in sandy grasslands and determine the extent to which surface wind erosion was affected by surface-related soil and vegetation factors through their effects on surface roughness length and wind regimes. Daily wind erosion rate was monitored at four sites of degraded grassland over an erosive period from 1 April to 10 June in 2001. Soil and vegetation properties for these sites were also measured twice: one in mid-April prior to the establishment of vegetation and again in mid-June after the establishment of vegetation. Relationships between surface roughness length and soil and vegetation variables were examined at each of the two stages of vegetation development. This study shows striking differences in the intensity of surface wind erosion among sites. The daily wind erosion rate in the fixed sandy land was, on average, only about 1/5 of the rate in the semi-fixed sandy land, 1/14 of the rate in the semi-shifting sandy land and 1/47 of the rate in the shifting sandy land suggesting a much higher resistance of the fixed sandy land to wind erosion compared to other sites. Differences in rate of wind erosion between sites were attributed to between-site differences in soil and vegetation properties that exerted significant effects on wind regimes by altering surface roughness length. At the pre-establishment stage of vegetation, surface roughness length was determined by a combination of litter amount on the ground, soil surface hardness and soil moisture content, with litter amount explaining the greatest proportion of the variation. At the post-establishment stage of vegetation, the development of the surface roughness effects was mainly governed by vegetation characteristics (vegetation cover in particular), while the effects of soil surface hardness and soil moisture on surface roughness length are likely to be masked by vegetation effects. The findings suggest that better management practices of restoring vegetation in degraded grasslands are required to reduce soil erosion losses and achieve a sustainable livestock production in the Horqin Sandy Land, an ecologically fragile sandy land ecosystem. 相似文献
7.
不同时间尺度下农田土壤风蚀可蚀性的变化 总被引:1,自引:1,他引:0
土壤风蚀可蚀性(简称土壤可蚀性)作为风蚀模型的必要输入参数之一,会随风蚀事件过程、耕作措施以及气象气候等因素发生显著变化,但目前对其变化趋势尚认识不足。本文采用野外观测、采样分析与空间换时间的方法,就次风蚀事件、风蚀月、风蚀季、多年4个时间尺度下坝上地区农田土壤可蚀性变化问题进行研究。结果表明:严重风蚀事件过程中,地表土壤中粒径<0.85 mm干团聚体颗粒的含量明显降低,临界起沙摩阻风速明显升高,输沙率明显减弱,三者均显示土壤可蚀性出现明显降低的趋势。风蚀月、风蚀季和多年3个时间尺度下,农田特别是翻耕农田土壤可蚀性均呈下降的趋势,并且时间尺度越长,土壤可蚀性的下降幅度越大。强烈的风蚀搬运作用可能是造成各时间尺度下坝上地区农田土壤可蚀性普遍下降的主因。为了降低坝上地区农田风蚀的危害,应减少新农田的开垦并尽量避免在风蚀事件高发期进行农田翻耕。 相似文献
8.
呼伦贝尔沙质草原风蚀坑研究(1)——形态、分类、研究意义 总被引:17,自引:8,他引:9
采用野外调查和测量、航片判读、室内制图、统计分析等方法对呼伦贝尔沙质草原典型地带的风蚀坑及坑后风沙沉积进行了研究。发现:①风蚀坑是由一个沙坑和坑后沙丘共同组成,两者具有一一对应关系;②风蚀坑和坑后沙丘可以根据形态特征、发展阶段、诱发原因进行分类;③呼伦贝尔三大沙带均由风蚀坑洼地及其坑后沙丘和背景沙质草原组成;④沙质草原风蚀坑的发生与人类活动关系密切,为气候干旱化与人类大范围强度活动干扰土层相耦合的环境事件所造成。该研究对沙质草原沙漠发生学,沙质草原地貌演化和沙漠化监测研究具有科学意义,对草原合理利用和沙漠化防治具有现实意义。 相似文献
9.
风沙流的风程效应研究是定量获取风沙流沿程变化的核心和难点,风程效应是指输沙率随沙床表面或地块长度的增加而不断增大,而后趋于稳定的变化特征,饱和输沙率(fmax)和饱和路径长度(Lsat)是风程效应的重要参数。采用自动连续称重式集沙仪,以河北坝上地区康保县境内典型旱作农田为研究对象,观测了2017、2018年和2021年内4次典型风蚀事件,分析近地表5 cm高度风沙流的风程效应在5 min时间尺度下的变化特征。结果表明:(1) 近地表输沙通量随风程距离的增大而增大。(2) 4次风蚀事件中Lsat的变化范围在11~280 m之间,并存在明显差异,其变化与风速无关。(3) 近地表风沙流的fmax与风速(U)呈幂函数关系。(4) 风程效应的变化特征与地表可蚀性因子、地表微地貌变化有着紧密联系,未来应对不同的土壤类型和质地农田的风程效应进行深入研究。 相似文献
10.
