共查询到20条相似文献,搜索用时 93 毫秒
1.
1TheYellowRiverBasinThe Yellow River, with a drainage area of 752,000 km2 and a length of 5,464 km, is the second largest river in China (Figure 1). This river, recognized as the cradle of Chinese civilization, is one of the most complicated and challenging rivers in the world in terms of erosion and sedimentation control, flood defense, and water resource management. The river basin is mostly arid and semi-arid, with a long-term average annual runoff depth of 77 mm and a mean annual input … 相似文献
2.
Maintenance of steady streamflow is a critical attribute of the continental river systems for safeguarding downstream ecosystems and agricultural production.Global climate change imposes a potential risk to water supply from the headwater by changing the magnitude and frequency of precipitation and evapotranspiration in the region.To determine if and to what extent the recent climate changes affected streamflow in major river systems,we examined the pattern of temporal variations in precipitation,temperature,evapotranspiration and changes in runoff discharge during 1958–2017 in the headwater region of the Yellow River in northeastern Tibetan Plateau.We identified 1989 as the turning point for a statistically significant 14% reduction in streamflow discharge(P 0.05) for the period 1989–2017 compared with 1958–1988,approximately coinciding with changes in the monthly distribution but not the interannual variations of precipitation,and detected a mismatch between precipitation and runoff after 2000.Both annual precipitation and runoff discharge displayed fourand eight-year cyclic patterns of changes for the period 1958–1988,and a six-year cyclic pattern of changes for the period 1989–2017,with two intensified two-year cyclic patterns in the changes of precipitation and a three-year cyclic pattern in the change of runoff further detected for the later period.Our results indicate that the temporal changes in runoff are not strictly consistent with the temporal variations of precipitation in the headwater region of Yellow River during the period 1958–2017.In particular,a full recovery in annual precipitation was not reflected in a full recovery in runoff toward the end of the study period.While a review of literature yielded no apparent evidence of raised evapotranspiration in the region due to recent warming,we draw attention to increased local retention of rainwater as a possible explanation of differential changes in precipitation and runoff. 相似文献
3.
1956-2002年滦河流域径流变化 总被引:2,自引:1,他引:2
The decrease of runoff in the Luanhe river basin, which caused water crisis in Tian-jin for several times, was investigated using discharge data covering the period 1956-2002. The data from the differential integral curves of the annual runoff indicate that the decreasing point began in 1979 in the six sub-basins. The decrease of runoff in the Luanhe river basin resulted from the combination of climate effects and human activities, in which the latter plays an important role. This can be illustrated by noting that after 1979 the runoff generated by similar precipitation decreased under the condition that the total precipitation did not decrease in the entire basin. As a result, the annual runoff of the Luanhe river basin after 1979 decreased by about 6.46×10^8 m^3 each year. To analyze the runoff characteristics, it is inadequate to seek the runoff trends only and the identification of cyclical component of the runoff as accurate as possible is necessary. From the natural annual runoff discharge time series, we can see the annual runoff fluctuates around the long-term average. Analyzed by VRL (Variable Record Length) method, the main periods of 3, 5-6, 7, 9, 16-20 and 37-39 years were found. The last decade causing water crisis was the driest period in the history, and this condition will last several years from trend analysis and power spectrum analysis. So finding new water sources is urgent to solve water crisis in Tianjin city, and the South-North Water Transfer is a feasible option. 相似文献
4.
YongChao Lan HongLang Xiao XingLin Hu HongWei Ding SongBing Zou ChengFang L Jie Song 《寒旱区科学》2012,4(6):0522-0535
All rivers in the Hexi inland region of Gansu Province, China, originate from the northern slope of the Qilian Mountains. They are
located in the southern portion of the region and respectively belong to the three large river systems from east to west, the Shiyang,
Heihe and Shule river basins. These rivers are supplied by precipitation, snowmelt and ice-melt runoff from the Qilian Mountain
area. Therefore, changes of precipitation and temperature in the upstream watersheds of these rivers have an important effect on
changes of mountainous runoff and reasonable utilization of water resources in this region. For this reason, the Qilian Mountain
area, upstream watersheds and runoff forming areas of these rivers are chosen as the study area. The change characteristics and
variation trend of temperature and precipitation in this area under the backdrop of global warming are analyzed based on observational
data of relational weather and hydrologic stations in the area. Results show that temperatures in the upriver mountain areas
of these three large river basins have been increasing, although the increasing degree is differentially affected by global warming.
