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1.
Serious soil erosion has already resulted in degradation of the Loess Plateau of China. Soil erosion is commonly accompanied by extensive soil nutrient loss. Because of enrichment processes,sediment nutrient content is often higher than that of natural soil. The objective of this study is to determine the enrichments of organic matter and total nitrogen in sediment in hilly and gully loess areas on the Loess Plateau of China. Measurements of enrichment ratios (ER) of organic matter (EROM) and total nitrogen (ERTN) in sediment as affected by rainfall, slope gradient, tillage, and fertilization were made in the field under natural rainfall conditions. The results showed that the enrichment of clay in sediment resulted in the enrichment of organic matter (OM) and total nitrogen(TN) in sediment. The averages of sediment clay ER, EROM and ERTN for the various slope gradients were 1.77, 2.09 and 1.61, respectively. The soil erosive module was negatively correlated with EROM and ERTN. Our results indicate that measures to reduce soil erosion, i.e. reducing rainfall erosivity, decreasing soil slope gradient, decreasing fertilizer use, and using level trenches, may increase EROM and ERTN. Both quantity and quality of sediment yield should be considered when implementing erosion control measures. 相似文献
2.
Serious soil erosion has already resulted in degradation of the Loess Plateau of China. Soil erosion is commonly accompanied by extensive soil nutrient loss. Because of enrichment processes, sediment nutrient content is often higher than that of natural soil. The objective of this study is to determine the enrichments of organic matter and total nitrogen in sediment in hilly and gully loess areas on the Loess Plateau of China. Measurements of enrichment ratios (ER) of organic matter (EROM) and total nitrogen (ERTN) in sediment as affected by rainfall, slope gradient, tillage, and fertilization were made in the field under natural rainfall conditions. The results showed that the enrichment of clay in sediment resulted in the enrichment of organic matter (OM) and total nitrogen (TN) in sediment. The averages of sediment clay ER, EROM and ERTN for the various slope gradients were 1.77, 2.09 and 1.61, respectively. The soil erosive module was negatively correlated with EROM and ERTN. Our results indicate that measures to reduce soil erosion, i.e. reducing rainfall erosivity, decreasing soil slope gradient, decreasing fertilizer use, and using level trenches, may increase EROM and ERTN. Both quantity and quality of sediment yield should be considered when implementing erosion control measures. 相似文献
3.
Developing an effective approach to rapidly assess the effects of restoration projects on soil erosion intensity and their extensive spatial and temporal dynamics is important for regional ecosystem management and the development of soil conservation strategies in the future. This study applied a model that was developed at the pixel scale using water soil erosion indicators (land use, vegetation coverage and slope) to assess the soil erosion intensity in the Loess Plateau, China. Landsat TM/ETM+ images in 2000, 2005 and 2010 were used to produce land use maps based on the object-oriented classification method. The MODIS product MOD13Q1 was adopted to derive the vegetation coverage maps. The slope gradient maps were calculated based on data from the digital elevation model. The area of water soil-eroded land was classified into six grades by integrating slope gradients, land use and vegetation coverage. Results show that the Grain-To-Green Project in the Loess Plateau worked based on the land use changes from 2000 to 2010 and enhanced vegetation restoration and ecological conservation. These projects effectively prevented soil erosion. During this period, lands with moderate, severe, more severe and extremely severe soil erosion intensities significantly decreased and changed into less severe levels, respectively. Lands with slight and light soil erosion intensities increased. However, the total soil-eroded area in the Loess Plateau was reduced. The contributions of the seven provinces to the total soil-eroded area in the Loess Plateau and the composition of the soil erosion intensity level in each province are different. Lands with severe, more severe and extremely severe soil erosion intensities are mainly distributed in Qinghai, Ningxia, Gansu and Inner Mongolia. These areas, although relatively small, must be prioritised and preferentially treated. 相似文献
4.
黄土高原沟道流域产沙过程的初步分析 总被引:21,自引:6,他引:21
黄土高原的主要产沙地区是河口镇至龙门黄河干流两侧和泾、洛、渭河中上游,产沙时间集中7—9月或一、二次暴雨期。流域产沙量与河道断面输沙量基本一致。产沙最与降雨量加径流深组合因子成正比相关,并随坡度增大而增加,坡度超过25—28度水流面蚀强度减弱。砂黄土的可蚀性最大,黄土其次,粘黄土最小。灌木林的防蚀效果最好。近三十年来黄土高原的产沙量进一步增加,其中由人类活动而增加的沙量约占黄河平均输沙量的23~35%。沟道流域的产沙过程具有垂直分带规律。沟间地以细沟侵蚀产沙为主,沟谷地是水力、重力和洞穴侵蚀综合作用的场所。黄土丘陵区沟谷地的产沙量此沟间地大59.0%左右;黄土塬区产生的泥沙绝大部来自沟谷地。 相似文献
5.
