敦煌西湖自然保护区湿地演化及驱动力分析   总被引：1，自引：0，他引：1  

段浩  潘世兵  李琳  袁海峰 《地球信息科学学报》2015,17(2):222-228

西湖国家级自然保护区位于河西走廊西端,是敦煌盆地人工绿洲的天然屏障。近几十年来,由于气候变化和人类水土资源过度开发,保护区生态环境持续恶化,湿地退化和沙漠化趋势日趋严重。本文运用多时相资源卫星遥感影像,解译分析了保护区湿地演化规律。结果表明：1980-2013年间有23个年份湿地处于快速退化状态,保护区湿地面积由1.72×10⁴ hm²减少到0.99×10⁴ hm²,减少了42.4%;保护区湿地的斑块数从32个增加到51个,平均斑块面积由537 hm²减少为213 hm²,湿地演化呈破碎化趋势。湿地分布质心向西南方向移动了11.59 km,湿地呈整体向西南缓慢移动的趋势。运用因子分析法对湿地演化的驱动因子进行了分类,并利用投影寻踪模型分析各驱动因子对湿地演化的贡献率,结果表明：下游湿地退化的根本原因是大规模引地表水和开采地下水灌溉,其次是气候变化引起的冰川退缩、径流量衰减。20世纪90年代,西湖保护区湿地处于相对稳定状态,建议敦煌地区耕地维持在20世纪90年代初的2.7×10⁴ hm²水平,或通过节水、调整作物结构和跨流域调水等措施,压缩引地表水和开采地下水水量,灌溉用水需控制在20世纪90年代初的用水水平。该研究成果可为自然保护区湿地保护和流域综合开发提供依据。  相似文献   

黄河三角洲湿地景观格局动态变化分析   总被引：23，自引：3，他引：20  

宗秀影  刘高焕  乔玉良  林松 《地球信息科学学报》2009,11(1):91-97

在RS和GIS技术的支持下,以黄河三角洲1986,1996,2006年的三期TM影像为数据源,利用遥感图像处理软件对近代黄河三角洲湿地信息进行了提取.借助于地理信息系统软件和景观生态学软件,我们对20年来黄河三角洲湿地景观格局的动态变化,以及影响其格局动态变化的驱动力进行了分析.结果表明:(1)近20年来,人工湿地面积有了大幅度的增加,而天然湿地的比重在降低.其中,滩涂和柽柳灌草丛景观明显萎缩.(2)一些重要的景观格局指数的计算结果表明,20世纪90年代以来,黄河三角洲湿地景观斑块个数、香农多样性指数、香农均匀度指数一直在增加.黄河三角洲湿地景观的破碎化程度在加剧,斑块类型更加多样化,湿地景观中没有明显的优势类型且各斑块类型在景观中均匀分布.(3)湿地与湿地、湿地与非湿地之间发生着类型转化.其中,18.1%的芦苇草甸转化为农田;26.6%的翅碱蓬草甸转化为盐田;11.9%的芦苇沼泽转化为芦苇草甸.(4)在黄河三角洲湿地演化的过程中,受到自然和人为方面演化驱动力的共同作用.其中,自然因素主要有:黄河断流、泥沙淤积和自身演替动力等.人为驱动力主要为农田开垦、滩涂的开发与围垦、油田开发和人工建筑等.  相似文献   

