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Review and prospect of soil compound erosion
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作者 YANG Wenqian ZHANG Gangfeng +2 位作者 YANG Huimin LIN Degen SHI Peijun 《Journal of Arid Land》 SCIE CSCD 2023年第9期1007-1022,共16页
Soil erosion is one of the most serious environmental issues constraining the sustainable development of human society and economies.Soil compound erosion is the result of the alternation or interaction between two or... Soil erosion is one of the most serious environmental issues constraining the sustainable development of human society and economies.Soil compound erosion is the result of the alternation or interaction between two or more erosion forces.In recent years,fluctuations and extreme changes in climatic factors(air temperature,precipitation,wind speed,etc.)have led to an increase in the intensity and extent of compound erosion,which is increasingly considered in soil erosion research.First,depending on the involvement of gravity,compound erosion process can be divided into compound erosion with and without gravity.We systematically summarized the research on the mechanisms and processes of alternating or interacting soil erosion forces(wind,water,and freeze-thaw)considering different combinations,combed the characteristics of compound erosion in three typical regions,namely,high-elevation areas,high-latitude areas,and dry and wet transition regions,and reviewed soil compound erosion research methods,such as station observations,simulation experiments,prediction models,and artificial neural networks.The soil erosion model of wind,water,and freeze-thaw interaction is the most significant method for quantifying and predicting compound erosion.Furthermore,it is proposed that there are several issues such as unclear internal mechanisms,lack of comprehensive prediction models,and insufficient scale conversion methods in soil compound erosion research.It is also suggested that future soil compound erosion mechanism research should prioritize the coupling of compound erosion forces and climate change. 展开更多
关键词 soil compound erosion soil erosion gravity erosion wind and water erosion freeze-thaw erosion
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An experimental study on the influences of water erosion on wind erosion in arid and semi-arid regions 被引量:2
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作者 YANG Huimin ZOU Xueyong +1 位作者 WANG Jing'ai SHI Peijun 《Journal of Arid Land》 SCIE CSCD 2019年第2期208-216,共9页
Complex erosion by wind and water causes serious harm in arid and semi-arid regions. The interaction mechanisms between water erosion and wind erosion is the key to further our understanding of the complex erosion. Th... Complex erosion by wind and water causes serious harm in arid and semi-arid regions. The interaction mechanisms between water erosion and wind erosion is the key to further our understanding of the complex erosion. Therefore, in-depth understandings of the influences of water erosion on wind erosion is needed. This research used a wind tunnel and two rainfall simulators to investigate the influences of water erosion on succeeding wind erosion. The wind erosion measurements before and after water erosion were run on semi-fixed aeolian sandy soil configured with three slopes(5°, 10° and 15°), six wind speeds(0, 9, 11, 13, 15 and 20 m/s), and five rainfall intensities(0, 30, 45, 60 and 75 mm/h). Results showed that water erosion generally restrained the