黄土丘陵区林区开垦地土壤退化研究 总被引:4,自引:2,他引:4
以林地及其开垦地土壤颗粒组成、有机质含量、>0 .2 5mm水稳性团粒含量、土壤容及土壤抗强度等性质为基础 ,分析比较了林地及林地开垦后侵蚀 10年内土壤退化问题。研究结果表明 ,林地一旦开垦后随侵蚀年限的增长 ,土壤性质逐年退化 :侵蚀 10年土壤粘粒和物理性粘粒比林地分别减少 2 .74 %和 3.0 1% ,粗粉粒增加 ,土壤颗粒组成粗化 ;有机质含量从林地的 4 5 .2 g/kg下降到侵蚀 10年开垦地的 9.8g/kg ,>0 .2 5mm水稳性团粒含量从林地的 6 0 .19%下降到侵蚀第 10年开垦地的 2 8.6 0 % ,土壤容重增大 ,土壤的抗剪强度从 0 .12 3kg/cm3 下降到0 .0 74kg/cm3 ;并将林地和开垦地土壤性质与土壤侵蚀强度进行相关分析发现 ,>0 .2 5mm水稳性团粒含量对土壤侵蚀强度影响最大 ,偏相关系数为 0 .972 8,其次为土壤粗粉粒和抗剪强度 ,偏相关系数为 0 .8879和 0 .6 0 2 0 ,说明了林地开垦后侵蚀土壤的退化 ,恶化了土壤侵蚀环境 ,造成土壤侵蚀更易发生 ,加剧着土壤侵蚀强度 ,表明恢复和重建森林植被在防治黄土高原土壤侵蚀中具有举足轻重的作用 相似文献
6.
三峡库区坡地生态工程控制土壤养分流失研究——以等高植物篱为例 总被引:46,自引:7,他引:39
三峡库区紫色土陡坡地径流小区大雨强模拟降雨实验表明,以等高植物篱为代表的坡地生态工程能相当有效地减少坡面侵蚀量、径流量和坡面氮、磷养分损失量。由于植物篱和带间覆盖稿秆对径流的阻滞作用使坡面径流与表土的混合、养分溶解交换过程更加充分,径流携带的养分流失成为有效养分流失的主要方式。通过施肥改善土壤渗透特性、抗蚀性及带间覆盖能明显提高控制坡面产沙、产流和养分流失。等高植物篱-农作系统各种处理中以施用有机肥和配施有、无机肥-带间麦秆覆盖两种处理效果最好。 相似文献
7.
不同坡面植被空间布局对坡沟系统产流产沙影响的实验 总被引:5,自引:0,他引:5
植被在有效控制水土流失、改善生态环境中具有重要作用。为探讨坡面不同植被覆盖度、不同植被空间布局对坡沟系统侵蚀产沙的影响,以4 m长坡面(坡度为20°)和3 m长沟坡(坡度为50°)组成的坡沟系统为研究对象,采用不同放水流量(3.2 L/min、5.2 L/min)的放水冲刷实验,研究了不同放水流量、不同植被覆盖度、不同植被布设部位对坡-沟系统及沟坡侵蚀产沙的影响。结果表明,在实验条件下,不同植被布设部位在相同放水流量、相同植被覆盖度条件下对坡沟系统侵蚀产沙有明显影响,而对产流量无明显影响;沟坡部分侵蚀产沙量不随坡面植被覆盖度的增大而减小,相反呈增大趋势。说明在实验条件下,对坡沟系统而言,仅在坡面部分布设植被,尽管能在一定程度上减少坡沟系统侵蚀产沙,但并不能有效减小沟坡部分的侵蚀产沙,甚至引起沟坡部分侵蚀产沙的增大。因此,水土流失治理过程中采取有效措施进行坡沟兼治将是减少水土流失的有效手段。 相似文献
8.
