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1.
黄河中游多沙粗沙区水沙变化趋势及其主控因素的贡献率 总被引:5,自引:0,他引:5
随着气候变化和人类活动影响加剧,黄河中游多沙粗沙区的水沙变化剧烈,因此研究影响黄河中游多沙粗沙区径流量和输沙量的驱动因素对预测未来水沙变化具有重要意义。本文选取Mann-Kendall趋势检验法,Pettitt突变点检验法,位置、尺度、形状的广义可加模型以及累积量斜率变化率比较法对黄河中游多沙粗沙区15个水文站控制流域1956-2010年的年降水量、年径流量以及年输沙量变化特征及其贡献率进行分析,确定影响黄河中游多沙粗沙区径流量和输沙量变化的主要原因。结果表明:① Mann-Kendall趋势检验在5%的显著性水平下,表明降水量虽呈减少趋势但并不显著,径流量和输沙量则有显著的减少趋势;② Pettitt突变点检验得出所研究区域径流量和输沙量的突变年份在1972年、1985年以及1996年左右;③ GAMLSS模型分析结果同样表明降水的均值不随时间发生变化,但降水的方差有减小的趋势;④ 通过累积量斜率变化率比较法得出,人类活动对窟野河流域径流输沙的影响大于无定河流域。通过分析黄河中游多沙粗沙区径流量和输沙量变化的原因,可为黄河中游多沙粗沙区水资源合理分配提供一定的理论支持。 相似文献
2.
黄河中游多沙粗沙区(渭河段)土地利用对植被盖度的影响 总被引:3,自引:0,他引:3
针对黄河中游多沙粗沙区植被变化及其影响因素研究薄弱环节,利用MSS、TM和环境星CCD等多源遥感数据,运用相邻图幅递进回归分析消除时相差异后反演植被盖度,人机交互式解译土地利用,研究黄河中游多沙粗沙区(渭河段) 1978-2010 年间3 个时期土地利用对植被盖度的影响。结果表明:(1) 研究区内植被盖度已显著恢复,植被变化有较强的波动性和异质性;(2) 土地利用已发生明显变化,土地利用变化有较强的时空分异特征;(3) 土地利用转型和渐变均有利于促进植被盖度恢复,但土地利用转型对植被恢复的贡献更突出;(4) 土地利用对植被盖度的影响有一定的复杂性和差异性,区域植被持续恢复迫切需要有针对性的土地利用转型与生态系统优化策略。 相似文献
3.
黄河中游的侵蚀环境与植被恢复前景 总被引:3,自引:0,他引:3
黄土高原的土壤侵蚀和生态环境问题世界瞩目。在保证蓄水拦沙效益基础上,提高林、草保存率,使植被恢复得到最佳的生态效益,是黄土高原环境整治中亟待解决的关键问题。本文根据黄土高原不同空间地理位置的流域、重点县水文监测资料,研究了气候、地表覆被、土地利用方式的变化对流域侵蚀产沙的影响以及流域产沙与地理环境要素间的耦合关系,定量分析了黄土高原,特别是多沙粗沙区自然与人文要素对流域侵蚀产沙的综合影响和因子的权重分析,并利用天然降雨植被生态需水适宜性系数和林、草恢复度的概念,重点探讨了黄河中游主要产沙区、尤其是多沙粗沙区退耕还林等土地利用方式宏观格局变化与植被恢复前景。研究表明,在植被生长主要依赖天然降雨的黄土高原,生物措施(植被类型)要与自然带相适应,应根据植被恢复度和植被生态需水适应性系数来进行宏观植被的恢复与实施。这是目前在不断增长的人口压力下,进行水土保持,解决好经济发展与环境保护、减少垦殖率与保证老百姓的基本农田、造林种草与植被类型的自然适应性、以及控制泥沙作用中生物措施与工程措施合理布局等诸多矛盾的关键所在。 相似文献
4.
土壤侵蚀及其影响因素空间相关性分析 总被引:4,自引:0,他引:4
土壤侵蚀是影响区域生态环境的重要因素,它受气候、地形地貌、土壤、植被和人类活动等因素的影响.为寻找流域上土壤侵蚀的主导影响因子,收集了黄河流域气候、地形、植被、土壤等数据,通过引入信息熵原理分析了各个影响因子与土壤侵蚀的空间相关性.结果表明,在黄河流域1:10万地图比例尺条件下.各因子对土壤侵蚀影响的大小排序为:①水蚀区,加权降雨量>地形起伏度>植被覆盖度>土壤类型>沟壑密度;②风蚀区.地形起伏度>风蚀气候因子>植被覆盖度>土壤类型>沟壑密度;③冻融区,沟壑密度>地形起伏度>气温变化率>植被覆盖度>土壤类型.该研究在定性变量和定量变量之间建立了定量的空间相关性分析,研究结果给出了影响黄河流域水力侵蚀、风力侵蚀、冻融侵蚀的主导性因子,可为流域土壤侵蚀过程研究和水土保持决策提供参考. 相似文献
5.
