共查询到19条相似文献,搜索用时 14 毫秒
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中国湖泊现状及面临的重大问题与保护策略 总被引:73,自引:35,他引:38
我国湖泊数量多、类型全、分布广,湖泊的形成演化不仅受流域自然环境因素及变化的影响,而且还深受人类活动的干扰,呈现出不同的区域演变特征和生态环境问题.近几十年来,我国湖泊数量、面积和分布都发生了较为显著的变化,并面临着湖泊萎缩与调蓄能力减少、水质下降与富营养化加重、生物多样性减少与生态退化、河湖水力和生态联系阻隔以及湖岸线和环湖地带过度开发等问题,引发一系列生态与环境后果,严重影响流域居民日常生活和经济的可持续发展.本文通过大量湖泊野外考察和调查,查清了我国面积大于1km2湖泊的数量、面积和分布状况,结合历史湖泊调查和相关研究资料,系统分析了近几十年我国湖泊面临的重大生态环境问题及区域特征,提出了我国湖泊保护的策略. 相似文献
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广东省水库富营养化评价 总被引:13,自引:2,他引:11
广东省水库水环境质量调查评价结果表明:广东省水库水质总体较好,但不同程度地发生了富营养化;在汛期,被 评价的132座水库中中营养型水库111座,中富营养型水库12座,富营养化水库2座;非汛期,中营养型水库111座,中富 营养型水库11座,富营养化水库1座.造成水库富营养化的主要原因是面污染的日益加剧、城市污水排放量的激增、水土 流失造成水库泥沙淤积严重、水库蓄水量减少等.水库的富营养化影响了其使用功能.为恢复富营养水库的使用功能,其 对策主要是减少面污染物排放量、提高污水处理率、加强水土流失的治理、清除淤泥等. 相似文献
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不同污染程度湖泊底栖动物群落结构及多样性比较 总被引:39,自引:5,他引:34
首次对湖北梁子湖水系污染程度不同(中营养型、中富营养型、富营养型)的4个湖泊的底栖动物群落结构和物种多样性进行了周年研究,结果表明,底栖动物种类数、物种多样性与湖泊受污染程度呈负相关系,密度与污染程度大体上呈正相关.还讨论了底栖动物环境指示种生态特性,研究表明中国长足摇蚊的密度与水体营养水平呈正相关,软体动物种类数与湖泊污染程度呈负相关.通过对软体动物、寡毛类及摇蚊类密度和生物量在不同湖泊之间的差异的分析,表明湖泊水体污染导致了底栖动物多样性明显降低. 相似文献
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动态聚类分析与太湖水质分区 总被引:2,自引:0,他引:2
以总硬度、pH、溶氧、化学耗氧、总氮、总磷、浮游植物、透明度8项指标为依据,参照现行湖泊营养类型划分标准,应用fuzzy聚类分析方法对我国42个主要湖泊聚类并划分其营养类型,同时对各类型的指标特征进行了分析。结果表明:在相似水平λ=0.69下,42个湖泊共聚为13类。其中,中、富营养型有较强的相似性,其差异显著的指标为总氮、总磷和化学耗氧量;贫营养型湖泊相似性差,其共同特征是指标中一项或数项显著异于一般营养范围。聚类结果与传统分类基本吻合。 相似文献
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青海湖最近25年变化的遥感调查与研究 总被引:29,自引:6,他引:23
青海湖是我国最大的内陆水体,它及其流域的生态环境近来一直倍受广泛关注.其水位下降、湖水面积缩小、湖体分离等更是研究的热点问题.本文针对这些问题展开遥感调查与研究,收集了多时相、多种信息源的影像数据;分析了1975年至2000年25年以来湖泊的变迁及成因,湖岸变化及湖体分离状况;用遥感方法反推25年以来湖水位的变化;计算了1975、2000年两个年份的湖水面积,并遥感分析了湖水面积萎缩的原因.此外,对青海湖进行了实地调查与水深测量,建立了该湖泊水深反演模型. 相似文献
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2000年以来青藏高原湖泊面积变化与气候要素的响应关系 总被引:1,自引:0,他引:1
青藏高原星罗密布的湖泊对气候变化十分敏感,在自然界水循环和水平衡中发挥着重要作用.以MODIS MOD09A1和SRTM DEM为数据源,提取了2000-2016年青藏高原丰水期面积大于50 km2的湖泊边界,从内外流分区、湖泊主要补给来源和湖水矿化度三个方面对2000年以来湖泊面积变化进行分析,并结合青藏高原近36年气象数据,根据气象要素变化趋势分区,初步探讨青藏高原湖泊面积变化与气候要素的关系.结果表明:青藏高原面积大于50 km2的138个湖泊整体扩张趋势显著,总面积增加2340.67 km2,增长率为235.52 km2/a.其中,扩张型湖泊占67.39%,萎缩型湖泊占12.32%,稳定型湖泊占20.29%.内流湖扩张趋势显著,外流湖扩张趋势较明显;以冰雪融水为主要补给来源的湖泊整体扩张趋势明显,以地表径流和河流补给为主要补给源的湖泊也呈扩张趋势;盐湖和咸水湖以扩张为主,淡水湖的扩张、萎缩和稳定三种类型较均衡.在青藏高原气候暖湿化方向发展背景下,湖泊面积变化与气候要素具有显著的区域相关性.气温和降水变化趋势分区结果表明,气温增加、降水增加强趋势的高原Ⅰ区湖泊扩张程度(78.18%)依次大于气温降低、降水量呈增加趋势的Ⅴ区(66.67%),气温、降水量呈增加趋势的Ⅱ区(60.78%),气温呈降低、降水量呈增加强趋势的Ⅳ区(58.83%)和气温呈增加、降水量呈减少趋势的Ⅲ区(50.00%).湖泊面积变化对气候变化响应研究表明,升温引起的冰雪融水补给对Ⅰ区、Ⅱ区和Ⅲ区湖泊面积扩张的影响显著,加之降水量的增加,湖泊扩张速率明显;Ⅳ区和Ⅴ区湖泊面积扩张主要受降水量增加影响显著.整体而言,气温主要影响以冰雪融水为主要补给来源的湖泊,降水量主要影响以降水和地表径流为主要补给来源的湖泊. 相似文献
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近40年青藏高原湖泊面积变化遥感分析 总被引:13,自引:7,他引:6
以MSS、TM和ETM遥感影像作为主要信息源,综合利用RS、GIS技术,提取青藏高原1970s、1990s、2000s及2010s 4个时段的湖泊面积信息,分别从区域位置、面积规模、海拔高度3方面分析其近40年来的变化趋势及变化特征,同时结合1972-2011年间青藏高原气候变化情况,初步探讨了影响青藏高原湖泊面积变化的主要原因.研究结果表明:(1)青藏高原面积大于10 km2的湖泊有417个,这些湖泊大多是面积为10~100 km2的小型湖泊,空间上集中分布在高原西部地区,海拔上集中在4500~5000 m范围内;(2)近40年青藏高原湖泊面积的变化趋势及差异性特征在整体上表现为湖泊呈加速扩张的趋势,其中2000s-2010s时段是湖泊扩张最显著的时期;在区域位置上,北部地区的湖泊变化最为剧烈;在面积规模上,小型湖泊扩张最为显著;在海拔高度上,低海拔地区湖泊扩张剧烈;(3)近40年青藏高原气候暖湿化程度明显,气候变化对湖泊面积变化影响显著;在气象要素中,降水量的变化是青藏高原湖泊面积变化的主要驱动因子. 相似文献