黄河三角洲人类干扰活动强度变化及其景观格局响应   总被引：1，自引：0，他引：1  

刘佳琦  栗云召  宗敏  张保华  吴晓青 《地球信息科学学报》2018,20(8):1102-1110

本研究以湿地变化较为剧烈的黄河三角洲为研究对象,基于RS技术和GIS空间分析方法,利用人为干扰度模型,结合区域人工沟渠建设情况,从区域和局地两个尺度直观揭示人类干扰强度时空分异特征,并探究区域景观格局对人类干扰活动的响应,以期为黄河三角洲滨海湿地生态保护与人类活动调控提供决策支持。结果表明：① 1995-2015年现代黄河三角洲区域人为干扰度和人工沟渠密度均明显增加,空间分布呈现从西南部向东部、北部,自内陆向沿海的扩展趋势;② 随着人类活动强度增强,研究区自然湿地面积减少,区域景观多样性和空间异质性增加,景观整体连通性减弱,景观复杂性降低;③ 景观格局对人类干扰强度变化的响应关系呈现出地区和时间差异;人类干扰活动强度相对较低的保护区受人工沟渠建设的影响,也呈现出斑块团聚程度降低、景观多样性增加和景观复杂性降低的变化趋势;④ 人为干扰度指数和人工沟渠密度指标互为补充,互相印证,可以较为全面、客观地反映黄河三角洲地区人类干扰活动强度。  相似文献   

近40年来白洋淀湿地土地覆被变化分析   总被引：4，自引：0，他引：4  

王京  卢善龙  吴炳方  闫娜娜  裴亮 《地球信息科学学报》2010,12(2):292-300

白洋淀是华北平原上现存最大的天然湖泊,是典型的内陆湿地。最近40年,白洋淀湿地出现了水面萎缩、生态功能急剧退化、生物多样性减小和水体污染严重等生态环境问题。本文利用1964年CORONA侦察卫星影像、1974年和1983年Landsat MSS影像和2002年ETM+影像,对白洋淀湿地的土地覆被变化及其驱动力做了详细分析。结果表明,湿地面积呈减少趋势:1964年为407.3km2,2002年缩减到274.63km²。湿地水面起伏变化大,1964年水面较宽,为346.75km²;到1974的10年间,减少到94.65km²,1983年和2002年水面继续变窄,水面面积分别为67.27km²和46.86km²。引起湿地土地覆被变化的原因包括降雨量的减少、蒸发量的增大、城市发展用水增大、不合理土地利用开发和上游水库、引水工程修筑等。  相似文献   

基于ANN-CA的银川平原湿地景观演化驱动力情景模拟分析     

张美美  张荣群  郝晋珉  艾东 《地球信息科学学报》2014,(3):418-425

本文通过对湿地景观的时空动态发展过程其形成空间格局的分析,构建了基于ANN-CA的银川平原湿地景观时空模拟模型,并对湿地景观格局过程与主要驱动力因子间的响应关系进行了情景模拟。研究结果表明:年降水量对天然湿地中的河流湿地和湖泊湿地的驱动作用呈正相关关系,对水稻田和坑塘湿地的影响不显著;人口密度对人工湿地的驱动作用呈正相关,随着人口密度的增加,水稻田和坑塘向各个方向大面积蔓延,河流和湖泊等天然湿地的面积则逐渐减少;随着农业生产活动的加强、农业总产值的增加,河流和湖泊缓慢减少,水稻田和坑塘等人工湿地分布迅速扩张。  相似文献   

近30年刘家峡以下黄河上游河道湿地演变规律与驱动力分析     

夏热帕提·阿不来提  刘高焕  刘庆生  黄翀  管续栋 《地球信息科学学报》2017,19(8):1116-1131

河道湿地是流域生态系统中,位于水陆交错地带,关联陆地生态系统和水生生态系统的桥梁和纽带,对蓄水滞洪、净化水质和水土保持,以下维持生物多样性和生态平衡起重要的作用。本文采用1986、1996、2000、2006和2015年5期Landsat遥感影像数据对刘家峡以下黄河上游湿地进行湿地解译提取,并利用空间统计分析法、转移矩阵法和质心位置变化法对刘家峡以下黄河上游河段河道湿地演变规律以及驱动力因素进行研究。结果表明,1986-2015年,黄河上游河道湿地面积从17.3万hm²逐渐减少到12.2万hm²,减少了29.0%。研究区土地利用类型的转移主要发生在河流、裸滩、草本湿地与耕地的相互转化上。过去30年嫩滩湿地的变化幅度远大于老滩湿地,嫩滩湿地面积从1986年的15.46万hm²减少到2015年的10.41万hm²,减少了32.7%,嫩滩湿地演变规律为天生湿地型之间的相互演变,即河流-裸滩-沼泽湿地。而老滩湿地面积基本处在稳定状态,面积范围在1.84~2.28万hm²之间,具有天然湿地-人工湿地与天然湿地-农业用地的演变规律特征。水渠湿地、坑塘湿地和森林湿地质心位置变化较为突出,由单一类型动态度分析可知,研究区自然湿地萎缩、城镇化加速、河流水面面积减少加快。以上分析结果与研究区气温、水利水电工程、灌溉用水、凌汛期冰情以及城镇化程度均有关,与降雨量无明确关系。  相似文献   