黄河中游多沙粗沙区水沙变化原因分析 总被引:17,自引:1,他引:16
本文通过黄河中游多沙粗沙区21条面积逾1000km^2的独流入黄支流的实测资料,分别建立了精度较高的降水,径流,输沙统计模型,并对水沙变化数量进行了计算分析,揭示了气候波动和人为原因对水沙变化影响的相对权重。 相似文献
6.
黄河中游悬移质泥沙粒径与流域环境的关系 总被引:4,自引:0,他引:4
以黄河中游多沙粗沙区为研究区,在流域泥沙粒径、降雨、地面物质组成、地面形态、植被和高含沙水流等资料采集的基础上,采用“环境要素法”和多元回归分析来阐明泥沙粒径空间分异的机理。研究表明,随降雨不均匀系数的减小,断面最大含沙量的减小,流域内黄土覆盖面积的增大,以及植被盖度的增大和沟谷密度的减小,悬移质泥沙粒径趋于变细,反之,趋于变粗。其中,流域地面物质对泥沙粒径组成起最重要的控制作用,其次是植被,高含沙水流、沟谷密度和降雨影响作用相对较小。 相似文献
7.
基于RS的岷江流域土壤侵蚀变化及其驱动力分析 总被引:2,自引:0,他引:2
依据1995年、2000年土壤侵蚀遥感数据并结合2005年实地调查资料,研究岷江流域土壤侵蚀演变规律及其驱动力。研究结果表明:1)2000年岷江流域土壤侵蚀面积为19 907.7 km2(比1995年减少369.6 km2),占流域面积的43.77%,土壤侵蚀量为8 943.26万t,平均侵蚀模数1 966 t/(km2.a),以水蚀和中度侵蚀为主。2)选择降雨变化、土地利用变化、植被覆盖度变化3个自然因素和人口密度、万元GDP(作为经济发展指标)2个社会发展指标作为研究区土壤侵蚀变化的驱动因素。结果表明:2000年降雨侵蚀力对土壤侵蚀的影响是1995年的71%;森林覆盖率每增加1%,土壤侵蚀模数减少0.4%~7%,平均减少53 t/(km2.a);林地、草地面积之和与土壤侵蚀面积呈明显的线性相关,旱地面积与土壤侵蚀面积呈二次函数关系;土壤侵蚀面积、土壤侵蚀量与万元GDP呈指数关系;单位人口密度和县域土壤侵蚀面积与土壤侵蚀量均呈幂指数关系。 相似文献
8.
基于TETIS模型的黑土区乌裕尔河流域径流与侵蚀产沙模拟研究 总被引:1,自引:0,他引:1
为科学地认识中国东北黑土区流域土壤侵蚀特征,探讨TETIS模型在该区的适用性,本文以乌裕尔河流域为例,利用1971-1987年日径流与泥沙实测数据对TETIS模型进行了校正与验证,进而分析了流域土壤侵蚀强度特征及其与坡度、土地利用方式的关系。研究结果表明:TETIS模型在乌裕尔河流域适用性好,日径流与日输沙量的纳什效率系数在0.52~0.70之间,决定系数在0.60~0.71之间,体积误差均不超过15%。流域平均侵蚀模数为397.2 t/(km2·a),流域以微度和轻度侵蚀为主,约90%的产沙来自于坡面。平均土壤侵蚀模数随坡度的增大而增大,流域侵蚀量主要来自于0°~5°坡面。不同土地利用方式具不同的土壤侵蚀模数,耕地土壤侵蚀模数最大,达556.3 t/(km2·a)。坡度较大的耕地和植被覆盖度较低的区域是水土流失治理的重点。研究表明,TETIS模型在黑土区模拟土壤侵蚀产沙应用前景好,可为研究区制定水土保持措施提供科学依据。 相似文献
9.