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2000-2010年东北地区湖泊动态变化及驱动力分析 总被引:2,自引:0,他引:2
以2000、2005和2010年的Landsat TM和ETM遥感影像为主要数据源,利用面向对象的分类方法,提取3期东北地区湖泊数据;在GIS技术的支持下,分析了过去10年东北地区湖泊的时空变化特征,并对导致湖泊面积变化的自然和人文驱动因素进行分析.结果表明:2000-2010年间,东北地区湖泊面积由12234.02 km2减少至11307.58 km2,其中,2005-2010年间湖泊萎缩剧烈程度大于2000-2005年;湖泊数量先增加后减少,10年间共减少了4092个;10年间天然湖泊面积大幅减少,人工湖泊面积略增加;研究区内西北方向湖泊萎缩程度小于东南方向,质心向西北偏移;湖泊变化受自然因素和人类活动的共同影响,人类活动叠加在自然因素之上,对湖泊变化产生了放大作用. 相似文献
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1973-2010年巴丹吉林沙漠腹地湖泊面积空间变化的遥感分析 总被引:5,自引:3,他引:2
利用1973、1990、2000、2010年4个时期遥感影像数据,提取并统计了1973-1990、1990-2000、2000-2010、1973-2010年4个时期湖泊面积变化信息,分析了巴丹吉林沙漠湖泊面积变化的空间特征.结果表明,湖泊数量与面积整体表现为减小,同时也存在湖泊面积增大与湖泊新增;1973-2010年间,沙漠腹地共干涸19个湖泊、新增7个湖泊,43个湖泊萎缩、6个湖泊扩张,26个湖泊面积基本保持稳定;从湖泊面积的空间变化看,面积减小的湖泊在整个湖泊区域均有分布,面积增大的湖泊较多分布于研究区东侧,且多在中东部区域外围,面积减小剧烈的湖泊在空间上有聚集分布的态势;湖泊面积变化量在整个空间上并没有表现出显著的正相关关系.湖泊面积变化所表现的空间特征可能由于不同湖泊区域补给来源不同或不同湖泊补给方式存在差异造成的. 相似文献
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Effects of Watershed Land Use and Lake Morphometry on the Trophic State of Chinese Lakes: Implications for Eutrophication Control 总被引:1,自引:0,他引:1
Water quality in lakes is influenced by a large number of watershed and lake characteristics. In this study, we examined the relative effects of watershed land use and lake morphology on the trophic state of 19 lakes in the Yunnan plateau and lower Yangtze floodplain, the two most eutrophic regions in China. Trophic state parameters consisted of total nitrogen, total phosphorus, chemical oxygen demand, chlorophyll‐a, Secchi depth, and trophic state index, while lake morphometric variables included area, maximum depth, mean depth, water residence time (WRT), volume, and length to width ratio. Percentages of forest, grassland, cropland, unused land, built‐up land, and water body in each lake's watershed were extracted from a land use map interpreted from Landsat TM images. A t‐test indicated that lower Yangtze floodplain lakes were shallower and had higher percentages of cropland and built‐up land in watersheds than Yunnan plateau lakes. Pearson's correlation analysis indicated that both watershed land use and lake morphometric variables were significantly related to most of the trophic state parameters. However, stepwise regression analyses demonstrated that the trophic state of the lower Yangtze floodplain lakes was mainly controlled by the percentages of cropland and built‐up land in watersheds, while that of Yunnan plateau lakes was mostly determined by the lake depth and WRT. These results suggest that the relative effects of watershed land use and lake morphology on lake trophic state are dependent on the lake's location. This study can provide some useful information in watershed land use management for controlling eutrophication in Chinese lakes. 相似文献
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Nico Mölg Christian Huggel Thilo Herold Florian Storck Simon Allen Wilfried Haeberli Yvonne Schaub Daniel Odermatt 《地球表面变化过程与地形》2021,46(13):2551-2564