北京湿地分析与监测   总被引：23，自引：0，他引：23  

张志锋  赵文吉贾萍 谢志茹 《地球信息科学学报》2004,6(1):53-57

在“3S”技术支持下,结合野外调查与室内综合分析,全面调查监测了北京地区湿地的类型、面积。其类型较多、分布较广、湿地环境差异显著,生物多样性丰富。湿地的主要类型包括湖泊湿地、河流湿地、水库、池塘、稻田等自然湿地和人工湿地,其中人工湿地面积为323541.822km²,自然湿地面积为138214.740km²,约占全市面积的0.3%。另外,选择重点水库湿地和典型湿地做了动态变化研究,结果表明:水库湿地中的密云水库、官厅水库和怀柔水库与1998年相比,面积分别减少了42.0%,23.9%和4.9%,典型湿地的景观格局也发生了相应的改变。由此可以看出,北京湿地面积逐年减少、生态环境质量逐年下降。最后,根据北京湿地现状和暴露出来的问题,提出了一些建设性的结论和建议。本项目的实施为进一步研究湿地变化与周边气候、地形地貌、土地利用、植被变化以及社会经济发展情况的关系,分析湿地受威胁因素,评价湿地生态环境现状,提出湿地保护的措施,奠定了基础。  相似文献   

四川省小流域泥石流危险性评价   总被引：1，自引：0，他引：1  

熊俊楠  韦方强  刘志奇 《地球信息科学学报》2017,19(12):1604-1612

泥石流危险性评价是泥石流防灾减灾的重要内容。本文以四川省为研究区,以DEM为数据源,通过提取水流方向,计算汇流累积量,实现四川省小流域划分。基于收集的已查明泥石流流域资料,分析了泥石流孕灾环境与成灾特点,选择流域高差、流域面积为指标,建立基于能量条件的潜势泥石流流域判识模型,对划分的小流域进行判识,识别出7798个小流域具备泥石流发生所需能量条件,面积为31.1×10⁴ km²,占四川省总面积的64.18 %。进而建立了泥石流危险性评价指标体系和可拓物元模型,开展了小流域泥石流危险性评价,划分了危险度等级,得到中度、高度、极高危险区的小流域个数分别为1946、1725和1002个,面积分别为9.1×10⁴、7.7×10⁴和3.4×10⁴ km²,中度以上危险区面积共20.2×10⁴ km2,占四川省总面积的41.67%。最后对评价结果可靠性和各等级泥石流危险区在各地市级行政区、各大流域的分布进行了分析。其结果对促进泥石流判识与危险性评价理论,区域泥石流防灾减灾与山区可持续发展等具有重要的理论和现实意义。  相似文献   

黄河下游沿岸湿地景观格局变化研究   总被引：1，自引：0，他引：1  

张建辰  王艳慧 《地理信息世界》2013,(1):97-102

在遥感和GIS技术的支持下,结合研究区湿地的区域特点确定沿黄湿地景观分类系统。构建了湿地景观格局变化表征模型,综合利用景观多样性指数、景观破碎化指数、景观要素斑块分布质心空间变化等景观格局指标和斑块数量,斑块面积、斑块平均面积、斑块数量等景观类型指标,比较系统地分析了近七年研究区湿地景观格局的动态变化。结果表明:①研究区湿地的分布面积呈显著下降趋势;②随着人类干扰强度的增加,景观多样性上升;③湿地景观要素中,稻田湿地、滩涂面积在减少,而水库坑塘、黄河面积都在不断增加。  相似文献   