黄河中游土壤侵蚀与下游古河道三角洲演化的过程响应 总被引:10,自引:7,他引:10
根据黄土高原土壤侵蚀的周期特点,结合华北平原古河道,古三角洲的演化过程,应用泥沙输移的过程响应,分析了晚更新世以来黄河中游黄土高原土壤侵蚀与下游古河道,三角洲演化的关系,在人类历史之前,黄土高原土壤侵蚀基本上遵循自在生态环境演化规律,强裂侵蚀期发生在干冷向湿湿气候转化的过渡期,在强裂侵蚀的初期是古道形成期,强烈侵蚀期发生在干冷向温湿气候转化的过渡期,在强裂侵蚀的期是古河道形成期,强烈侵蚀的外营力迭加了人为作用,黄河下游河游泳以改道,三角洲横向扩展发生在强烈侵蚀的衰退期,人类历史时期,土壤侵蚀的外营力迭加了人为作用,破坏了地质历史时期的规律性,土壤侵蚀强度越来越强,基本上按照旱涝变化频率而演化,干冷期降雨不均匀系数增加,土训侵蚀加重,径流量较少,河床以淤积为主,是古河道形成期,正常年黄河泥少输移比接近于一,是三角洲进积期,温湿期降雨量增加,径流量加大,下游河流改道,三角洲横向发展。 相似文献
9.
三峡库区紫色土坡地养分状况及养分流失* 总被引:33,自引:3,他引:33
紫色土是三峡库区移民安置区的主要坡地土壤。本研究采用典型区域调查,代表性土壤剖面养分分析,结合实验小区人工降雨的方法,初步研究了发育于侏罗纪紫色砂泥岩母质上紫色土的养分状况、养分流失特点、过程及影响养分流失因素。 相似文献
10.
针对陇中黄土丘陵沟壑区土壤水蚀过程复杂且难以有效预测的问题,以定西市安家沟水土保持试验站2005—2016年1~12月人工草地径流场试验数据为主要来源,将流域月降雨量、月侵蚀性降雨量、月径流量、月降雨强度、径流场面积、径流场坡度、土壤砂粒含量、土壤粘粒含量8个因子作为输入因子,月土壤水蚀量作为输出,运用偏最小二乘法(Partial Least-Squares
Regression,PLSR)和长短期记忆(Long Short-Term Memory,LSTM)循环神经网络建立人工草地土壤水蚀预测模型,并利用BP(Back Propagation)、RNN(Recurrent Neural
Network)、LSTM常见神经网络模型,对模型的有效性进行评估。结果表明:PLSR将模型8个输入因子减少为4个,从而有效解决LSTM神经网络模型对样本数量要求过高的问题; PLSR和LSTM神经网络模型的结合可以有效提高模型对人工草地土壤水蚀过程的预测精度和收敛速度,预测结果的平均相对误差小于4%,相关系数高于其他3种神经网络模型,而迭代次数、均方根误差和平均绝对误差均低于其他3种模型;研究发现坡度对人工草地土壤水蚀过程影响较为明显,降雨量小于25 mm时,人工草地土壤水蚀量不会随坡度增加而明显增长,但当降雨量超过25 mm时,人工草地土壤水蚀量会随坡度明显增加。 PLSR LSTM神经网络土壤水蚀预测模型可以准确预测陇中黄土丘陵沟壑区人工草地土壤水蚀量,为该地区水土流失的准确预报提供新的思路和方法。 相似文献
11.
黄土高原地区坡面土壤侵蚀具有明显的垂直分带性,溅蚀片蚀带是坡面侵蚀的最上方地带,研究片蚀过程含沙量变化有助于阐明坡面侵蚀规律。本文采用人工模拟降雨试验方法研究了黄土坡面片蚀稳定含沙量及其影响因素;试验处理包括2种质地的黄土(塿土和黑垆土),2个雨强(90和120 mm/h)和4个坡度(10°、15°、20°和25°)。结果表明:在不同质地黄土、降雨强度和坡度条件下,水流含沙量均呈现先减小后平稳的规律;稳定含沙量与土壤颗粒体积分形维数、降雨强度和坡度呈幂函数关系,稳定含沙量随土壤颗粒体积分形维数的增大而减小,随降雨强度和坡度的增大而增大,影响程度依次为土壤颗粒体积分形维数、降雨强度和坡度;所分析的水动力学指标中单位水流功率与稳定含沙量关系最密切,降雨强度对稳定含沙量的影响大于单位水流功率。 相似文献
12.