succeeding wind erosion. At a same slope, the restraining effects decreased as rainfall intensity increased, which decreased from 70.63% to 50.20% with rainfall intensity increased from 30 to 75 mm/h. Rills shaped by water erosion could weaken the restraining effects at wind speed exceeding 15 m/s mainly by cutting through the fine grain layer, exposing the sand layer prone to wind erosion to airflow. In addition, the restraining effects varied greatly among different soil types. The restraining effects of rainfall on the succeeding wind erosion depend on the formation of a coarsening layer with a crust and a compact fine grain layer after rainfall. The findings can deepen the understanding of the complex erosion and provide scientific basis for regional soil and water conservation in arid and semi-arid regions. 展开更多
关键词 wind erosion water erosion SandY soil particle size surface ROUGHNESS wind-water erosion agriculturalpastoral ECOTONE
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A review of the research on complex erosion by wind and water 被引量:3
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作者 SONG Yang YAN Ping LIU Lianyou 《Journal of Geographical Sciences》 SCIE CSCD 2006年第2期231-241,共11页
Complex erosion by wind and water, which is also called aeolian-fluvial interactions, is an important erosion process and landscape in arid and semiarid regions. The effectiveness of links between wind and water proce... Complex erosion by wind and water, which is also called aeolian-fluvial interactions, is an important erosion process and landscape in arid and semiarid regions. The effectiveness of links between wind and water process, spatial environmental transitions and temporal environmental change are the three main driving forces determining the geomorphologic significance of aeolian-fluvial interactions. As a complex interrelating and intercoupling system, complex erosion by wind and water has spatial- temporal variation features. The process of complex erosion by wind and water can be divided into palaeoenvironmental process and contemporary process. Early work in drylands has often been attributed to one of two schools advocating either an 'aeolianist' or a 'fluvialist' perspective, so it was not until the 1930s that the research on complex erosion by wind and water had been conducted. There are two obstacles restricting the research of complex erosion by wind and water. Firstly, how to transform in different temporal and spatial scales is still unsettled; and secondly, the research methodology is still immature. In the future, the mechanism and control of erosion, the complex soil erodibility in wind and water erosion will be the focus of research on complex erosion by wind and water. 展开更多
关键词 complex erosion by wind and water aeolian-fluvial interactions semiarid regions sediment contemporary process
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Relationship Between Watershed Landscape Pattern Change and Runoff-Sediment in Wind-Water Erosion Crisscross Region 被引量:2
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作者 WANG Jinhua ZHANG Ronggang +2 位作者 JIN Lijun YAO Wenyi LI Zhanbin 《Journal of Landscape Research》 2017年第5期53-58,共6页
