中国西北地区额济纳绿洲植被盖度与黑河流量的滞后效应研究   总被引：6，自引：1，他引：5  

金晓媚  胡光成  李文梅 《地学前缘》2008,15(4):198-203

干旱区植被生长与地下水的关系是生态水文地质学研究的热点之一。西北干旱地区,由于降水稀少,绿洲是当地人类生存和发展的主要依托。近年来,随着黑河流域中游地区用水量的逐年加大,下游来水量减少,使得下游额济纳绿洲的面积不断减小,湖泊干涸,沙漠化严重,生态环境恶化。由于绿洲植被的生长与水有极为密切的关系,因此,研究河流流量与绿洲植被生长之间的定量关系,对改善黑河流域生态环境、协调用水矛盾和合理配置水资源具有重要意义。将遥感数据与黑河径流量数据相结合,在区域尺度上定量研究额济纳绿洲植被生长与河流径流量的关系。结果表明,绿洲植被对黑河径流以及地下水有很强的依赖关系,而且黑河径流对额济纳绿洲的影响存在一年的滞后期,而地下水则通过这种滞后作用将两者联系起来。  相似文献   

黑河下游额济纳绿洲退化规律及其控制因素   总被引：4，自引：1，他引：4  

龚斌  万力  胡伏生  金晓媚  梁四海 《水文地质工程地质》2006,33(1):58-61

本文针对黑河下游的额济纳绿洲，借助遥感方法利用气象卫星数据定量确定了绿洲的多年动态变化规律，通过地下水数值模拟得到地下水水位埋深分布，提出植被覆盖率的概念较好地描述了植被生长状况与地下水位埋深的定量关系，最终给出了能从宏观上研究干旱区绿洲和水资源定量关系的实用方法。  相似文献   

黑河流域下游额济纳绿洲与水资源的关系   总被引：51，自引：0，他引：51       下载免费PDF全文

钟华平  刘恒  王义  托娅  耿雷华  颜志俊 《水科学进展》2002,13(2):223-228

简要介绍了黑河流域下游额济纳绿洲自然概况,分析了黑河下游地表水、地下水近20年的变化趋势,进而对额济纳绿洲植被生长、植物种群演替、植被覆盖度以及绿洲的存亡与当地地下水埋深的关系作了剖析,并对规划年绿洲变化作了预测.指出了水资源是黑河下游额济纳经济社会可持续发展和生态环境建设的依托,如何稳定绿洲和使绿洲有适度规模发展,是生态保护的核心问题,具有重要的战略意义.  相似文献   

黑河中游金塔地区生态环境变化遥感监测   总被引：8，自引：4，他引：4  

鲁安新  陈贤章  王建  王丽红  吴立宗 《冰川冻土》2002,24(1):73-78

利用1990年和2000年的TM遥感资料,在经过定标、几何校正和图像增强等图像处理的基础上对土地覆盖类型进行解译,从而实现黑河中游金塔地区的生态环境遥感动态监测.从监测结果计算出黑河中游金塔地区2000年的生态环境相对于1990年的生态环境变化如下:人工用地增加34.17%,农业用地增加19.47%,水体增加8%,湿地增加6.3%,未利用土地增加了1.73%,自然/半自然植被减少42.78%.并对这些生态环境变化的原因进行了初步探讨。  相似文献   

Groundwater replenishment analysis by using natural isotopes in Ejina Basin, Northwestern China   总被引：4，自引：0，他引：4  

Yinghua Zhang  Y. Wu  J. Su  X. Wen  F. Liu 《Environmental Geology》2005,48(1):6-14

The Ejina Basin underlying complex aquifers is located in the lower reaches of the Heihe River with an arid climate and 40 mm mean annual precipitation. As the balance of the natural ecosystem in the Ejina Basin is fragile and easily upset, it is very important to estimate and rationally use the limited groundwater resources to maintain the balance. Water samples were collected from the Heihe River and wells for chemical and isotopic measurements across the basin. The Piper diagram gives two main types of hydrochemical features. Against the background of the regional geology, combining isotope ¹⁸O, tritium, and chemical analysis with groundwater flows indicated by a shallow groundwater level contour map, different kinds of groundwater sources and ways to replenish groundwater were discovered. North of the study area are artesian wells that are replenished by the mountainous area at the boundary between China and Mongolia. Replenishment for most of the groundwater resources of the Gurinai oasis comes from the Heihe River seepage flow of the highly conductive paleochannel, not from the Badain Jaran Desert as indicated by TDS and tritium analysis. The different groundwater ages which are younger than 35 years were approximately estimated by radioactive isotope tritium (T). By such efforts, groundwater resources can be effectively evaluated with the engineering impact of the Heihe River Project.  相似文献   