The rising extent of annual and seasonal temperatures in the upstream mountain area of the Shule river basin located in the western
Qilian Mountains, were all largest over the past 50 years. Precipitation in the upstream mountain areas of Hexi region’ three
river basins located respectively in the western, middle and eastern Qilian Mountains have been presenting an increasing trend to
varying degrees as a whole for more than 50 years. This means that climate in the upstream mountain areas of Hexi region’ three
river basins are becoming increasingly warmer and moister over the past 50 years, which will be very good for the ecological environment
and agricultural production in the region. 相似文献
5.
The Yangtze River Source Region has an area of 137,704 km2.Its mean annual runoff of 12.52 billion m3,which was recorded by the Chumda Hydrological Station in 1961-2000,accounts for only 0.13 percent of the Yangtze River’s total annual streamflow.The extensive rivers,lakes,wetlands,glaciers,snow fields,and permafrost of the Yangtze River Source Region,as well as the region’s vast alpine grasslands,play a critical role in storing and regulating the flow of water not only in the upper Yangtze River watershed of Qinghai,Sichuan,the Tibet Autonomous Region (TAR) (Tibet) and Yunnan,but also throughout the entire lower Yangtze River basin.Climate change has been the dominant factor in recent fluctuation in the volume of the Yangtze River Source Region’s glacier resources.The Chumda Hydrological Station on the lower Tongtian River has registered a mean annual glacial meltwater of 1.13 billion m3 for the period 1961-2000,makes up 9 percent of the total annual runoff.Glacial meltwater makes up a significant percentage of streamflow in the Yangtze River Source Region,the major rivers of the upper Yangtze River Source Region:the Togto,Dam Chu,Garchu,and Bi Chu (Bu Chu) rivers all originate at large glaciers along the Tanggula Range.Glaciers in the Yangtze River Source Region are typical continental-type glaciers with most glacial meltwater flow occurring June-August;the close correlation between June-August river flows and temperature illustrates the important role of glacial meltwater in feeding rivers.Glaciers in the source region have undergone a long period of rapid ablation beginning in 1993.Examination of flow and temperature data for the 1961-2000 period shows that the annual melting period for glacial ice,snow,and frozen ground in the Yangtze River Source Region now begins earlier because of increasing spring temperatures,resulting in the reduction of summer flood season peak runoffs;meanwhile,increased rates of glacier ablation have resulted in more uneven annual distribution of runoff in the source region.T 相似文献
6.
According to climate features and river runoff conditions, Xinjiang could be divided into three research areas: The Altay-Tacheng region, the Tianshan Mountain region and the northern slope of the Kunlun Mountains. Utilizing daily observations from 12 sounding stations and the annual runoff dataset from 34 hydrographical stations in Xinjiang for the period 1960–2002, the variance of the summertime 0℃ level height and the changing trends of river runoff are analyzed both qualitatively and quantitatively, through trend contrast of curves processed by a 5-point smoothing procedure and linear correlation. The variance of the summertime 0℃ level height in Xinjiang correlates well with that of the annual river runoff, especially since the early 1990s, but it differs from region to region, with both the average height of the 0℃ level and runoff quantity significantly increasing over time in the Altay- Tacheng and Tianshan Mountain regions but decreasing on the northern slope of the Kunlun Mountains. The correlation holds for the whole of Xinjiang as well as the three individual regions, with a 0.01 significance level. This indicates that in recent years, climate change in Xinjiang has affected not only the surface layer but also the upper levels of the atmosphere, and this raising and lowering of the summertime 0℃ level has a direct impact on the warming and wetting process in Xinjiang and the amount of river runoff. Warming due to climate change increases the height of the 0℃ level, but also speeds up, ice-snow melting in mountain regions, which in turn increases river runoff, leading to a season of plentiful water instead of the more normal low flow period. 相似文献
7.