This paper selected the typical wind-water erosion crisscross region Xiliugou watershed for research to reveal the impact of the landscape pattern change of the underlying surface in wind-water erosion crisscross regi... This paper selected the typical wind-water erosion crisscross region Xiliugou watershed for research to reveal the impact of the landscape pattern change of the underlying surface in wind-water erosion crisscross region where soil erosion is most serious on rainfall and runoff as well as erosion and sediment.Based on the Landsat TM image data and measured data of runoff-sediment in that watershed,the paper analyzed the characteristics of watershed landscape pattern change and runoff-sediment and explored the relationship between landscape index and runoff-sediment yield by means of GIS and Fragstats.The results were included as follows.(1)Grassland was the dominant landscape.In terms of the number of patches and area change rate,from 1985 to 2010,cultivated land,forest land and construction land were most stable,followed by unused land.Unused land,grassland and cultivated land experienced the most dramatic conversion and maximally affected by human activities.(2)The inter-annual difference between annual runoff and annual sediment load was significant.Compared with the annual sediment load,the trend of decreasing runoff was more obvious.The correlation coefficient of runoff-sediment was 0.67,representing a significant correlation.(3)There was a significant correlation between the landscape index and runoff-sediment.The runoff was negatively correlated with the largest patch index,patch cohesion index,aggregation index and contagion index,but positively correlated with landscape morphology index and landscape division index.And the sediment was negatively correlated with the contagion index,aggregation index and plaque cohesion index,but positively correlated with other landscape indexes.The results indicate that with the increase of the largest patch index,patch cohesion index and aggregation index,the rainfall infiltration capacity increase obviously and the soil erosion reduce significantly.Therefore,increasing the largest patch index,patch cohesion and aggregation index of the watershed landscape can enhance the function of water storage and soil conservation as well as ecological optimization in the windwater erosion crisscross region.The results can provide theoretical support for the ecological environment construction and comprehensive utilization of water and soil resources. 展开更多
关键词 wind-water erosion crisscross region Landscape pattern RUNofF SEDIMENT Xiliugou watershed
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Analysis on Status and Development Trend of Wind Erosion in Black Earth Region of Northeast China 被引量:2
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作者 刘铁军 珊丹 +2 位作者 郭建英 高天明 赵显波 《Agricultural Science & Technology》 CAS 2011年第12期1925-1928,共4页
In this paper,areas and main factors of wind erosion in black earth region of Northeast China were systematically analyzed,as well as the development trend of wind erosion in black earth region of Northeast China.In a... In this paper,areas and main factors of wind erosion in black earth region of Northeast China were systematically analyzed,as well as the development trend of wind erosion in black earth region of Northeast China.In addition,development trend of wind erosion in black earth region of Northeast China was analyzed from the aspects of the geographic position,climatic change law in recent 40 years and effects of northeast sand land desertification on wind erosion in black earth region,which had provided references for the research and prevention of wind erosion in soil of black earth region of Northeast China. 展开更多
关键词 Black earth region of Northeast China wind erosion water loss and soil erosion wind erosion factors