Retreating glaciers give way to new landscapes with lakes as an important element. In this study, we combined available data on lake outlines with historical orthoimagery and glacier outlines for six time periods since the end of the Little Ice Age (LIA; ~1850). We generated a glacial lake inventory for modern times (2016) and traced the evolution of glacial lakes that formed in the deglaciated area since the LIA. In this deglaciated area, a total of 1192 lakes formed over the period of almost 170 years, 987 of them still in existence in 2016. Their total water surface in 2016 was 6.22 ± 0.25 km2. The largest lakes are > 0.4 km2 (40 ha) in size, while the majority (> 90%) are smaller than 0.01 km2. Annual increase rates in area and number peaked in 1946–1973, decreased towards the end of the 20th century, and reached a new high in the latest period 2006–2016. For a period of 43 years (1973–2016), we compared modelled overdeepenings from previous studies to actual lake genesis. For a better prioritization of formation probability, we included glacier-morphological criteria such as glacier width and visible crevassing. About 40% of the modelled overdeepened area actually got covered by lakes. The inclusion of morphological aspects clearly aided in defining a lake formation probability to be linked to each modelled overdeepening. Additional morphological variables, namely dam material and type, surface runoff, and freeboard, were compiled for a subset of larger and ice-contact lakes in 2016, constituting a basis for future hazard assessment. 相似文献
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Min Chen Joel C. Rowland Cathy J. Wilson Garrett L. Altmann Steven P. Brumby 《水文研究》2014,28(3):837-852
To better understand the linkage between lake area change, permafrost conditions and intra‐annual and inter‐annual variability in climate, we explored the temporal and spatial patterns of lake area changes for a 422 382‐ha study area within Yukon Flats, Alaska using Landsat images of 17 dates between 1984 and 2009. Only closed basin lakes were used in this study. Among the 3529 lakes greater than 1 ha, closed basin lakes accounted for 65% by number and 50% by area. A multiple linear regression model was built to quantify the temporal change in total lake area with consideration of its intra‐annual and inter‐annual variability. The results showed that 80.7% of lake area variability was attributed to intra‐annual and inter‐annual variability in local water balance and mean temperature since snowmelt (interpreted as a proxy for seasonal thaw depth). Another 14.3% was associated with long‐term change. Among 2280 lakes, 350 lakes shrank, and 103 lakes expanded. The lakes with similar change trends formed distinct clusters, so did the lakes with similar short term intra‐annual and inter‐annual variability. By analysing potential factors driving lake area changes including evaporation, precipitation, indicators for regional permafrost change, and flooding, we found that ice‐jam flooding events were the most likely explanation for the observed temporal pattern. In addition to changes in the frequency of ice jam flooding events, the observed changes of individual lakes may be influenced by local variability in permafrost distributions and/or degradation. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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东部平原湖泊区是我国淡水湖泊最集中的地区,分布着我国的五大淡水湖等诸多湖泊.