不同时空尺度下沟壑对流域侵蚀产沙的影响——以黄土丘陵沟壑区岔巴沟流域为例 总被引:1,自引:0,他引:1
基于DEM,分别以不同的沟壑发育所需的汇水面积为阈值,提取岔巴沟流域等6个不同空间尺度流域的沟壑.并求出不同级别沟壑的差值.结合黄河子洲观测站多年的水沙观测资料,分析不同级别的沟壑及沟壑的不同部位在不同时间尺度下对流域侵蚀产沙的影响.分析结果表明:沟壑密度并不是简单地随着流域面积的增大而减小.沟壑密度的空间尺度效应与所提取沟壑的级别有关;黄土丘陵沟壑区梁峁坡、沟坡的次暴雨产沙量占流域产沙总量的比重与降雨特性有关;重力侵蚀多发生在毛沟的中、上部及沟头处,而支沟、干沟主干道的沟坡比较稳定,且其发生的重力侵蚀对流域产沙的影响多为"无效"部分;沟壑发育汇水面积的阈值为1500、1800、2000个栅格提取的沟壑对流域侵蚀产沙的作用较大,同时沟壑对流域侵蚀产沙的影响与时间尺度有关,在多年平均尺度下,高级别沟壑只起到泥沙输送通道的作用. 相似文献
10.
黄土高原多沙粗沙区侵蚀模型探讨 总被引:23,自引:4,他引:19
国内外曾研究出不同类型的坡面侵蚀计算模型,但还没有一个成熟的流域侵蚀计算模型,至今流域侵蚀量仍以输沙量替代。本文充分利用黄河中游不同区域具有大量淤地坝的条件,再通过侵蚀影响因素机理的分析、在侵蚀形态类型区的划分等基础上探讨侵蚀变权模型的建设。首先选择了155个“闷葫芦”淤地坝,采集每个坝的年均淤积量,以及相应流域的侵蚀影响因素:植被盖度、降雨量、沟谷密度、切割深度、地表组成物质、>15°的坡耕地面积比等资料,采用变权形式,建立侵蚀强度宏观估算模型。最后用年降水量与年输沙量的关系对模型进行改进。 相似文献
11.
AbstractSmall dams fragment river landscapes, disrupting channel connectivity and impacting water quality and quantity. Although they impound volumetrically less total water than large dams, the ubiquity of small dams suggests their cumulative impacts could be significant. Documenting the distribution and characteristics of small dams is necessary to understanding and mitigating their impacts. In this study, we compare datasets of small dams in Oregon, compile a new comprehensive dataset, and document geographic variations in small dam distributions between different ecoregions. We used Oregon Water Resources Department dam and Oregon Department of Fish and Wildlife fish passage barrier datasets to compare dam heights and contributing drainage areas between different ecoregions. Over 61% of Oregon’s land area is above one or more small dam. We highlight the location of Oregon’s small dams at valley margins, transition zones between flat plains and mountains, and areas of high population density. Given the hidden nature of small dams, evaluation of small dam impacts using public imagery is not effective. However, knowledge of small dam distributions given their association with landforms can aid in finding unrecorded dams, assessing approaches for evaluating their geomorphic impacts, and informing their management. 相似文献
12.
梯田建设和淤地坝淤积对土壤侵蚀影响的定量分析 总被引:8,自引:0,他引:8
为了研究梯田建设和淤地坝淤积对流域土壤侵蚀的影响,本文首先建立了包含梯田、坡耕地、陡坡草地以及坝地在内的黄土高原丘陵沟壑区流域简化模型,并定义了流域的先锋期、过渡期以及顶级期三个状态,使用修正通用土壤流失方程(RUSLE) 分析了不同时期的流域土壤侵蚀模数。结果显示:先锋期与顶级期是流域水土保持治理的极限状态,先锋期峁边线上部土壤侵蚀模数为299.56 t×hm-2×a-1,下部土壤侵蚀模数为136.64 t×hm-2×a-1,平均侵蚀模数为229.74 t×hm-2×a-1;顶级期峁边线上部土壤侵蚀模数为39.10 t×hm-2×a-1,下部土壤侵蚀模数为1.10 t×hm-2×a-1,平均侵蚀模数为22.81 t×hm-2×a-1;在过渡期,随着梯田面积比例的增加,峁边线上部土壤侵蚀模数呈指数减少,而随着淤积高度的增加,峁边线下部土壤侵蚀模数呈线性减少,文章最后对这一结论进行了实证分析。 相似文献
13.