黑河下游额济纳绿洲变化规律及其相关因素分析   总被引：7，自引：0，他引：7  

薛忠歧  龚斌  万力  胡伏生 《地学前缘》2006,13(1):48-51

通过处理额济纳旗地区的卫星数据,以归一化植被指数为重要指标,对可能影响绿洲的各种人为和自然因素进行了定量分析,其中包括年径流量、年降雨量、高程、坡度和地下水埋深等。结果表明:当通过狼心山的黑河流量大于3×108m3/a时,额济纳绿洲面积与黑河下游径流量呈良好的线性关系;该地区植被的生长和降雨几乎无关,两者相关系数为0·016;绿洲植被生长与高程有一定关系,最适宜绿洲植物生长的高程为930~950m;坡度和植被生长也有一定关系,坡度小的地方,植被相对茂密;地下水埋深对植被的生长存在密切的关系,用植被覆盖率的概念得到最适宜绿洲植物生长的地下水位埋深为3·2~3·8m。  相似文献   

Study on the oasis landscape fragmentation in northwestern China by using remote sensing data and GIS: a case study of Jinta oasis     

Guo Ming  Yu Wenbing  Ma Mingguo  Li Xin 《Environmental Geology》2008,54(3):629-636

The purpose of this study is to investigate the oasis landscape fragmentation in northwestern China’s arid regions. Landscape maps of Jinta oasis were compiled by using GIS based on Landsat TM data of 1990 and 2000. Landscape indexes for evaluating fragmentation are patch area, patch density, corridor density and split index. Results indicated many difference. First, between the years 1990 and 2000, the landscape fragmentation in Jinta oasis decreased slightly. Second, the area of the matrix decreased at the class level. The landscape fragmentation of the matrix (bare soil) increased as a result of increased influence of human activities on matrix and was opposite to the irrigated farmland whose area is larger and more aggregated in 2000 than in 1990. Third, dense corridor system is one of the most prominent characteristics of the arid regions. It is one of the key factors resulting in the landscape fragmentation; especially the fragmentation within the same patch types. The corridor density of irrigated farmland, residential area and forestland were quite large in Jinta oasis both in 1990 and 2000. The pattern of Jinta oasis is characterized by agricultural oasis embedded in Gobi and in the desert, where the ecosystem was disturbed strongly by the intense human activities.  相似文献   

基于SEBS模型和Landsat 8数据的黑河下游蒸散发时空特性分析     

金学杰  周剑 《冰川冻土》2017,39(3):572-582

对黑河下游地区蒸散发量的估算及其时空特性的研究,有助于进一步了解流域水循环,合理利用水资源,防止生态环境进一步恶化。利用SEBS模型估算了黑河下游额济纳绿洲2014年15天的日蒸散量,将SEBS估算的日蒸散与不同下垫面5个站点的EC实测值进行对比,其均方根误差和确定性系数分别为1.2 mm、0.85（5个站点）,0.5 mm、0.96（2个站点）,表明SEBS模型的结果是合理的,可以适用于黑河下游额济纳绿洲地区的地表蒸散量的估算。同时分析了黑河下游蒸散发的时空变化规律,结果表明,黑河下游额济纳绿洲地区,蒸散发在时间上存在明显的季节变化规律：夏季 > 春季 > 秋季 > 冬季;空间上呈现明显的沿河分布的趋势。不同土地覆被类型蒸散发有相似的季节变化特征,但其季节变化幅度并不相同,规律为：水体 > 耕地 > 灌丛地 > 草地 > 裸土地 > 沙地。  相似文献   

The research of groundwater flow model in Ejina Basin,Northwestern China   总被引：1，自引：1，他引：0  