《地理学报(英文版)》2010,(6)
Semi-arid and arid areas exhibit great temporal variability in water availability.In some of these regions,a one-or two-day rainfall is followed by intervening dry periods of variable length.In recent decades,many rivers of the semi-arid portion of the Jequitinhonha Basin have been undergoing a progressive discharge reduction,mainly of their base flow,the Arauaí River is one of them.In order to understand this transformation,a long-term analysis of the annual water balance of the Arauaí River Basin was performed,the results of which are presented herein.Satellite images,hydrometeorological and river discharge data were analyzed;mean and variance tests were conducted to determine temporal homogeneity.Historical pluviometric data analysis shows no corresponding precipitation reduction and temperature undergoes only a slight increase in the same period.On the other hand,evaporation is extremely high,higher than precipitation during most of the year,leaving almost no water for infiltration(aquifer recharge) and runoff.Furthermore,the Arauaí headwaters of its tributaries are now occupied by a monoculture,Eucaliptus sp.,used for paper production.Because of the decreased fluvial discharges,its lowlands,usually used for agriculture and pasture,are abandoned and partially eroded. 相似文献
8.
《地理学报(英文版)》2010,(6)
According to climate features and river runoff conditions,Xinjiang could be divided into three research areas:The Altay-Tacheng region,the Tianshan Mountain region and the northern slope of the Kunlun Mountains.Utilizing daily observations from 12 sounding stations and the annual runoff dataset from 34 hydrographical stations in Xinjiang for the period 1960-2002,the variance of the summertime 0℃ level height and the changing trends of river runoff are analyzed both qualitatively and quantitatively,through trend contrast of curves processed by a 5-point smoothing procedure and linear correlation.The variance of the summertime 0℃ level height in Xinjiang correlates well with that of the annual river runoff,especially since the early 1990s,but it differs from region to region,with both the average height of the 0℃ level and runoff quantity significantly increasing over time in the Altay-Tacheng and Tianshan Mountain regions but decreasing on the northern slope of the Kunlun Mountains.The correlation holds for the whole of Xinjiang as well as the three individual regions,with a 0.01 significance level.This indicates that in recent years,climate change in Xinjiang has affected not only the surface layer but also the upper levels of the atmosphere,and this raising and lowering of the summertime 0℃ level has a direct impact on the warming and wetting process in Xinjiang and the amount of river runoff.Warming due to climate change increases the height of the 0℃ level,but also speeds up,ice-snow melting in mountain regions,which in turn increases river runoff,leading to a season of plentiful water instead of the more normal low flow period. 相似文献
9.
中国西北干旱内陆河流域分布式出山径流模型 总被引:1,自引:0,他引:1
In order to predict the futuristic runoff under global warming, and to approach to the effects of vegetation on the ecological environment of the inland river mountainous watershed of Northwest China, the authors use the routine hydrometric data to create a distributed monthly model with some conceptual parameters, coupled with GIS and RS tools and data. The model takes sub-basin as the minimal confluent unit, divides the main soils of the basin into 3 layers, and identifies the vegetation types as forest and pasture. The data used in the model are precipitation, air temperature, runoff, soil weight water content, soil depth, soil bulk density, soil porosity, land cover,etc. The model holds that if the water amount is greater than the water content capacity, there will be surface runoff. The actual evaporation is proportional to the product of the potential evaporation and soil volume water content. The studied basin is Heihe mainstream mountainous basin, with a drainage area of 10,009 km^2. The data used in this simulation are from Jan. 1980 to Dec. 1995, and the first 10 years‘ data are used to simulate, while the last 5 years‘ data are used to calibrate. For the simulation process, the Nash-Sutcliffe Equation, Balance Error and Explained Variance is 0.8681,5.4008 and 0.8718 respectively, while for the calibration process, 0.8799, -0.5974 and 0.8800 respectively. The model results show that the futuristic runoff of Heihe river basin will increase a little. The snowmelt, glacier meltwater and the evaportranspiration will increase. The air temperature increment will make the permanent snow and glacier area diminish, and the snowline will rise. The vegetation, especially the forest in Heihe mountainous watershed, could lead to the evapoWanspimtion decrease of the watershed, adjust the runoff orocess, and increase the soil water content. 相似文献
10.