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Interactions between wind and water erosion change sediment yield and particle distribution under simulated conditions 被引量:9
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作者 TUO Dengfeng XU Mingxiang +1 位作者 ZHAO Yunge GAO Liqian 《Journal of Arid Land》 SCIE CSCD 2015年第5期590-598,共9页
Wind and water erosion are among the most important causes of soil loss, and understanding their interactions is important for estimating soil quality and environmental impacts in regions where both types of erosion o... Wind and water erosion are among the most important causes of soil loss, and understanding their interactions is important for estimating soil quality and environmental impacts in regions where both types of erosion occur. We used a wind tunnel and simulated rainfall to study sediment yield, particle-size distribution and the fractal dimension of the sediment particles under wind and water erosion. The experiment was conducted with wind ero- sion firstly and water erosion thereafter, under three wind speeds (0, 11 and 14 m/s) and three rainfall intensities (60, 80 and 100 ram/h). The results showed that the sediment yield was positively correlated with wind speed and rain- fall intensity (P〈0.01). Wind erosion exacerbated water erosion and increased sediment yield by 7.25%-38.97% relative to the absence of wind erosion. Wind erosion changed the sediment particle distribution by influencing the micro-topography of the sloping land surface. The clay, silt and sand contents of eroded sediment were also posi- tively correlated with wind speed and rainfall intensity (P〈0.01). Wind erosion increased clay and silt contents by 0.35%-19.60% and 5.80%-21.10%, respectively, and decreased sand content by 2.40%-8.33%, relative to the absence of wind erosion. The effect of wind erosion on sediment particles became weaker with increasing rainfall intensities, which was consistent with the variation in sediment yield. However, particle-size distribution was not closely correlated with sediment yield (P〉0.05). The fractal dimension of the sediment particles was significantly different under different intensities of water erosion (P〈0.05), but no significant difference was found under wind and water erosion. The findings reported in this study implicated that both water and wind erosion should be controlled to reduce their intensifying effects, and the controlling of wind erosion could significantly reduce water erosion in this wind-water erosion crisscross region. 展开更多
关键词 sediment yield particle-size distribution fractal dimension wind and water erosion
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An experimental study on the influences of wind erosion on water erosion 被引量:2
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作者 YANG Huimin GAO Yuan +3 位作者 LIN Degen ZOU Xueyong WANG Jing'ai SHI Peijun 《Journal of Arid Land》 SCIE CSCD 2017年第4期580-590,共11页