Serious soil erosion is one of the major issues threatening sustainable land use in semiarid areas, especially in the Loess Plateau of China. Understanding the effects of land use on soil and water loss is important for sustainable land use strategy. Two sub-catchments: catchment A (CA) and catchment B (CB) with distinct land uses were selected to measure soil moisture, runoff and soil nutrient loss in Da Nangou catchment of the Loess Plateau of China. The effects of land use patterns on runoff and nutrient losses were analyzed based on soil moisture pattern by kriging and soil nutrients using multiple regression model. The results indicated that there were significant differences in runoff yield and soil nutrient losses between the two sub-catchments. With similar land uses, the CA produced an average sediment yield of 49 kg ha-1 and 22.27 kg ha-1 during two storm events.Meanwhile, there was almost no runoff in the CB with dissimilar land uses during the same events.Buffer zones should be established to re-absorb runoff and to trap sediments in catchment with similar land use structure such as the CA. Moreover, land use management strategy aiming to increase the infiltration threshold of hydrological response units could decrease the frequency of runoff occurrence on a slope and catchment scale. 相似文献
13.
14.
Serious soil erosion is one of the major issues threatening sustainable land use in semiarid areas, especially in the Loess Plateau of China. Understanding the effects of land use on soil and water loss is important for sustainable land use strategy. Two sub-catchments: catchment A (CA) and catchment B (CB) with distinct land uses were selected to measure soil moisture, runoff and soil nutrient loss in Da Nangou catchment of the Loess Plateau of China. The effects of land use patterns on runoff and nutrient losses were analyzed based on soil moisture pattern by kriging and soil nutrients using multiple regression model. The results indicated that there were significant differences in runoff yield and soil nutrient losses between the two sub-catchments. With similar land uses, the CA produced an average sediment yield of 49 kg ha-1 and 22.27 kg ha-1 during two storm events. Meanwhile, there was almost no runoff in the CB with dissimilar land uses during the same events. Buffer zones should be established to re-absorb runoff and to trap sediments in catchment with similar land use structure such as the CA. Moreover, land use management strategy aiming to increase the infiltration threshold of hydrological response units could decrease the frequency of runoff occurrence on a slope and catchment scale. 相似文献
15.
在降雨侵蚀中黄土地面坡度变化的高分辨研究 总被引:3,自引:0,他引:3
运用近景数字摄影测量方法,获得在不同人工降雨时段黄土模拟小流域高精度、高分辨率的DEM数据,并以地面坡度及其组合形态的变化为切入点,通过对比分析和理论验证,探讨黄土小流域降雨侵蚀过程中地面坡度变化特征,在更宏观空间尺度和高分辨的时间尺度上,揭示黄土地貌形成与发育特征。研究结果表明:1)在较好地维持黄土的土壤结构与抗蚀特征,较真实地模拟自然降雨的条件下,模拟流域地面的变化能很好地反映自然地面的发育进程。2)在降雨侵蚀过程中,黄土小流域地面坡度呈现持续性变化规律,平均坡度在地貌发育幼年期呈加速增长趋势,到了壮年期增长幅度呈递减性变化;坡度组合以侵蚀临界角度为轴点呈持续逆转变化,侵蚀临界坡度单元所占面积基本保持稳定。3)黄土地面坡度的变化,一方面受地表物质被侵蚀和迁移程度的影响,另一方面,也是沟间地、沟坡地和沟底地空间面积重新分配的结果。 相似文献
16.
为了明确土壤性质对坡面侵蚀方式作用机制的影响,本研究采用室内模拟降雨试验,选取黄土高原典型暴雨强度,在不同坡度条件下,对两种黄土的坡面侵蚀方式、形态特征、产流产沙过程及其相应径流流速的变化规律进行了研究。结果表明,绥德土径流量明显高于安塞土,10º、15º和20º时前者的平均径流量分别比后者高出51.1%、55.5%和63.0%,且前者更易形成细沟,使得其平均含沙量和平均产沙率分别是后者的1.14~3.59倍和2.50~8.48倍。在片蚀阶段,与绥德土相比,安塞土的含沙量较高,后者的平均含沙量是前者的1.24~1.73倍,但两种土壤的含沙量和产沙规律相同,均表现为先快速增加到最大值,然后逐渐降低到相对稳定状态,该现象证明片蚀的初期阶段主要受控于径流输沙能力,后期受径流的剥蚀能力控制。在细沟侵蚀阶段,绥德土细沟发育以沟头溯源侵蚀为主,崩塌作用频繁,该侵蚀形式不仅控制着细沟形态的总体特征,也导致含沙量和产沙率均急剧增加,该阶段平均含沙量是相应片蚀阶段的3.25~4.34倍。细沟沟口下方坡面存在明显的泥沙沉积带,表明细沟集中水流的搬运能力远高于坡面漫流,细沟侵蚀主要受径流输沙能力控制。两种土壤的径流流速均表现为坡面下部高于坡面上部,径流稳定后高于径流稳定前,总体来看,绥德土和安塞土上坡和径流稳定后的平均流速分别是下坡和径流稳定前的1.4倍、1.25倍和1.75倍、1.29倍,此外细沟侵蚀或侵蚀强度与微地貌形态之间的互馈作用对径流流速也有较大影响。 相似文献
17.