近50年来富锦湿地景观遥感与GIS的时空动态分析   总被引：3，自引：0，他引：3  

王志强  张柏  徐振华  张树清 《地球信息科学学报》2006,8(1):21-25,29

湿地是重要的自然资源,但是由于自然和人为影响,湿地正在大面积的萎缩,导致功能和效益下降,并危及到区域的持续发展。本文以三江平原挠力河流域富锦(市)作为研究区域,以RS、GIS和Fragstats为技术手段,分析了自1954年以来沼泽湿地的空间和时间退缩过程及其驱动力,重建了自1954年以来的土地利用/土地覆被变化过程。结果表明,湿地面积由1954年的519.917．96hm²下降到105.008hm²,由占总面积的61．27％下降到12．39％,仅是原来面积的17．74％;而耕地面积由223 173．54hm²增加到597 156．25hm²,由占总面积的25．31％增加到70．45％。同时指,出人类的农垦活动是富锦沼泽湿地面积退缩的主要原因。  相似文献   

Dynamic Changes in the Wetland Landscape Pattern of the Yellow River Delta from 1976 to 2016 Based on Satellite Data     

《中国地理科学(英文版)》2019,(3)

The Yellow River Delta wetland is the youngest wetland ecosystem in China's warm temperate zone. To better understand how its landscape pattern has changed over time and the underlying factors responsible, this study analyzed the dynamic changes of wetlands using five Landsat series of images, namely MSS(Mulri Spectral Scanner), TM(Thematic Mapper), and OLI(Operational Land Imager) sensors in 1976, 1986, 1996, 2006, and 2016. Object-oriented classification and the combination of spatial and spectral features and both the Normalized Difference Vegetation Index(NDVI) and Normalized Difference Water Index(NDWI), as well as brightness characteristic indices, were used to classify the images in eCognition software. Landscape pattern changes in the Yellow River Delta over the past 40 years were then delineated using transition matrix and landscape index methods. Results show that: 1) from1976 to 2016, the total area of wetlands in the study area decreased from 2594.76 to 2491.79 km~2, while that of natural wetlands decreased by 954.03 km~2 whereas human-made wetlands increased by 851.06 km~2. 2) The transformation of natural wetlands was extensive: 31.34% of those covered by Suaeda heteropteras were transformed into reservoirs and ponds, and 24.71% with Phragmites australis coverage were transformed into dry farmland. Some human-made wetlands were transformed into non-wetlands types: 1.55% of reservoirs and ponds became construction land, and likewise 21.27% were transformed into dry farmland. 3) From 1976 to 2016, as the intensity of human activities increased, the number of landscape types in the study area continuously increased. Patches were scattered and more fragmented. The whole landscape became more complex. In short, over the past 40 years, the wetlands of the Yellow River Delta have been degraded, with the area of natural wetlands substantially reduced. Human activities were the dominant forces driving these changes in the Yellow River Delta.  相似文献   

Landscape pattern evolution processes of alpine wetlands and their driving factors in the Zoige Plateau of China   总被引：5，自引：2，他引：3  

BAI Jun-hong  LU Qiong-qiong  WANG Jun-jing  ZHAO Qing-qing  OUYANG Hua  DENG Wei  LI Ai-nong 《山地科学学报》2013,10(1):54-67