Haiyang Xi  Qi Feng  Wei Liu  JianHua Si  Zongqiang Chang  Yonghong Su 《Environmental Earth Sciences》2010,60(5):953-963

Water resources is a primary controlling factor for economical development and ecological environmental protection in the inland river basins of arid western China. Groundwater, as the important component of total water resources, plays a dominant role in the development of western China. In recent years, with the utilization ratio of surface water raised, the groundwater recharge rate has been reduced by surface water, and groundwater was exploited on a large-scale. This has led to the decline of groundwater levels and the degradation of eco-environments in the lower reaches of Heihe watershed, especially. Therefore, the study on the groundwater-level change in recent years, as well as simulating and predicting groundwater levels changes in the future is very significant to improve the ecological environment of the Heihe River Basin, coordinate the water contradiction, and allocate the water resources. The purpose of this study is to analyze the groundwater-level variations of the Ejina region basin on a large-scale, to develop and evaluate a conceptual groundwater model in Ejina Basin; according to the experimental observation data, to establish the groundwater flow model combining MODFLOW and GIS Software; simulated the regional hydrologic regime in recent 10 years and compared with various delivery scenarios from midstream; determined which one would be the best plan for maintaining and recovering the groundwater levels and increasing the area of Ejina Oasis. Finally, this paper discusses the possible vegetation changes of Ejina Basin in the future.  相似文献   

Spatiotemporal dynamics of land cover and their impacts on potential dust source regions in the Tarim Basin,NW China     

Guilin Liu  Gang Yin  Alishir Kurban  Tayierjiang Aishan  Hailin You 《Environmental Earth Sciences》2016,75(23):1477

Human-driven dynamics of land cover types in the Tarim Basin are able to affect potential dust source regions and provide particles for dust storms. Analyses about dynamics of potential dust source regions are useful for understanding the effects of human activities on the fragile ecosystem in the extremely arid zone and also provide scientific evidence for the rational land development in the future. This paper therefore selected the Tarim Basin, NW China, as a representative study area to reveal spatiotemporal dynamics of land cover and their impacts on potential dust source regions. The results showed that farmland, desert and forest increased by 28.63, 0.64 and 29.27%, while grassland decreased by 10.29% during 1990–2010. The largest reclamation, grassland loss and desertification were 639.17 × 10³, 2350.42 × 10³ and 1605.86 × 10³ ha during 1995–2000. The relationship between reclamation and grassland loss was a positive correlation, while a highly positive correlation was 0.993 between the desertification and grassland loss at different stages. The most serious dust source region was the desertification during 1990–2010 (1614.58 thousand ha), and the serious region was stable desert (40,631.21 thousand ha). The area of the medium and low dust source region was 499.08 × 10³ and 2667.27 × 10³ ha. Dramatic reclamation resulted in the desertification by destroying natural vegetation and breaking the balance of water allocation in various regions.  相似文献   

黑河下游额济纳地区的环境演变   总被引：51，自引：2，他引：51  

龚家栋  程国栋  张小由  肖洪浪  李小雁 《地球科学进展》2002,17(4):491-496

通过对水系变迁的分析,勾画了黑河下游额济纳地区环境变化的大体框架。黑河下游额济纳地区的环境变迁,演绎了西北干旱地区普遍存在的水系溯源退缩过程。在地质历史时期,这种溯源退缩主要原因是地质运动和气候变化,而近代、现代人类不合理的水土资源开发活动加速了河流水系的溯源退缩,并在一定程度上超过了自然因素的作用。巴丹吉林沙漠曾经是黑河下游的冲积湖积平原。那么如果绿洲消失,额济纳三角洲就有可能再现巴丹吉林沙漠的形成过程,形成新的"额济纳沙漠"。在第四纪早期,额济纳盆地存在两个水流系统,且气候环境较为温暖潮湿;随后两个水流系统逐渐合并,区域气候亦有变干变暖的趋势;至第四纪晚期,气候更加干旱,现代水文网定型。东西居延海不是黑河流域的终端湖,在地质历史上属于黑河流域下游的河道湖。随着黑河水系不断地溯源萎缩,东西居延海及居延泽也存在着一个逐步缩小的过程,并在近现代演变为尾闾湖。显然,东西居延海作为尾闾湖只是一个很短暂的时期。  相似文献   