In arid and semiarid rangelands, soil erosion has been widely considered an important soil degradation process and one of the main factors responsible for declining soil fertility. In this study, we determined the sediment production and the enrichment ratios of clay, organic C, and total N by using rainfall simulations on runoff plots (0.60 × 1.67 m) in three plant communities of northeastern Patagonia: grass (GS), degraded grass with scattered shrubs (DGS), and degraded shrub steppes (DSS). Our results clearly indicate that spatial variability in soil loss rate and enrichment process exists as a result of the local differences in both plant composition and soil surface characteristics. Sediment production was significantly lower in the GS (14.2 g m−2) compared with the DGS and DSS (38.2 and 51.5 g m−2, respectively). In the GS, the enrichment ratio of clay was significantly greater (3.9) and enrichment ratio of organic C was lower (3.1) than in the DGS and the DSS, though differences in enrichment ratios of total N were not significant. The high rate of soil loss and nutrients through overland-flow may limit the opportunities that promote the pathway from DGS back to GS community, favoring the dominance of shrubs. 相似文献
18.
黄土坡面发育平稳的细沟流水动力学特性 总被引:3,自引:0,他引:3
由于天然降雨存在间歇性,常会出现前期降雨已经发育成型的细沟又经历了二次降雨的情况,但目前对这一条件下细沟流水动力学特性的研究还很少。本文采用室内人工模拟降雨的方法,通过间隔24 h两场不同雨强的降雨,研究黄土坡面经过第一场降雨形成比较稳定的细沟之后,在第二场较小雨强降雨过程中,细沟发育平稳时的流水动力学特性。研究结果表明:①细沟流速大小受坡长影响并不显著,相同坡度下不同坡长的细沟流平均流速差别不大;细沟流速受细沟形态影响较大,25°坡面比20°坡面细沟密度大,流速相对较小;②剪切力大小受流量和坡度共同作用;雷诺数与水流剪切力呈显著正相关关系,弗洛德数与水流剪切力则呈显著负相关关系;③随着距坡顶距离的增加,阻力系数呈增大趋势;第二次降雨强度相同,坡度大的坡面上阻力系数也较大,可见阻力系数与径流量和坡度的关系十分紧密;阻力系数与雷诺数之间呈显著正相关关系,雷诺数的增加意味着平均流速增大,水流强度增大导致细沟形态更为复杂,水流受到的阻力增大;虽然雷诺数增加同时也意味着水流深度增大,但从试验结果可见,陡坡条件下阻力系数受流速的影响较大。 相似文献
19.
黄土丘陵沟壑区坡面产流能力及影响因素研究 总被引:10,自引:2,他引:8
坡面是黄土高原土壤侵蚀的重要来源,本文以团山沟流域的7个径流场9年的降雨-径流事件,对不同坡面和降雨特征下径流系数随坡面的变化进行了研究。结果表明,研究区存在降雨强度大、持续时间短的A型雨、降雨强度小持续时间长的C型雨以及居于二者之间的B型雨。不同雨型下坡面产流能力大小为A型雨>B型雨>C型雨,而产流尺度效应则为C型雨>B型雨>A型雨。坡度一定,A型雨下随着坡面长度增加产流能力先增加后减小,径流系数峰值出现在坡长为40m的坡面上,B型和C型雨坡面产流能力随坡面长度的增加而增加;坡长一定,峁坡区坡面产流能力随着坡度的增加而增加;A型雨下沟坡产流能力最小,而在B型和C型雨下,坡面产流能力相对有所提高。 相似文献
20.
黄土高原土壤侵蚀规律研究工作回顾 总被引:16,自引:1,他引:16
1950年以来,黄土高原土壤侵蚀规律研究工作已建立了完整的分类系统,进行了侵蚀区划,查明了黄河泥沙及其中的粗泥沙来源。定量评价了各自然因子和人为因子与侵蚀量的关系。黄河自古多沙,而近期更加强烈。指出了过去研究工作中的主要问题。 相似文献