The runoff in alpine river basins where the runoff is formed in nearby mountainous areas is mainly affected by temperature and precipitation.Based on observed annual mean temperature,annual precipitation,and runoff time-series datasets during 1958–2012 within the Kaidu River Basin,the synchronism of runoff response to climate change was analyzed and identified by applying several classic methods,including standardization methods,Kendall's W test,the sequential version of the Mann-Kendall test,wavelet power spectrum analysis,and the rescaled range(R/S) approach.The concordance of the nonlinear trend variations of the annual mean temperature,annual precipitation,and runoff was tested significantly at the 0.05 level by Kendall's W method.The sequential version of the Mann-Kendall test revealed that abrupt changes in annual runoff were synchronous with those of annual mean temperature.The periodic characteristics of annual runoff were mainly consistent with annual precipitation,having synchronous 3-year significant periods and the same 6-year,10-year,and 38-year quasi-periodicities.While the periodic characteristics of annual runoff in the Kaidu River Basin tracked well with those of annual precipitation,the abrupt changes in annual runoff were synchronous with the annual mean temperature,which directly drives glacier-and snow-melt processes.R/S analysis indicated that the annual mean temperature,annual precipitation,and runoff will continue to increase and remain synchronously persistent in the future.This work can improve the understanding of runoff response to regional climate change to provide a viable reference in the management of water resources in the Kaidu River Basin,a regional sustainable socio-economic development. 相似文献
11.
数字流域及其在流域综合管理中的应用 总被引:8,自引:1,他引:8
流域的治理需要从系统的角度出发 ,综合考虑流域的自然、经济和社会子系统 ,实行综合管理。本文从新近发展起来的数字地球的概念出发 ,建立了数字流域的基本模式 ,初步探讨了数字流域的数据采集、处理、集成、显示及其在流域综合管理中的应用。 相似文献
12.
13.
海河流域分布式SWAT模型的构建 总被引:11,自引:2,他引:9
本文基于SWAT(Soil and Water Assessment Tool)构建海河流域分布式水文模型。针对海河流域的特点,对 平原区河网和入海口进行合理概化,对土壤类型和土地利用方式进行重分类处理。应用1995~2002 年水文气象系 列资料和下垫面空间分布信息,对模型的参数进行优化和灵敏度分析,最后选取多个站点对模拟结果进行检验与 分析。研究成果为SWAT 模型在国内复杂大流域的应用提供了范例,也为海河流域变化环境下的水资源与水环境 综合管理提供重要的水文学基础支撑。 相似文献
14.
As demand and competition for water resources increase, the river basin has become the primary unit for water management and planning. While appealing in principle, practical implementation of river basin management and allocation has often been problematic. This paper examines the case of the Krishna basin in South India. It highlights that conflicts over basin water are embedded in a broad reality of planning and development where multiple scales of decisionmaking and non-water issues are at play. While this defines the river basin as a disputed "space of dependence", the river basin has yet to acquire a social reality. It is not yet a "space of engagement" in and for which multiple actors take actions. This explains the endurance of an interstate dispute over the sharing of the Krishna waters and sets limits to what can be achieved through further basin water allocation and adjudication mechanisms – tribunals – that are too narrowly defined. There is a need to extend the domain of negotiation from that of a single river basin to multiple scales and to non-water sectors. Institutional arrangements for basin management need to internalise the political spaces of the Indian polity: the states and the panchayats. This re-scaling process is more likely to shape the river basin as a space of engagement in which partial agreements can be iteratively renegotiated, and constitute a promising alternative to the current interstate stalemate. 相似文献
15.
西江流域开发治理的管理与组织创新 总被引:2,自引:1,他引:2
陈湘满 《云南地理环境研究》2002,14(1):26-30
西江流域开发在大西南开发乃至整个西部大开发中具有十分重要的战略地位,但是,条块分割的管理模式导致区域利益摩擦是西江流域开发治理的主要制约性因素。一个科学、合理的流域管理体制,是实施流域可持续发展战略目标的基本组织保证。在对目前西江流域的开发管理体制及其存在的问题作了较为深入的分析和研究的基础上,提出了建立西江流域开发的目标模式,即以流域为单元的一体化管理;借鉴国外流域开发管理的有益经验,提出了西江流域开发管理机构构想--建立经济实体性质的全流域企业。 相似文献
16.