Occurrence of soluble salts and moisture in the unsaturated zone and groundwater hydrochemistry along the middle and lower reaches of the Heihe River in northwest China     

Xun Zhou  Bin Fang  Li Wan  Wenbing Cao  Shengjun Wu  Weidong Feng 《Environmental Geology》2006,50(7):1085-1093

Deforestation, over-development of water resources and population growth have contributed to degeneration of vegetation in the Heihe River Basin in northwest China. Salts and water contents are the most important factors affecting the growth of vegetation in this arid area. This study was conducted to determine soluble salt levels of soils in the unsaturated zone and the hydrochemistry of groundwater at 14 sites in this region. Concentrations of soluble ions in the soils deceased with depth. Soil ion contents increased at depths below the root system of native plants. Sulfate was the dominant anion in both the unsaturated zone and the groundwater. Total dissolved solids (TDS) in groundwater ranged from less than 1 g/L in the middle reaches of the watershed to about 10 g/L in the arid lower reaches. In the middle and upper reaches of the watershed, salinity in soil and groundwater decreased. Groundwater was highly variable in hydrochemistry. The lower reaches was predominated by SO₄–Na•Mg and SO₄–Mg•Na type water, whereas in the middle reaches groundwater is characterized by lower TDS and HCO₃-dominated type water. Evapotranspiration is responsible for occurrence of the soluble salts in the soil profiles. Dissolution is the dominant chemical process in the middle reaches, whereas evapotranspiration prevails in the lower reaches of the Heihe River.  相似文献   

Land-use change and its environmental impact in the Heihe River Basin, arid northwestern China   总被引：3，自引：0，他引：3  

Shanzhong Qi  Fang Luo 《Environmental Geology》2006,50(4):535-540

Rapid land-use change has taken place in many arid and semi-arid regions of China over the last decade as the result of demand for food for its growing population. The Heihe River Basin, a typical inland river basin of temperate arid zone in northwestern China, was investigated to assess land-use change dynamics by the combined use of satellite remote sensing and geographical information systems (GIS), and to explore the interaction between these changes and the environment. Images were classified into six land-use types: cropland, forestland, grassland, water, urban or built-up land, and barren land. The objectives were to assess and analyze landscape change of land use/cover in Heihe River Basin over 15 years from 1987 to 2002. The results show that (1) grassland and barren land increase greatly by 22.3, and 268.2 km², respectively, but water area decreased rapidly by 247.2 km² in the upper reaches of Heihe River Basin; (2) cropland and urban or built-up land increased greatly by 174.9, and 64.6 km², respectively, but grassland decreased rapidly by 210.3 km² in the middle reaches of Heihe River Basin; and (3) barren land increased largely by 397.4 km², but grassland degraded seriously and water area decreased obviously by 313.3, and 21.7 km², respectively in the lower reaches of Heihe River Basin. These results show that significant changes in land-use occur within the whole basin over the study period and cause severe environmental degradation, such as water environmental changes (including surface water runoff change, decline of groundwater table and degeneration of surface water and groundwater quality), land desertification and salinization, and vegetation degeneracy.  相似文献   

Impacts of environmental flow controls on the water table and groundwater chemistry in the Ejina Delta,northwestern China     

Ping Wang  Jingjie Yu  Yichi Zhang  Guobin Fu  Leilei Min  Fei Ao 《Environmental Earth Sciences》2011,64(1):15-24

The impacts of environmental flow controls on the water table and chemistry of groundwater in the Ejina Delta, an arid inland river basin in northwest China, were investigated with field observations in 2001 and 2009. The results indicate that the shallow groundwater level rose by 0–2 m in the upper reaches of the east tributary of the Heihe River and in the areas of Saihantaolai—Dalaikubu during the period of environmental flow controls. The chemical constituents of the groundwater show a distinct spatial heterogeneity with the total dissolved solids (TDS) in the groundwater increasing from the periphery towards the depocenter of the Ejina Basin. In addition, the rate of groundwater cycling in the south of the Ejina Delta increased, and the mineralization of groundwater declined, while the overall mineralization and salinity increased in the northern regions, especially in the depocenter of the Ejina Basin. Since shallow groundwater is important to the ecology of arid regions, and because understanding the changes in the shallow groundwater environment (groundwater level and hydrochemistry) in response to environmental flow controls is essential for the sustainable improvement of the ecological environment, the results of this paper can be used as a reference for watershed water resources planning and management to help maintain the health and proper function of rivers in arid regions.  相似文献   