Exploring some relationships between biological soil crusts, soil aggregation and wind erosion 总被引:5,自引:0,他引:5
A portable wind tunnel was used to test the contribution of biological and physical elements to overall soil aggregation on a soil dominated by biological soil crusts in south-eastern Australia. After moderate disturbance and simulated wind erosion, 90% of surface aggregates on the loamy soil and 76% on the sandy soil were dominated by biological elements (cryptogams). Lower levels of biological bonding were observed on the severely disturbed treatment. Linear regression indicated a significant positive relationship (r2=0·72) between biological soil crust cover and dry aggregation levels greater than 0·85mm. To maintain sediment transport below an erosion control target of 5gm−1s−1 for a 65kmh−1 wind at 10m height, a crust cover of approximately 20% is required. When a multiple regression model which sequentially fitted biological crust cover and dry aggregation greater than 0·85mm was applied to the data, dry aggregation accounted for more of the variation in sediment transport rate than biological crust cover. These data were used to develop a conceptual model which integrates crust cover and dry aggregation, and provides a useful framework within which to predict the likely impacts of changes in soil crust cover and aggregation. 相似文献
11.
Soil erodibility is an important index to evaluate the soil sensitivity to erosion. The research on soil erodibility is a crucial tache in understanding the mechanism of soil erosion. Soil erodibility can be evaluated by measuring soil physiochemical properties, scouring experiment, simulated rainfall experiment, plot experiment and wind tunnel experiment. We can use soil erosion model and nomogram to calculate soil erodibility. Many soil erodibility indices and formulae have been put forward. Soil erodibility is a complex concept, it is influenced by many factors, such as soil properties and human activities. Several obstacles restrict the research of soil erodibility. Firstly, the research on soil erodibility is mainly focused on farmland; Secondly, soil erodibility in different areas cannot be compared sufficiently; and thirdly, the research on soil erodibility in water-wind erosion is very scarce. In the prospective research, we should improve method to measure and calculate soil erodibility, strengthen the research on the mechanism of soil erodibility, and conduct research on soil erodibility by both water and wind agents. 相似文献
12.
L.-Y. Liu X.-Y. Li P.-J. Shi S.-Y. Gao J.-H. Wang W.-Q. Ta Y. Song M.-X. Liu Z. Wang B.-L. Xiao 《Journal of Arid Environments》2007,68(4):611-623
Wind erosion and desertification are severe problems in China's farming-pastoral ecotone. In this study, wind erodibility of five major soils in both uncultivated and simulated cultivated conditions, were determined through wind tunnel tests at nine wind speeds ranging from 10 to 26 m s−1. The average wind erosion rate (g m−2 min−1) under the uncultivated condition (q0) for the five soils could be set in the order: chestnut soil (28.5)>brown soil (24.8)>sierozem (21.8)>chernozem (19.9)>fixed sandy soil (11.4). The highest natural wind erosion might take place in the semi-arid steppe zone where the Chestnut soils predominate. Cultivation can significantly accelerate wind erosion, the mean wind erosion rate under the cultivated condition (qc) for all five soils was 743.7 g m−2 min−1 in the following order: sandy soil (3313.2)>brown soil (227.2)>chernozem (221.8)>sierozem (85.1)>chestnut soil (81.2). For both the uncultivated and cultivated soil samples, the relationship between wind erosion rate (q) and wind speed (U) could be expressed in general as q=A eBU (A and B are constant coefficients). There was a critical wind speed for each soil type except for the sandy soil. Below the critical wind speed, cultivation reduced wind erosion rate possibly due to soil clodiness and roughness effects. Above the critical speed, cultivation greatly intensified wind erosion rates due to the break down of the original soil structure. The critical wind speed measured at 20 cm above the soil surface was 20 m s−1 for the brown soil, 14 m s−1 for chernozem and the chestnut soils, and 10 m s−1 for the sierozem. Among the five tested soils, the high wind erosion rate of the cultivated sandy soil showed its extreme sensitivity to cultivation, possibly because of the structureless nature of the loose sand. The “effect of cultivation on wind erosion” index, η (=qc/q0), increased exponentially with the increase of wind speed, indicating that under higher wind speed conditions, cultivation could result in more severe wind erosion. 相似文献
13.
水蚀风蚀过程中土壤可蚀性研究述评 总被引:4,自引:1,他引:3
1 IntroductionSoil erosion is the process of detachm ent and transport of soil particles caused by w ater andw ind (M organ,1995).Soilerosion by w ater and w ind leads to decline in soilfertility,brings ona series of negative im pacts of land degradation … 相似文献
14.
The agricultural landscape in the semi-arid central Ebro Basin is changing from dry farming towards land abandonment. This study aims to describe quantitatively the influence of this land use change onto wind erosion susceptibility in this region. Additionally, the effects of tillage operations on wind erosion rates were evaluated. A portable wind tunnel was used to assess the relative sediment loss rates at three test sites near Zaragoza. Three different land use systems varying in crust disturbance level were investigated – (1) fallow land with undisturbed physical soil crusts, (2) simulated sheep trampling and (3) conventional tillage (dry farming).The results show that simulations on undisturbed crusted soils produce little soil loss. Consequently, wind erosion can be considered as negligible on these surfaces. Simulated sheep trampling during wind tunnel test runs produce 10 times higher sediment losses than simulations on undisturbed crusted soils. Highest sediment losses (50 times) were observed from rolled surfaces. Because of the ongoing extensification process, the distributions of physical soil crusts will most probably further increase. According to the results, this would lead to a reduction of wind erosion susceptibility in the central Ebro Basin depending on intensity and time of sheep pasturing and tillage. 相似文献
15.