In semi-arid regions, complex erosion resulted from a combination of wind and water actions has led to a massive soil loss and a comprehensive understanding of its mechanism is the first step toward prevention of the ... In semi-arid regions, complex erosion resulted from a combination of wind and water actions has led to a massive soil loss and a comprehensive understanding of its mechanism is the first step toward prevention of the erosion. However, the mutual influences between wind erosion and water erosion have not been fully understood. This research used a wind tunnel and two rainfall simulators and simulated two rounds of alternations between wind erosion and water erosion(i.e., 1^(st) wind erosion–1^(st) water erosion and 2^(nd) wind erosion–2^(nd) water erosion) on three slopes(5°, 10°, and 15°) with six wind speeds(0, 9, 11, 13, 15, and 20 m/s) and five rainfall intensities(0, 30, 45, 60, and 75 mm/h). The objective was to analyze the influences of wind erosion on succeeding water erosion. Results showed that the effects of wind erosion on water erosion were not the same in the two rounds of tests. In the 1^(st) round of tests, wind erosion first restrained and then intensified water erosion mostly because the blocking effect of wind-sculpted micro-topography on surface flow was weakened with the increase in slope. In the 2^(nd) round of tests, wind erosion intensified water erosion on beds with no rills at gentle slopes and low rainfall intensities or with large-size rills at steep slopes and high rainfall intensities. Wind erosion restrained water erosion on beds with small rills at moderate slopes and moderate rainfall intensities. The effects were mainly related to the fine grain layer, rills and slope of the original bed in the 2^(nd) round of tests. The findings can deepen our understanding of complex erosion resulted from a combination of wind and water actions and provide scientific references to regional soil and water conservation. 展开更多
关键词 wind-water interaction sandy soil particle size surface roughness wind and water erosion
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Experimental study on the sampling efficiency of the whirl type separation sand sampler in a wind tunnel
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作者 ManQuan Zhao LiHong Fu +3 位作者 WenMing Wang Zhi Chen JinLian Wang Mei Dong 《Research in Cold and Arid Regions》 2010年第1期7-14,共8页
A performance test was conducted in a wind tunnel by changing the principal configuration parameters of a sampler such as the diameter of the container, inlet width and cone height. The results show that the average s... A performance test was conducted in a wind tunnel by changing the principal configuration parameters of a sampler such as the diameter of the container, inlet width and cone height. The results show that the average sand collection rate is from 80% to 90% when any one of the configuration parameter levels is changed. However, the variation of a parameter level results in different ef-fects on the sand collection rate for each soil sample within a certain size range of sand grains. The results show that for various sand grain sized soil sample at each wind speed, the sand collection rate decreases when the diameter of the container changes from 50 mm to 40 mm, the sand collection rate increases by about 2%-3% when the inlet width changes from 10 mm to 8 mm, and the sand collection rate increases by about 3%-4% when cone height is altered from 100 mm to 125 mm. The average sand collection rate is enhanced by 2%-4% for the soil sample of different sized sand grains when the diameter of the container is 50 mm, the inlet width is 8 mm, and cone height is 125 mm. 展开更多
关键词 soil and water conservation sand sampler wind erosion wind tunnel sand collection rate
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新型改性水玻璃固沙剂制备与研究
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作者 李凯崇 薛春晓 杨柳 《人民黄河》 CAS 北大核心 2024年第7期119-123,147,共6页