然而,江湖阻隔对该区域湖泊的生物多样性造成严重威胁.本文选取东部平原的9个湖泊,对江湖阻隔前后鱼类功能性状(3组分类性状和6个连续性状)和功能多样性指数的变化规律开展了研究.结果表明,9个湖泊的鱼类总物种数由江湖阻隔前的140种减少为江湖阻隔后的100种,平均物种数由79.6种减少到52.1种(减少34.4%).江湖阻隔后鱼类群落的功能性状和功能多样性指数发生了显著变化,洄游性鱼类(包括河海洄游和江湖洄游)物种占比(由39.7%降至32.6%)和鱼食性物种占比(由31.1%降至25.2%)显著下降,而非洄游性物种占比(由60.3%升至67.5%)和浮游生物食性物种占比(由13.5%升至15.5%)显著上升.连续型性状中,平均营养级(由3.14降至3.10)显著下降、平均生长速率(由0.57 a-1升至0.65 a-1)显著上升.阻隔后的物种数(SR)、功能丰富度指数、功能离散度指数和功能分散指数显著低于阻隔前.本研究表明江湖阻隔后鱼类群落不仅物种丰富度下降,且功能性状趋向同质化(或单一化)发展,致使功能多样性下降.研究结果可为东部平原湖泊的渔业资源管理及湖区生态修复和保护提供重要的理论依据. 相似文献
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Ash Kumar Rai 《湖泊科学》1998,10(S1):181-201
Harnessing the natural resources is one of the basis of natural economy in developing countries. The wise use of such resources is very important to sustain the balance between immediate benefits and maintenance of the ecosystem. In Phewa, Begnas and Rupa lakes of Pokhara Valley, plankton feeding fish farming in net cage,enclosure and open water stocking is one of the effective example of natural resources utilisation which sustains a number of households in surrounding lakes for economic activities. These lakes are also used for drinking water, hydroelectricity, irrigation and recreation etc. However, the understanding of trophic status of the lakes is very important for long term sustainable use of the lakes in harmony with human activities. Here, we present the trophic status of three lakes of Pokhara Valley and discuss the impacts of human and natural activities on the trophic status of the lake. The study shows that heavy rain fall in the valley during monsoon is one of the strongest natural forces which flush out the accumulated nutrients from the lakes and migrate the eutrophication processes. Recommendations for sustainable use of lake water have also been discussed. 相似文献
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城市湖泊作为城市与自然之间进行水气交换的蓝色空间,具有供水、防洪、休闲、气候调节以及改善城市生态环境等诸多生态服务功能。中国地域辽阔、城市众多,不同区域的城市湖泊受自然地理环境和社会经济发展等因素的影响而具有显著的空间差异特征。目前已有研究对我国省会城市和个别大型城市的湖泊空间分布及变化特征等开展研究,但全国范围内各行政等级单元内城市湖泊分布的空间格局及其影响因素仍缺乏综合分析。本研究基于中国城市湖泊数据集,从城市分布的地域单元、行政等级、城市规模3个方面对城市湖泊分布特征进行统计分析和比较,并结合自然和人类活动要素,初步探讨影响城市湖泊分布规模和丰度的主控因子。结果表明,2020年全国共有约11万个面积大于0.001km2城市湖泊(不包括太湖、滇池等大型湖泊),总面积约2112 km2,约占全国城市(遥感城市不透水层区域)面积的1.1%。城市湖泊的分布具有显著的集聚和分异特征,数量超过70%的城市湖泊分布在约20%的县(区)级行政单元,约21%的县(区)级行政单元基本没有(<10 m遥感影像分辨率下10个像元)城市湖泊分布。城市湖泊数... 相似文献
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Groundwater ‐ the disregarded component in lake water and nutrient budgets. Part 1: effects of groundwater on hydrology 
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下载免费PDF全文 Lake eutrophication is a large and growing problem in many parts of the world, commonly due to anthropogenic sources of nutrients. Improved quantification of nutrient inputs is required to address this problem, including better determination of exchanges between groundwater and lakes. This first of a two‐part review provides a brief history of the evolution of the study of groundwater exchange with lakes, followed by a listing of the most commonly used methods for quantifying this exchange. Rates of exchange between lakes and