Zoige Plateau wetlands are located in the northeastern corner of the Qinghai-Tibet Plateau.The landscape pattern evolution processes in the Zoige Plateau and their driving factors were identified by analyzing the dynamic changes in landscape modification and conversion and their dynamic rates of alpine wetlands over the past four decades.The results showed that the landscape conversion between wetlands and non-wetlands mainly occurred during the period from 1966 to 1986.The marsh wetland area converted from lake and river wetlands was larger because of swamping compared to other wetland landscapes.Meanwhile,the larger area of marsh wetlands was also converted to lake wetlands more than other types of wetlands.The modification processes mainly occurred among natural wetland landscapes in the first three periods.Obvious conversions were observed between wetland and nonwetland landscapes(i.e.,forestland,grassland,and other landscapes) in the Zoige Plateau.These natural wetland landscapes such as river,lake and marsh wetlands showed a net loss over the past four decades,whereas artificial wetland landscapes(i.e.,paddy field and reservoir and pond wetlands) showed a net decrease.The annual dynamic rate of the whole wetland landscape was 0.72%,in which the annual dynamic rate of river wetlands was the highest,followed by lake wetlands,while marsh wetlands had the lowest dynamic rate.The integrated landscape dynamic rate showed a decreasing trend in the first three periods.The changes in wetland landscape patterns were comprehensively controlled by natural factors and human activities,especially human activities play an important role in changing wetland landscape patterns.  相似文献   

黄河三角洲景观格局变化及生态风险评价          下载免费PDF全文

刘冰  王靖伟  吴福荣  吴明阳  罗松  陈慧  韩斌 《山东国土资源》2023,39(5)

黄河三角洲具有极高的生态价值，研究其景观格局及生态风险对促进黄河三角洲高质量发展具有重要意义。本文以黄河三角洲1980年、2000年和2020年土地利用数据为基础，分析土地转移及景观格局特征，同时构建生态风险评价模型揭示生态风险时空演变及空间相关性。结果表明：（1）耕地是黄河三角洲最主要的地类，占比在60%以上，1980—2020年土地转移主要发生在耕地、建设用地、水域和未利用地之间。（2）1980—2020年黄河三角洲景观斑块数、景观斑块密度、景观最大斑块指数、景观形状指数和香农多样性指数均呈下降趋势，区域整体趋向简单化和聚集化。（3）黄河三角洲高风险区和较高风险区主要环渤海分布，1980—2020年各级风险区转出最大面积均为更低级风险区，生态风险有所降低。  相似文献   

Evolution characteristics of hydrological connectivity pattern of marsh wetland in Naoli River Basin     

WANG Haonan  HOU Guanglei  YANG Changbao  SONG Xiaolin 《世界地质(英文版)》2021,24(2):95-102

As an important indicator of the structural and functional stability of wetland landscapes, hydrological connectivity plays an important role in maintaining the stability of wetland ecosystems. Large-scale human activities have led to significant changes in the hydrological connectivity pattern of wetlands in Naoli River Basin since 1950 s. Combined with the availability of wetland habitat and the spreading capacity of aquatic birds, hydrological connectivity indices of marsh wetlands were calculated in the studied area, and the temporal and spatial changes were analyzed from 1950 s to 2015. The results indicate that:(1) the hydrological connectivity index of the marsh wetlands shows a growth trend with increasing distance threshold. All patches of marsh wetlands linked together when the distance threshold reached 35--40 km;(2) the optimal distance of hydrological connectivity is about 10 km for marsh wetlands of whole Naoli River Basin;(3) the total hydrological connectivity of marsh wetlands decreased in the Naoli River Basin from 1950 s to 2015. Although the hydrological connectivity index increased after 2005, the fragmentation of the landscape has not been improved. The analysis of the wetland hydrological connectivity can provide a scientific basis for the ecological restoration and protection of the wetland in the Naoli River Basin.  相似文献   

Analysis of dynamics and driving factors of wetland landscape in Zoige, Eastern Qinghai-Tibetan Plateau   总被引：3，自引：0，他引：3  