为了解决市场上现有化学固沙剂存在的抗水性相对较差、固沙效果不理想等问题,通过在水玻璃中加入一些有机和无机改性材料,制备了一种具有高强度、耐久性和稳定性的新型复合固沙剂,研究了水玻璃浓度、不同改性剂添加量对其性能的影响。... 为了解决市场上现有化学固沙剂存在的抗水性相对较差、固沙效果不理想等问题,通过在水玻璃中加入一些有机和无机改性材料,制备了一种具有高强度、耐久性和稳定性的新型复合固沙剂,研究了水玻璃浓度、不同改性剂添加量对其性能的影响。结果表明:1)按照水玻璃模数为3.0,改性剂四硼酸钠、碳酸锂、山梨醇、聚丙烯酰胺的添加量(占水玻璃质量的百分比)分别为1.5%、2.5%、0.2%、0.3%,助黏剂羧甲基纤维素钠的添加量为0.3%配置的新型改性水玻璃固沙剂,对沙土固化层的强度可达14.1 MPa;2)新型改性水玻璃固沙剂稳定性和耐久性优良,经70℃高温和-20℃低温7 d老化后,无侧限抗压强度损失率分别为11.8%和19.5%,在700℃高温条件下质量损失率仅为8.6%;3)新型改性水玻璃固沙剂的固沙效果良好,固结层在风速≤20 m/s的净风条件下表现为无风蚀或轻微风蚀,在含沙气流冲击下风蚀量较净风条件下略有增加。 展开更多
关键词 化学固沙剂 水玻璃 改性剂 抗压强度 风蚀率
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1970—2020年黄土高原水蚀风蚀交错区极端降水时空变化研究及驱动因素分析 被引量:1
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作者 黎珩 朱冰冰 +2 位作者 边熇 王蓉 唐馨怡 《干旱区地理》 CSCD 北大核心 2024年第4期539-548,共10页
黄土高原水蚀风蚀交错区作为中国北方典型的生态脆弱区,因其独特地形和气候条件,极端降雨事件对其环境和生态系统的影响更加突出。选取水蚀风蚀交错区28个气象站点,结合RClimDex模型计算11个极端降水指数,采用线性相关分析法、Mann-Kend... 黄土高原水蚀风蚀交错区作为中国北方典型的生态脆弱区,因其独特地形和气候条件,极端降雨事件对其环境和生态系统的影响更加突出。选取水蚀风蚀交错区28个气象站点,结合RClimDex模型计算11个极端降水指数,采用线性相关分析法、Mann-Kendall趋势检验法和小波交叉法,分析了1970—2020年黄土高原水蚀风蚀交错区极端降水事件时空分布特征,探讨了极端降水事件的驱动因素。结果表明:(1)1970—2020年水蚀风蚀交错区持续干燥日数(CDD)呈下降趋势,其余10个指数呈上升趋势,反映出近50a研究区极端降水事件的频率、量级和强度不断增加。交错区年降水量增加和极端降水事件增加具有密切关系,且极端降水事件增加主要是由中雨日数(R10)和大雨日数(R20)引起。(2)1970—2020年极端降水事件在全区整体为增加趋势,交错区中部和西南部极端降水事件显著发生,陕西段极端降水量和强度呈显著增加趋势且极端化程度更显著。(3)湿日总降水量(PRCPTOT)、暴雨日数(R25)、5d最大降水量(R5d)3个极端降水指数,与影响因子厄尔尼诺-南方涛动(ENSO)、东亚夏季风(EASM)和太阳黑子(SN)具有不同的功率,与SN的交叉小波变换功率最大,说明影响因子中SN和极端降水指数的相关性最高,SN对极端降水事件的影响最大。 展开更多
关键词 水蚀风蚀交错区 极端降水 时空特征 交叉小波 黄土高原
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北方农牧交错区秸秆覆盖防风蚀技术创新与应用
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作者 任永峰 刘丹 +6 位作者 张向前 路战远 程玉臣 张德健 何进 赵小庆 高艳华 《北方农业学报》 2024年第2期97-106,共10页
北方农牧交错区是我国遏制荒漠化和沙化东移南下的重要生态安全屏障,对国家粮食安全和边疆稳定具有重要战略意义。长期以来,由于严重土壤风蚀和过度耕作而导致的农田沙化退化和产能下降等问题日益凸显,国内外开展实施的秸秆粉碎覆盖地... 北方农牧交错区是我国遏制荒漠化和沙化东移南下的重要生态安全屏障,对国家粮食安全和边疆稳定具有重要战略意义。长期以来,由于严重土壤风蚀和过度耕作而导致的农田沙化退化和产能下降等问题日益凸显,国内外开展实施的秸秆粉碎覆盖地表防风蚀技术,在农牧交错区应用时秸秆易吹移造成土壤裸露、防风减蚀稳定性差,因此,秸秆覆盖防风蚀技术的深入研究在农田生态治理方面具有重要意义。文章论述了留茬覆盖、碎秆覆盖、茬-秆复合覆盖等秸秆覆盖技术的防风蚀效应和保墒培肥效应,阐明了秸秆覆盖对土壤微生物群落结构和作物农艺性状与产量性状的影响,总结了茬-秆复合覆盖技术的创新内容和应用效果,明确了结合农牧交错区生态特点和复杂耕种制度创建的差异化茬-秆复合精准覆盖技术的防风减蚀效果和适宜性。差异化茬-秆复合精准覆盖技术已成为我国东北黑土地保护、国家耕地保护与质量提升等重大工程的主导技术并大面积推广应用,为农田保护利用和国家粮食安全提供了重要科技支撑。 展开更多
关键词 北方农牧交错区 留茬覆盖 秸秆覆盖 茬-秆复合覆盖 防风减蚀
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黄土高原水蚀风蚀交错区不同生物结皮类型对土壤有机碳及其转化的影响
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作者 武杰 张丙昌 +2 位作者 陈静 武志芳 赵康 《水土保持学报》 CSCD 北大核心 2024年第4期38-44,54,共8页
[目的]黄土高原水蚀风蚀交错区是典型的脆弱生态系统,该区域生物结皮广泛分布,生物结皮在土壤有机碳积累与转化发挥着关键作用,然而,生物结皮演替及微生物对土壤有机碳转化相关酶类的影响规律尚不明确。[方法]研究土壤有机碳-微生物-碳... [目的]黄土高原水蚀风蚀交错区是典型的脆弱生态系统,该区域生物结皮广泛分布,生物结皮在土壤有机碳积累与转化发挥着关键作用,然而,生物结皮演替及微生物对土壤有机碳转化相关酶类的影响规律尚不明确。[方法]研究土壤有机碳-微生物-碳转化相关酶在生物结皮不同演替类型的变化规律,并运用SEM模型分析了三者之间的相互关系。[结果](1)生物结皮演替显著增加土壤有机碳含量和碳转化相关酶活性,且它们在结皮层(0-2 cm)中的含量均显著高于裸沙和2—5 cm土层(p<0.05);(2)结皮层细菌、真菌和放线菌数量在藓结皮中最高,其中放线菌、真菌数量在生物结皮演替呈显著增加趋势,结皮层中的细菌和真菌数量显著高于2—5 cm土层,但2—5 cm土层放线菌数量高于结皮层(藓结皮除外);(3)SEM模型表明,土壤有机碳、碳转化相关酶活性和微生物数量之间均呈现显著相关性。[结论]生物结皮的演替对土壤有机碳的积累为碳转化相关酶类和微生物提供丰富基质,促进微生物和酶活性提高,微生物对碳转化相关酶类起着重要的驱动作用,对维持生物结皮的碳平衡发挥着关键作用。 展开更多
关键词 水蚀风蚀交错区 生物结皮 土壤有机碳 土壤酶活性
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The wind-water two-phase erosion and sediment-producing processes in the middle Yellow River basin, China 被引量:14
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作者 许炯心 《Science China Earth Sciences》 SCIE EI CAS 2000年第2期176-186,共11页