地貌格局与流域侵蚀产沙过程关系定量分析——以黄河中游河龙区间为例 总被引:2,自引:0,他引:2
以河龙区间42个流域为对象,在流域地貌格局信息提取和侵蚀产沙过程特征指标计算及其相互关系分析的基础上,探讨地貌格局对流域侵蚀产沙过程的影响。结果表明:①在河道系统水平,河流数量、长度等几何特征指标和河流分叉率(Rb12)、分级率(Rd32)、相邻级别间的河流长度比等形状特征指标与流域侵蚀模数显著相关;②在流域系统水平,坡度粗糙度、相对高差、圆度比、高长比是影响流域侵蚀产沙过程的主要指标,其中坡度粗糙度是最根本的解释变量;③各地貌格局因子间相互作用复杂,且对侵蚀过程的影响要强于泥沙输移过程,其通径分析模型对流域侵蚀模数、输沙模数和泥沙输移比变化的解释度分别为65%、33%和20%。这对正确认识影响流域侵蚀产沙过程的格局因素和建立准确的过程模型,具有重要参考价值。 相似文献
14.
The area that the railway will cross is a region with the main physiognomies of desert and Gobi, with a most fragile ecological environment. It is also a region that is highly susceptible to man-made disturbance. The construction of railway will intensify soil erosion along the railway line to a certain degree. The map of soil erosion conditions in the section from Liugou to Dunhuang City in the range of 10 km each side along the line was compiled by using the techniques of remote sensing and geographic information system (GIS). Based on analysis of the status of desertification and the influence of the railway construction projects, the changes of the types, intensities and the total amount of the soil erosion caused by the construction were predicted. 相似文献
15.
1 Introduction UNCCD (United Nations Convention to Combat Desertification) defines desertification as land degradation in arid, semi-arid and dry sub-humid areas resulting from various factors, including climatic variations and human activities (Agenda 21… 相似文献
16.
我国西部地区生态地理区域系统与生态建设战略初步研究 总被引:24,自引:3,他引:24
生态地理区域系统是根据代表自然界的生物和非生物要素地理相关性的比较研究和综合分析,按照自然界的地域分异规律,划分或合并而形成不同等级的区域系统。其主要研究的对象是自然要素的空间格局,及其与自然资源的匹配。生态地理区域系统所体现的温度、水分等立地条件地域差异,是认识生态环境的宏观框架,可以也应该成为制定治理措施的基础,对植被的恢复和保护有重要的指导意义。我国西部在生态上受到西北地区的沙漠化和盐碱化,黄土高原、西南地区的土壤侵蚀,青藏高原的草场退化,西南地区的滑坡、泥石流等的胁迫。管理上也存在许多问题,如盲目的退耕还林,盲目强调植树造林等。因此,西部地区的生态建设在认识自然环境的基础上,解决管理上的问题,包括在指导思想上的误解,即“生态建设 =种树”,“退耕必定还林”;局面上避免开发的无序状态 ;工作措施上,则要防止“一刀切”的方式。本文综合西部地区的温带、水分、植被、土壤等因素,将西部地区生态地理区域系统划分 8个温度带,2 5个自然区。通过综合西部地区的环境胁迫特点,植被恢复和保护与自然环境和生态区域系统的关系,从西部地区的生态地理区域系统,合并构成西部地区的生态建设格局的 6个区域,并且提出各个区域生态建设的主要措施。 相似文献
17.
To reduce the hazards from debris flows in drainage basins burned by wildfire, erosion control measures such as construction of check dams, installation of log erosion barriers (LEBs), and spreading of straw mulch and seed are common practice. After the 2002 Missionary Ridge Fire in southwest Colorado, these measures were implemented at Knight Canyon above Lemon Dam to protect the intake structures of the dam from being filled with sediment. Hillslope erosion protection measures included LEBs at concentrations of 220–620/ha (200–600% of typical densities), straw mulch was hand spread at concentrations up to 5.6 metric tons/hectare (125% of typical densities), and seeds were hand spread at 67–84 kg/ha (150% of typical values). The mulch was carefully crimped into the soil to keep it in place. In addition, 13 check dams and 3 debris racks were installed in the main drainage channel of the basin.The technical literature shows that each mitigation method working alone, or improperly constructed or applied, was inconsistent in its ability to reduce erosion and sedimentation. At Lemon Dam, however, these methods were effective in virtually eliminating sedimentation into the reservoir, which can be attributed to a number of factors: the density of application of each mitigation method, the enhancement of methods working in concert, the quality of installation, and rehabilitation of mitigation features to extend their useful life. The check dams effectively trapped the sediment mobilized during rainstorms, and only a few cubic meters of debris traveled downchannel, where it was intercepted by debris racks.Using a debris volume-prediction model developed for use in burned basins in the Western U.S., recorded rainfall events following the Missionary Ridge Fire should have produced a debris flow of approximately 10,000 m3 at Knight Canyon. The mitigation measures, therefore, reduced the debris volume by several orders of magnitude. For comparison, rainstorm-induced debris flows occurred in two adjacent canyons at volumes within the range predicted by the model. 相似文献
18.