groundwater compiled from the literature are statistically summarized for both exfiltration (flow from groundwater to a lake) and infiltration (flow from a lake to groundwater), including per cent contribution of groundwater to lake‐water budgets. Reported rates of exchange between groundwater and lakes span more than five orders of magnitude. Median exfiltration is 0.74 cm/day, and median infiltration is 0.60 cm/day. Exfiltration ranges from near 0% to 94% of input terms in lake‐water budgets, and infiltration ranges from near 0% to 91% of loss terms. Median values for exfiltration and infiltration as percentages of input and loss terms of lake‐water budgets are 25% and 35%, respectively. Quantification of the groundwater term is somewhat method dependent, indicating that calculating the groundwater component with multiple methods can provide a better understanding of the accuracy of estimates. The importance of exfiltration to a lake budget ranges widely for lakes less than about 100 ha in area but generally decreases with increasing lake area, particularly for lakes that exceed 100 ha in area. No such relation is evident for lakes where infiltration occurs, perhaps because of the smaller sample size. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Rapid expansion of glacial lakes caused by climate and glacier retreat in the Central Himalayas 总被引:3,自引:0,他引:3 下载免费PDF全文
下载免费PDF全文 Glacial lake outburst floods are among the most serious natural hazards in the Himalayas. Such floods are of high scientific and political importance because they exert trans‐boundary impacts on bordering countries. The preparation of an updated inventory of glacial lakes and the analysis of their evolution are an important first step in assessment of hazards from glacial lake outbursts. Here, we report the spatiotemporal developments of the glacial lakes in the Poiqu River basin, a trans‐boundary basin in the Central Himalayas, from 1976 to 2010 based on multi‐temporal Landsat images. Studied glacial lakes are classified as glacier‐fed lakes and non‐glacier‐fed lakes according to their hydrologic connection to glacial watersheds. A total of 119 glacial lakes larger than 0.01 km2 with an overall surface area of 20.22 km2 (±10.8%) were mapped in 2010, with glacier‐fed lakes being predominant in both number (69, 58.0%) and area (16.22 km2, 80.2%). We found that lakes connected to glacial watersheds (glacier‐fed lakes) significantly expanded (122.1%) from 1976 to 2010, whereas lakes not connected to glacial watersheds (non‐glacier‐fed lakes) remained stable (+2.8%) during the same period. This contrast can be attributed to the impact of glaciers. Retreating glaciers not only supply meltwater to lakes but also leave space for them to expand. Compared with other regions of the Hindu Kush Himalayas (HKH), the lake area per glacier area in the Poiqu River basin was the highest. This observation might be attributed to the different climate regimes and glacier status along the HKH. The results presented in this study confirm the significant role of glacier retreat on the evolution of glacial lakes. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献