Based on data from the middle Yellow River basin, a wind-water two-phase mechanism for erosion and sediment-producing processes has been found. By using this mechanism, the extremely strong erosion and sediment yield ... Based on data from the middle Yellow River basin, a wind-water two-phase mechanism for erosion and sediment-producing processes has been found. By using this mechanism, the extremely strong erosion and sediment yield in the study area can be better explained. The operation of wind and water forces is different in different seasons within a year. During winter and spring, strong wind blows large quantities of eolian sand to gullies and river channels, which are temporally stored there. During the next summer, rainstorms cause runoff that contains much fine loessic material and acts as a powerful force to carry the previously prepared coarse material. As a result, hyperconcentrated flows occur, resulting in high-intensity erosion and sediment yield. 展开更多
关键词 erosion SEDIMENT yield wind-water TWO-PHASE processes middle Yellow River basin.
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Spatial distribution of surface rock fragment on hillslopes in a small catchment in wind-water erosion crisscross region of the Loess Plateau 被引量:13
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作者 ZHU YuanJun1,2 & SHAO MingAn1 1 Institute of Soil and Water Conservation, Chinese Academy of Sciences and Ministry of Water Resources, Northwest Agriculture and Forestry University, Yangling 712100, China 2 Institute of Geographical Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China 《Science China Earth Sciences》 SCIE EI CAS 2008年第6期862-870,共9页
The cover and size distributions of surface rock fragment in hillslopes were investigated by using digital photographing and treating technique in a small catchment in wind-water erosion crisscross region of the Loess... The cover and size distributions of surface rock fragment in hillslopes were investigated by using digital photographing and treating technique in a small catchment in wind-water erosion crisscross region of the Loess Plateau. The results indicated that the maximal cover of rock fragment was pre-sented at mid-position in steep hillslope. Rock fragment presented a general decreasing-trend along the hillslope in gentle hillslope. Rock fragment cover was positively related to gradient, rock fragment size decreased generally along the hillslope, and the size reduced with the gradient. The mean size of rock fragment was at a range of 6―20 mm in the steep hillslope, rock fragment size > 50 mm was rarely presented. The covers of rock fragment at different positions were markedly related to the quantities of rock fragment < 40 mm. The area of rock fragment of 2―50 mm accounted for 60% or more of the total area, dominating the distribution of rock fragment in the hillslopes. 展开更多
关键词 wind-water erosion crisscross region of the Loess Plateau SMALL CATCHMENT HILLSLOPE SURFACE rock fragment cover and size
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黄土高原水蚀风蚀交错区固氮微生物群落多样性在生物结皮中的演变规律 被引量:2
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作者 焦冰洁 徐琳 +1 位作者 李香真 张丙昌 《生态学报》 CAS CSCD 北大核心 2023年第23期9662-9673,共12页
生物土壤结皮在黄土高原的水土保持、养分补给等方面发挥着重要生态功能。固氮微生物是固氮过程的关键功能群,影响着土壤氮素平衡,然而黄土高原水蚀风蚀交错区严重的水土流失导致土壤养分大量损失,尤其是氮素。该区域生物结皮广泛发育,... 生物土壤结皮在黄土高原的水土保持、养分补给等方面发挥着重要生态功能。固氮微生物是固氮过程的关键功能群,影响着土壤氮素平衡,然而黄土高原水蚀风蚀交错区严重的水土流失导致土壤养分大量损失,尤其是氮素。该区域生物结皮广泛发育,它们在干旱半干旱区土壤氮素积累过程中起着重要作用。但是该区域生物结皮不同发育阶段中的固氮潜力、固氮微生物群落多样性及其关键环境控制因子尚不清楚。以黄土高原水蚀风蚀交错区为研究区,三种生物结皮类型和裸地对照为研究对象,采用Illumina HiSeq平台对nifH基因扩增产物进行生物信息学分析,揭示了固氮潜力及微生物群落多样性的分布规律。结果表明,生物结皮演替显著影响固氮酶活性、nifH基因丰度和固氮微生物α-多样性,各值均在苔藓结皮最高,显著高于其它演替阶段,且生物结皮层高于结皮下层土壤。在固氮微生物群落组成上,裸地以变形菌门的红螺菌目、酸硫杆菌目和根瘤菌目为主;而在藻结皮、地衣结皮和藓结皮阶段,均表现为蓝藻门的念珠藻目占绝对优势,是固氮微生物的关键类群,其中Trichormus、念珠藻属是优势固氮物种;与藻结皮、地衣结皮相比,藓结皮中念珠藻目的相对丰度显著降低,而变形菌门的红螺菌目、酸硫杆菌目和根瘤菌目的丰度明显上升。除此之外,蓝杆藻属、鱼腥藻属、斯克尔曼氏菌属、瘤胃梭菌属在藻结皮、地衣结皮、藓结皮也占明显优势。念珠藻目以及Trichormus的丰度与固氮酶活性、nifH基因丰度呈显著正相关关系,而与红螺菌目、酸硫杆菌目、梭菌目、根瘤菌目呈显著负相关;Trichormus相关的物种在黄土高原生物结皮氮输入过程中可能发挥着关键作用。生物结皮演替通过改变土壤pH值、有机质、全氮、含水量等理化特征而影响了微生境,通过环境筛选和物种重排作用对固氮微生物群落进行综合调控,其中pH与土壤全氮(TN)发挥着关键作用。 展开更多