梯田建设和淤地坝淤积对土壤侵蚀影响的定量分析(英文) 总被引:3,自引:1,他引:2
To study the influences of terraced field construction and check-dam siltation on soil erosion of a watershed,we built a simplified watershed model for the Loess Plateau hilly-gully region including terraced fields,slope farmlands,steep-slope grasslands,and dam farmlands,and defined three states of watershed(i.e.,pioneer,intermediate,and climax stages,respectively).Then,the watershed soil erosion moduli at various stages were studied by using a revised universal soil loss equation.Our results show that the pioneer and climax stages are the extreme states of watershed soil-and-water conservation and control;in the pioneer stage,the soil erosion modulus was 299.56 t ha-1 a-1 above the edge of gully,136.64 t ha-1 a-1 below the edge of gully,and 229.74 t ha-1 a-1 on average;in the climax stage,the soil erosion modulus was 39.10 t ha-1 a-1 above the edge of gully,1.10 t ha-1 a-1 below the edge of gully,and 22.81 t ha-1 a-1 on average;in the intermediate stage,the soil erosion modulus above the edge of gully exhibited an exponential decline along with the increase in terraced field area percentage,while the soil erosion modulus below the edge of gully exhibited a linear decline along with the increase in siltation height. 相似文献
19.
基于RUSLE的卧虎山水库流域土壤侵蚀特征分析 总被引:3,自引:0,他引:3
通过RUSLE模型对卧虎山水库流域土壤侵蚀进行全面评价验证和总结。结果表明:① 水库流域平均侵蚀模数为462 t/(km2·a),该数值与通过水库淤积等资料推算评估结果基本一致,表明本研究结果具有较高的可信度;水库流域年均侵蚀量达到2.6×106t,其中高于容许土壤流失量的面积为176 km2,占到流域总面积的31.51%。从不同侵蚀级别来看,占流域面积27.77%的轻度侵蚀,对流域侵蚀总量的贡献率为54.64%; 面积占比3.74%的中度及以上侵蚀,侵蚀量贡献率达到30.94%。② 流域内土壤侵蚀空间差异较大,回归分析发现地形因子是导致各子流域土壤侵蚀模数差异的主要因素;就土地利用类型而言,旱地和农村居民点是流域内的主要侵蚀土地利用类型;流域内土壤侵蚀模数随着坡度增加呈现相应增大趋势,8°~25°坡度段面积比例不仅最大,而且侵蚀量占比最高,是水库流域的主要侵蚀坡度段。 相似文献
20.
Rocky desertification is a serious threat to socioeconomic development and the ecological security of karst areas. The control of rocky desertification has therefore become a major concern of both the Chinese government and local populations living in karst areas. In this paper, we used the national evaluation system for monitoring rocky desertification, and adjusted relevant indices. For example, we improved the system’s base rock exposure index with Normalized Difference Rock index (NDRI), substituted a soil erosion index for soil depth, and from these obtained the categories and spatial distribution of rocky desertification. We also studied the main factors and functional mechanisms of rocky desertification with consideration given to natural geographic conditions such as soil, physiognomy, elevation, slope and river network density, and, also human interference factors such as population density, GDP, population distribution, and from these got spatial distribution characteristics and influencing factors of rocky desertification in Qiandongnan prefecture. Results indicate that the primary soil types of rocky desertification in the research areas include yellow, limestone and paddy soils. These rocky desertification areas are more likely to contain limestone soil than purple soil, and least likely to contain paddy soil. The distribution of moderate or severe rocky desertification in areas with moderate to steep slope is 40%, where sloping agricultural land comprises a large proportion of the total. Rocky desertification is widely distributed in regions with precipitation between 1000-1200 mm, and this precipitation is the main factor causing greater soil erosion in limestone soil base and sloping agricultural areas. Moreover, desertification is closely related to the distribution of residential areas, population density, poverty and sloping agricultural land 相似文献