Assessing vegetation dynamics in the Three-North Shelter Forest region of China using AVHRR NDVI data   总被引：1，自引：1，他引：0  

Hanchen Duan  Changzhen Yan  Atsushi Tsunekawa  Xiang Song  Sen Li  Jiali Xie 《Environmental Earth Sciences》2011,64(4):1011-1020

The Three-North Shelter Forest Programme (TNSFP) covers 551 Chinese counties and an area of 4,069,000 km² mostly in arid and semi-arid regions. In this paper, we discuss the temporal and spatial changes in value of the normalized-difference vegetation index (NDVI) in this region, and the relationships between NDVI and climatic factors (temperature and precipitation) based on NOAA Advanced Very High Resolution Radiometer Global Inventory Modeling and Mapping Studies NDVI data with 8-km resolution from 1982 to 2006. During the past 25 years, the vegetation cover has generally increased in eastern regions of China and the oasis in the north piedmont of Tianshan Mountains, but has decreased northwest of Xinjiang and in the Hulunbeier Plateau. The multi-year monthly average NDVI distribution map showed that NDVI increased from April to August, but in the western and northern plateau areas, the lower temperatures and high altitude created a shorter growing season (1 or 2 months). The vegetation of the study area has generally increased in the regions covered by the TNSFP. Linear regression analysis of the vegetation cover showed an increasing trend over large areas. The largest annual growth rate per pixel (the slope of the regression) was 0.009; the largest negative annual change was −0.004. The correlation between NDVI and precipitation was higher than that between NDVI and temperature, suggesting that precipitation is the most important factor that affects NDVI changes in the study area, especially for temperate desert vegetation in northwestern China.  相似文献   

Water requirements and stability of oasis ecosystem in arid region,China   总被引：4，自引：0，他引：4  

Bing Liu  Wenzhi Zhao  Xuexiang Chang  Shoubo Li  Zhihui Zhang  Mingwu Du 《Environmental Earth Sciences》2010,59(6):1235-1244

This research was conducted to determine the water requirements of oasis ecosystem with crop evapotranspiration method, and to analyse the water balance between the supply and requirement using water balance model, and then assess the stability of oasis ecosystem in the middle of Heihe River basin, China. The results indicated that the summations of the water supply and requirement approximated to 82.54 and 110.13 Mm³ years⁻¹ in 2007, and the water deficit was 27.59 Mm³ years⁻¹. The farmland was the largest water consumer with a consumption of 57.07 Mm³ years⁻¹ and accounted for 51.82% of the total water requirements. It was followed by the water area 38.83 Mm³ years⁻¹, forestland 12.13 Mm³ years⁻¹ and domestic and industrial 2.10 Mm³ years⁻¹, and accounted for 35.26, 11.01 and 1.92%, respectively. The stability index was 0.74, which implies that the oasis ecosystem have already started degenerating in sub-stability state. However, the water requirement of unit area was 1243.70 mm years⁻¹ and larger than other oases in arid region of China, which implies that the water resource scarcity do not exist in the middle basin where the excessive waste of the flood irrigation method has broken the balance between the water supply and requirement in the basin scale.  相似文献   

定量评估我国西北干旱区土地利用变化对植被指数的影响     

姜雨青  李宝富  宋美帅  焦建飞  刘纹青 《冰川冻土》2018,40(3):616-624

在全球变化的背景下,定量区分人类活动和气候波动对干旱区植被的影响具有重要意义。采用多种统计学方法,分析了我国西北干旱区1990-2010年土地利用/覆被变化（LUCC）和1982-2010年归一化植被指数（NDVI）的时空变化特征,并定量评估了LUCC对NDVI变化的影响。结果表明：1990-2010年,西北干旱区耕地增加量最多,高达13 476 km²,其次是林地和水域,各地类增加的面积主要来自草地（12 590 km²）和未利用地（6 025 km²）。各土地类型变化速度快慢依次为：耕地 > 建设用地 > 水域 > 林地 > 草地 > 未利用地。2000-2010年,研究区土地利用程度综合指数（0.79）明显高于1990-2000年（0.23）,表明近年来人类活动对土地利用变化的影响程度显著增强。1982-2010年,西北干旱区NDVI呈增加态势,但近年来（2002-2010年）NDVI略有下降。其中,1990-2000年,LUCC对西北干旱区NDVI总变化的贡献率较低,仅为2.9%;而1990-2010,LUCC的贡献率为26.7%,表明气候变化对植被指数变化的贡献率高达73.3%。  相似文献   