关键词 黄土高原 水蚀风蚀交错区 生物结皮演替 固氮微生物
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黄土干旱区电网工程水土流失机理及其治理方法研究——以宁夏地区为例
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作者 钱勇 韩利 +3 位作者 肖清明 纪文涛 吴杨 石元平 《江西农业学报》 CAS 2023年第7期143-152,共10页
选取干旱风沙区与黄土丘陵区为研究区域,基于风力侵蚀和水力侵蚀2种主要侵蚀模式,通过试验分析研究了电网工程水土流失的影响因子及其主要机理;采用土壤肥力提升技术及土壤保墒技术相结合的方式促进植被恢复,系统性提出了适用于宁夏地... 选取干旱风沙区与黄土丘陵区为研究区域,基于风力侵蚀和水力侵蚀2种主要侵蚀模式,通过试验分析研究了电网工程水土流失的影响因子及其主要机理;采用土壤肥力提升技术及土壤保墒技术相结合的方式促进植被恢复,系统性提出了适用于宁夏地区的水土流失治理方法,为推进宁夏地区电网生态高质量发展提供了理论支撑。 展开更多
关键词 黄土干旱区 电网工程 水土流失 水力侵蚀 风力侵蚀 植被恢复
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呼和浩特至杀虎口(蒙晋界)段公路水土流失与预测分析
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作者 陈雅楠 申书元 《陕西水利》 2023年第5期100-103,共4页
长距离线性道路工程施工周期长、扰动面积大,容易造成严重的水土流失,同时,由于工程所穿越地区的地质条件不同,需要分区讨论水土流失情况。以内蒙古自治区呼和浩特至杀虎口(蒙晋界)段公路为例,在实地调查与经验类比相结合的基础上,确定... 长距离线性道路工程施工周期长、扰动面积大,容易造成严重的水土流失,同时,由于工程所穿越地区的地质条件不同,需要分区讨论水土流失情况。以内蒙古自治区呼和浩特至杀虎口(蒙晋界)段公路为例,在实地调查与经验类比相结合的基础上,确定工程平原区及丘陵区的风蚀模数分别为1000 t/(km^(2)·a)和2000 t/(km^(2)·a),水蚀模数分别为500 t/(km^(2)·a)和3000 t/(km^(2)·a)。根据施工进度安排和监测结果 ,预测工程施工期造成的水土流失面积为1019.69 hm^(2),自然恢复期水土流失面积为375.48 hm^(2),工程建设期内共产生水土流失总量547914 t,其中新增流失量378487 t。 展开更多
关键词 水土流失预测 风蚀模数 水蚀模数 公路工程
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风水两相侵蚀研究现状及我国今后风水蚀的主要研究内容 被引量:40
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作者 海春兴 史培军 +1 位作者 刘宝元 严平 《水土保持学报》 CSCD 北大核心 2002年第2期50-52,56,共4页
土壤侵蚀的主要方式是风蚀和水蚀 ,对其研究历史较长 ,已经有了初步的认识。在我国 ,由于独特的季风气候和地理位置 ,风水两相侵蚀面积广布。风水两相侵蚀不是简单的风蚀加水蚀 ,而是一个相互作用呈周期循环的复杂体系 ,国内外关于风水... 土壤侵蚀的主要方式是风蚀和水蚀 ,对其研究历史较长 ,已经有了初步的认识。在我国 ,由于独特的季风气候和地理位置 ,风水两相侵蚀面积广布。风水两相侵蚀不是简单的风蚀加水蚀 ,而是一个相互作用呈周期循环的复杂体系 ,国内外关于风水两相侵蚀的研究较少。在阐述风水驱动因素的基础上 ,说明了我国一些基本的风水两相侵蚀类型 ,并对风水两相侵蚀的复杂性进行描述。今后在对这些类型研究的基础上 ,可进一步确立风水侵蚀交错带的范围及分布 ,并将其作为一个特殊的区域对待 。 展开更多
关键词 风蚀 水蚀 两相侵蚀 土壤侵蚀
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农牧交错带草地植被的水土保持作用研究 被引量:23
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作者 韩永伟 韩建国 +1 位作者 张蕴薇 王堃 《水土保持学报》 CSCD 北大核心 2004年第4期24-28,共5页
在农牧交错带以小麦地为对照,研究退耕建植草地植被及天然草地植被的水土保持作用。结果表明,退耕建植草地植被可以明显减轻土壤风蚀程度,并有利于土壤在雨季对降水的蓄积;天然草地植被与农田植被相比,可以较好地减轻水蚀的发生。
关键词 农牧交错带 草地植被 水土保持作用 风蚀 水蚀
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黄土高原北部水蚀风蚀交错带坡面降雨分析 被引量:6
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作者 黄金柏 付强 +2 位作者 王斌 安田裕 郑继勇 《农业工程学报》 EI CAS CSCD 北大核心 2011年第8期108-114,共7页
为探明黄土高原北部水蚀风蚀交错带的降雨特点,进而为该地区开展土壤侵蚀、开发利用降雨及地表径流的研究提供科学依据,该文对黄土高原六道沟流域5a(2006-2010年)雨季的坡面降雨进行了分析。采用BoxCarPro4.3软件对降雨数据在时间轴上... 为探明黄土高原北部水蚀风蚀交错带的降雨特点,进而为该地区开展土壤侵蚀、开发利用降雨及地表径流的研究提供科学依据,该文对黄土高原六道沟流域5a(2006-2010年)雨季的坡面降雨进行了分析。采用BoxCarPro4.3软件对降雨数据在时间轴上进行分割,分割时间间隔分别为3、5、10min和1h,分析了六道沟流域雨季的坡面雨强、降雨历时及降雨量的分布。结果表明,3、5、10min和1h时间间隔的最大雨强分别为2.2、2.08、1.68和0.7mm/min,各时间间隔5a内雨季所有降雨历时的平均雨强分别为0.12、0.09、0.06和0.03mm/min。随着单位时间间隔的增加平均降雨强度降低,各时间间隔的小雨强发生概率远高于大雨强发生概率。3min时间间隔雨强大于1mm/min、5min时间间隔雨强大于1mm/min、10min时间间隔雨强大于0.8mm/min以及1h时间间隔雨强大于0.4mm/min发生的概率分别为0.4%、0.2%、0.2%和0.1%。降雨历时小于30min的降雨事件占总降雨事件的近50%;降雨历时在2h以上的降雨事件约占总降雨事件的23%,其中降雨历时大于12h的降雨事件只占总降雨事件的2.6%。降雨量小于等于1mm的降雨事件占年均雨季降雨事件的近50%,但其总降雨量不足年均降雨量的7%;降雨量大于20mm的降雨事件年均5次,其降雨量占年均雨量超过20%。研究结果在一定程度上揭示了黄土高原北部水蚀风蚀交错带的坡面降雨特征。 展开更多
关键词 降雨 侵蚀 黄土高原 水蚀风蚀交错带 六道沟流域 雨强
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