16.
Wind tunnel test of the influence of moisture on the erodibility of loessial sandy loam soils by wind 总被引:3,自引:0,他引:3
Loessial sandy loam soils are the major soil categories in the northern Loess Plateau, China. Owing to a dry, windy climate and sparse surface cover, wind erosion is a serious problem and dust (sand) storms occur frequently. Soil moisture is one of the most important factors influencing resistance to wind erosion. The influence of moisture content on the erodibility of sandy loam soils was investigated through wind tunnel simulations. Results showed that the threshold velocity for soil particle movement by wind increases with increasing soil moisture by a power function. The intrinsic factor in the increase in soil resistance due to moisture content is the cohesive force of soil water. Cohesive forces of the film and capillary water are different; the influence of soil moisture on threshold velocity was shown to follow a step-like pattern. The wind erosion modulus of sandy loam was directly proportional to the cube of the wind velocity or the square of the effective wind velocity (V−Vt). There existed a negative exponential relationship between the wind erosion rate and soil moisture content. Initially, as soil moisture increased the decrease in the wind erosion rate was rather rapid. When the moisture content reached more than 4%, the rate of decrease in erosion slowed and became almost constant with successive increments of moisture. This suggests that different soil moisture contents can prevent wind erosion at different levels. Four percent soil moisture could only reduce the erodibility of the sandy loam soil by a small degree. 相似文献
17.
以民勤地区4种地表条件的3次风蚀实测数据为依据,应用WEPS风蚀子模型对风蚀量进行了预测计算。结果表明:WEPS模型预测的土壤风蚀量与实测结果存在很大差异,不能直接用于我国土壤风蚀预报工作。对没有植被覆盖的流沙地表,模型模拟结果与实际测量结果比较接近,计算值最大为模拟值的2.2倍,最小为0.47倍;当有植被覆盖时,模型预测风蚀量偏大,最大值为实测结果的41倍,最小为6.7倍。要引入WEPS模型在我国进行土壤风蚀预报,还需对模型的各项参数和计算公式进行修正,以提高WEPS的预测精度,更好地为我国风蚀预报及沙尘治理工作服务。 相似文献
18.
呼伦贝尔沙质草原风蚀坑研究(Ⅲ): 微地貌和土层的影响 总被引:3,自引:3,他引:3
采用剖面测量,沿剖面选取不同微地貌部位测量土层厚度、坚实度、粒度构成,并进行室内统计比较和分析的方法,对呼伦贝尔沙质草原区风蚀坑的发育受微地貌部位和土层控制的情况进行了研究。发现在接近自然状态下风蚀坑主要发育于西南坡和南坡的上部和中部;由于翻耕、机动车道路等人类活动诱发,也形成于平坦的草地,北坡和东坡甚至低地。沙质草原区的土层中部存在一个粗化层,在失去草被和上部的土壤-根系层保护时特别容易遭受风蚀的侵害,形成风沙流破坏钙积层并导致风蚀坑的形成。沙质草原是生态地质环境脆弱区,呼伦贝尔沙质草原区的西坡、南坡的中上部,梁岗丘等微地貌部位是风蚀沙化的危险地带。干旱半干旱气候区沙质草原的土层是稀缺的自然资源,地表土壤-植物根系层是珍贵的生态系统。保护地表土层对于保护草地资源和生态环境,以及沙漠化防治具有极端重要性。 相似文献
19.
1 Introduction Wind erosion, which occurred in arid, semiarid and sub-humid areas, is a critical process in land desertification and degradation. It is a global environmental problem (Dong et al., 1996; Gomesa et al., 2003). Previous researches on process… 相似文献
20.
中国东部沙区表层沉积物粒度特征 总被引:4,自引:4,他引:0
通过分析中国东部沙区表层沉积物粒度特征及其与风力、植被覆盖的相关性,探讨了东部沙区现代风沙沉积环境及其区域差异性。结果显示:东部沙区各沙漠/沙地粒径级配相对一致,均以细沙、中沙为主,粒度分布整体呈单峰形态,中等分选,粒度分布和分选性均与西部沙区有较大不同。风力和植被覆盖状况的差异决定了各沙地所处的风沙环境性质和风沙活动强度不同,导致东部沙区表层沉积物粒度特征存在明显的区域差异性。其中,库布齐沙漠粒度特征与该区风蚀、搬运、堆积过程频繁交替的风沙活动方式密切关联;呼伦贝尔沙地粒度特征反映了风蚀主导的风沙环境;科尔沁沙地、浑善达克沙地,毛乌素沙地粒度特征和风沙活动方式相对复杂,与这3个沙地内部风蚀主导区和沙尘沉降主导区镶嵌分布的格局有关。东部沙区表层沉积物平均粒径和分选系数均与沙地年均风速和植被总盖度双因素之间具有显著的非线性相关性。 相似文献