基于生态水文调控的流域综合管理研究综述 总被引:2,自引:1,他引:1
在全球气候变化与人类活动的双重影响下,流域水与生态等问题将更加突出、相互交织,是当前亟需解决的影响和制约世界各国可持续发展的瓶颈问题。基于对流域综合管理概念内涵的理解,以生态水文学理论和基于自然的水资源解决方案的理念为指导,提出了基于生态水文调控的流域综合管理概念与内涵,着重阐述了其核心内容:① 理论方法——流域生态水文调控原理与方法;② 应用实践——面向生态-社会协调可持续的流域水资源综合管理。将丰富和发展流域综合管理理论方法与技术体系,提升流域综合管理的实效性和整体水平。 相似文献
17.
黄河中游流域地貌形态对流域产沙量的影响 总被引:13,自引:7,他引:13
在黄河中游地区 ,选择了 5 0多个面积约 5 0 0~ 2 5 0 0平方公里的水文测站流域 ,分别代表 6种不同自然地理类型 ,在流域沟壑密度、沟间地坡度小于 15°面积百分比等地貌形态指标量计的基础上 ,进行了流域产沙量与地貌形态指标相关分析。结果表明 ,对于不同类型流域 ,流域产沙量随流域地貌的变化遵循不同的响应规律 ,而且视流域其它下垫面环境条件的均一程度 ,其相关程度和响应速率各不相同。受地面物质、植被、地貌发育阶段等流域其它下垫面环境条件的制约 ,除沟壑密度外 ,流域产沙量与流域地貌形态的关系都没有人们以前所预期的好。 相似文献
18.
1951-2002年长江流域降水特征 总被引:2,自引:0,他引:2
The monthly, seasonal, and annual precipitation trends in the Yangtze river catchment have been detected through analysis of 51 meteorological stations‘ data between 1950-2002 provided by National Meteorological Administration. Results reveal that: 1) Summer precipitation in the Yangtze river catchment shows significant increasing tendency. The Poyanghu lake basin, Dongtinghu lake basin and Taihu lake basin in the middle and lower reaches are the places showing significant positive trends. Summer precipitation in the middle and lower reaches experienced an abrupt change in the year 1992; 2) The monthly precipitation in months just adjoining to summer shows decreasing tendency in the Yangtze river catchment. The upper and middle reaches in Jialingjiang river basin and Hanshui river basin are the places showing significant negative trends; 3) Extreme precipitation events show an increasing tendency in most places, especially in the middle and lower reaches of the Yangtze river catchment. 相似文献
19.
The monthly, seasonal, and annual precipitation trends in the Yangtze river catchment have been detected through analysis of 51 meteorological stations' data between 1950-2002 provided by National Meteorological Administration. Results reveal that: 1) Summer precipitation in the Yangtze river catchment shows significant increasing tendency. The Poyanghu lake basin, Dongtinghu lake basin and Taihu lake basin in the middle and lower reaches are the places showing significant positive trends. Summer precipitation in the middle and lower reaches experienced an abrupt change in the year 1992; 2) The monthly precipitation in months just adjoining to summer shows decreasing tendency in the Yangtze river catchment. The upper and middle reaches in Jialingjiang river basin and Hanshui river basin are the places showing significant negative trends; 3) Extreme precipitation events show an increasing tendency in most places, especially in the middle and lower reaches of the Yangtze river catchment. 相似文献
20.
流域一体化法制建设是流域资源与经济协调发展的重要途径,符合世界流域一体化法制管理的趋势。山西流域资源为经济的发展做出了巨大的贡献,但掠夺性的开发使流域出现了严重的生态问题,成为制约山西经济可持续发展的瓶颈。通过剖析全国及山西流域一体化法制建设中存在的问题,提出流域一体化法制建设是流域一体化管理的核心所在,是解决流域生态环境与经济发展这一矛盾最为有效的途径,是山西转型发展的最佳选择。以汾河流域为试点,制定《汾河流域一体化管理条例》,为我国流域一体化法制建设做出有益的探索。 相似文献