黑河流域水环境演变及其驱动机制研究进展   总被引：10，自引：0，他引：10  

肖生春  肖洪浪 《地球科学进展》2008,23(7):748-755

基于近几十年来诸多学者对西北干旱区典型内陆河流域——黑河流域水环境演变诸方面研究成果,综述了上游山区成水环境、中游绿洲用水环境和下游荒漠天然绿洲水成环境在不同时间尺度上的演变过程及其驱动机制。通过对各种古环境代用指标的对比研究表明：在大尺度上,流域上下游表现出阶段性的一致性水环境演变趋势;在小尺度上,则表现水环境演变的时空异质性。驱动机制方面,在空间上,流域上、中、下游水环境演变的气候变化和人类活动影响驱动作用各有侧重;在时间上,表现为不同尺度上气候变化与流域人类活动耦合作用的驱动机制。  相似文献   

中国西部干旱区生态环境演变与调控研究进展与展望   总被引：9，自引：0，他引：9  

潘晓玲  马映军  顾峰雪 《地球科学进展》2003,18(1):50-057

国家重点基础研究发展规划项目"中国西部干旱区生态环境演变与调控研究"实施 2年来,在古气候重建和环境变化,绿洲的演变规律与驱动力,绿洲水盐平衡与主要水文过程,绿洲生态系统的结构、生态过程与稳定性,山地、绿洲、荒漠三大生态系统耦合机理,生态景观演变规律及其对气候变化的响应,重大工程行为的生态环境效应,荒漠化成因及时空分布等研究方向和内容上取得了重要进展。在此基础上,项目后 2年的研究重点将继续以绿洲安全机制研究为核心,在时间序列上,重点研究近 2 000年来绿洲的形成演变规律,特别是近百年及近50年来西部干旱区气候变化与绿洲形成演变的关系,定量辨识绿洲发展演化的驱动力;在空间结构上,阐明绿洲格局的动态过程,深入探明山地、绿洲及荒漠生态系统耦合关系、绿洲生态系统稳定性机理与安全、高效、持续发展模式等;结合西部大开发工程建设和产业发展的进程,研究开发重大工程的生态环境效应,建立不同类型的生态建设示范区;配合国家重大工程时段,对西部干旱区生态环境演变趋势进行预测,提出生态系统的调控体系和管理模式,为西部开发和可持续发展服务。  相似文献   

黑河下游额济纳三角洲河道渗漏对地下水补给研究综述   总被引：1，自引：0，他引：1  

席海洋  冯起  司建华  常宗强  苏永红 《冰川冻土》2012,34(5):1241-1247

干旱区河道渗漏是河道径流转化为地下水的一种主要方式. 河道渗漏系数是确定河流与地下水之间转化量的重要参数, 也是建立地下水模型的关键. 从河道渗漏运动的研究方法、 河道渗漏时空动态变化、 河道渗漏特征规律与机理以及河道渗漏模拟研究等方面入手, 综述了国内外有关河道渗漏研究方面的进展情况以及发展趋势. 同时对黑河下游额济纳三角洲地区的河道渗漏研究现状及存在的问题进行了阐述, 分析当前研究的不足. 针对黑河流域下游额济纳三角洲水系与河道特点, 提出如下建议: 从河道渗漏的时空动态变化分析入手, 开展典型渗漏观测试验、 进行河水位、 流量、 河床含水量、 地下水位的连续观测和同位素示踪试验, 测定河道渗漏与地下水运动参数; 建立河道渗漏模拟模型, 模拟和预测不同情景下河道渗漏过程. 为该地区的河道渗漏补给地下水的定量化研究提供新的思路, 为制定科学合理的水资源利用规划和维护绿洲稳定及可持续发展提供科学依据.  相似文献