Pengfei Qiu  Ning Wu  Peng Luo  Zuyuan Wang  Maihe Li 《山地科学学报》2009,6(1):42-55

Zoige Wetland is one of the largest plateau wetlands in the world. This paper provides a dynamic analysis of spatial and temporal patterns of the wetland in Zoige, Eastern Qinghai-Tibetan Plateau, supported by ERDAS8.7 and ArcGIS9.0. It is the first comparative analysis of a system of rapidly changing wetland with landscape patterns in Zoige, using 3 classified landsat Thematic Mapper images of 1977, 1994 and 2001. The classified images were used to generate wetland distributing maps, and shape index （S）, diversity index （H）, dominance index （D）, evenness index （E）, fragmentation index （F） and fractal dimension （Fd） were calculated and analyzed spatiotemporally across pure grazing area in Zoige for each landscape type and in different periods （before 1977, during 1977-1994 and 1994-2001）, as well as the driving forces of natural and anthropogenic. The study shows that for a comprehensive understanding of the shapes and trajectories of the shrinking and desertificated land expansion of the wetland, a spatiotemporal landscape metrics analysis in different periods is an improvement than only with landscape changing rates. This type of analysis can also be used to infer underlying social, economic, and political processes that drive the observed wetland forms. The results indicate that wetland patterns can be changed over relatively short periods of time. The total area of lake reduced by 164.86 km^2, grassland extended by 141.74 km^2, semi-marsh extended by 105.94 km^2, marsh reduced by 86.00 km^2 the number of landscape patches reduced by 56, and their average area decreased by 2.68 km^2, the successions within lake, marsh, semi-marsh and grassland were found obviously. S decreased stepwise： D and F increased but H decreased： The changing rate after 1994 was 2.3 to 2.9 times greater than that before. The change of the wetland landscape patterns resulted in the interaction between socio-ceenomic and natural forces of positive and negative aspects; and natural factors affected as assistant aspect. Some important human activities in this period led to the change of the landscape patterns in this region directly. Some measurements made by government and NGO delayed the converting process partly.  相似文献   

Eco-compensation of wetlands in Yellow River Delta of Shandong Province, China     

Mei Han  Jinlong Cui  Zhen Hao  Yi Wang  Renqing Wang 《中国地理科学(英文版)》2012,22(1):119-126

Wetlands play an important ecological role and provide many functions for people,yet wetlands are cur-rently decreasing and deteriorating.The ability to calculate an economic value for the loss of wetlands is becoming in-creasingly important for policy makers.In this study,remote sensing,field investigations,department visits,and other methods were used to survey wetland types,assess wetland area changes,and calculate wetland economic value.Mar-ket value loss and ecological function value loss,caused by reduction of wetland area and environmental pollution were calculated using commonly accepted methods of market valuation,ecological valuation,environmental protection investment cost analysis,and outcome parameters.According to market value loss and ecological function value loss,preliminarily fund allocation for wetland and ecological compensation was calculated.This will provide an important reference for future Yellow River Delta eco-compensation studies.  相似文献   

Dynamics of wetland landscape pattern in Kaifeng City from 1987 to 2002   总被引：2，自引：0，他引：2  

Xinxiang Cao 《中国地理科学(英文版)》2008,18(2):146-154

It is very significant for urban development and urban wetland protection and utilization to probe into the process and reasons of urban wetland landscape dynamics. Taking the information of remote sensing and detailed land survey data as the basic information sources, with the help of RS and GIS, according to the principles and methods of landscape ecology, this paper analyzed wetland landscape pattern dynamics and its reasons in Kaifeng City, Henan Province of China, from 1987 to 2002. The results show that the total wetland area in Kaifeng City firstly reduced by 20.1% from 1987 to 1990 and then increased from 1990 to 2002, with an average annual growth rate of 3.3%. At the same time, landscape fragment degree and landscape dominance degree increased, respectively from 0.64 to 0.72 and from 0.3754 to 0.5563, but mean patch area, maximum patch area, patch fractal dimension reduced. As far as single landscape element concerned, fi＇om 1987 to 2002, patch area, patch number, patch density, patch shape and patch location changed in varying degrees in all wetland types in Kaifeng City, among which rice field changed most and others relatively less. In the recent 20 years, rice fields, lake wetlands, puddles and ponds had a higher stability, but river and bottomland wetlands were mostly transformed to land use types. The change of wetland landscape pattern was the result of the combined action of the Huanghe （Yellow） River, urban expansion, wide cultivation of rice, and rapid development of fishery. Among them human activities were the main driving factors for wetland landscape changes.  相似文献