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环太湖江苏段入湖河道污染物通量与湖区水质的响应关系 总被引:1,自引:1,他引:0
基于2008-2018年环太湖江苏段入湖河道污染物通量及湖区水质数据,从时空变化及相关关系两个方面探讨了入湖污染物通量与湖区水质的响应关系,并分析了污染物进入湖体影响水质的主要因子.结果表明:太湖污染减排已见成效,氨氮、总氮、高锰酸盐指数和化学需氧量入湖污染物通量整体呈下降趋势,年均下降率分别为8.0%、2.0%、1.6%和2.2%,湖体氨氮和总氮时间格局响应较好,年均下降率分别为2.1%和2.3%.湖体氨氮、总氮、总磷、高锰酸盐指数和化学需氧量与入湖污染物通量整体由西北部、西部湖区向东南部、东部湖区递减,空间格局上响应基本一致.全湖区年尺度总氮、氨氮浓度与入湖河道污染物通量分别呈显著正相关、极显著正相关关系;影响湖区总氮、氨氮的主要因子为入湖河道的总氮、氨氮浓度,其次为入湖河道浓度与原湖区水质差值,因此亟需加强入湖河道水质浓度的控制. 相似文献
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2005-2014年乌梁素海湖泊水质变化特征 总被引:7,自引:2,他引:5
为了确定乌梁素海湖泊水质变化特征,选取乌梁素海2005-2014年6-9月长序列的水质实测数据,分析溶解氧、化学需氧量、总氮、总磷及氟化物的年际变化特征.采用灰色模式识别模型对乌梁素海2005-2014年的水质进行评价,并结合乌梁素海的实际状况,从外源污染、入湖污染物负荷量及入湖水量3个方面对其水质变化的影响因素进行分析.结果表明:2005-2014年间,水质状况转好;除总磷外,各污染指标浓度均有不同程度的下降;灰色综合指数表明乌梁素海水质正向良性方向发展;总磷治理应成为乌梁素海污染治理的主要方面;外源污染的削减、入湖污染物负荷量的降低及入湖水量的增加是乌梁素海水质转好的主要影响因素. 相似文献
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研究鄱阳湖入、出湖污染物通量是加强鄱阳湖及长江水功能区限制纳污红线管理的前提,是建立鄱阳湖水质预测模型的基础.基于2008-2012年鄱阳湖8条主要入湖河流、出湖口的逐月水量、水质同步监测资料,根据污染源特征优选算法,计算总磷(TP)、氨氮(NH3-N)、高锰酸盐指数(CODMn)的入、出湖污染物通量,并分析时空变化特征及影响因素.结果表明:(1)出湖口和乐安河入湖口断面的NH3-N、TP及昌江入湖口断面的TP,以点源污染为主,采用每月瞬时通量作为月平均通量的算法更准确;其余以非点源污染为主,采用瞬时污染物浓度与月平均流量之积来计算月平均通量更准确.(2)2008-2012年CODMn、NH3-N和TP年平均人湖通量分别为304398、53063和9175 t,年平均出湖通量分别为367436、45814和8452t.8条入湖河流每年的入湖水量、CODMn通量和个别年份的NH3-N、TP通量小于出湖,这主要是因为未计算区间产流及相应排污和采砂引起的内源污染.(3)入、出湖污染物通量在年际间主要受水量影响而呈现W型波动变化趋势,CODMn、NH3-N、TP入湖通量及CODMn出湖通量均集中在汛期,NH3-N、TP出湖通量则是冬季较多(低水位下湿地植被净化作用受限).入湖TP、NH3-N、CODMn通量主要来自赣江、信江、乐安河,而NH3-N、TP浓度最高的是乐安河、信江. 相似文献
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太湖流域浙江片区受工业和城市废水以及农田地表径流等人为因素的影响,污染问题日益严重,根据2013年的水文巡测以及水质监测资料,分析了太湖流域浙江片区出入境水量和高锰酸盐指数(COD_(Mn))、氨氮(NH3-N)、总氮(TN)和总磷(TP)等水质指标的出入境通量及其时空分布.结果表明,2013年太湖流域浙江片区出入境水量以出境为主,出入境断面的首要污染物是TN,其平均浓度在各出入境断面均处于Ⅴ~劣Ⅴ类水平,COD_(Mn)、NH_3-N和TP的平均浓度总体上达到Ⅱ~Ⅲ类标准.4种污染物的出入境通量均以出境为主,研究区域北部是污染物的主要入境断面,东部是污染物的主要出境断面.净出境水量是影响污染物净出境通量的关键因子,出入境断面水质是净出境通量的主要影响因子.源头控制农业面源污染、将工业废水和城镇生活污水处理达标后排放是减轻太湖流域浙江片区水体污染的关键,是太湖流域水体污染控制和治理的主要措施. 相似文献
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2007年以来环太湖22条主要河流水质变化及其对太湖的影响 总被引:11,自引:7,他引:4
随着现代经济的迅速发展,太湖流域污染问题日益严重.为了解太湖湖区以及入湖河流的水质变化趋势,分析两者之间的关系,本文选取太湖湖区以及环太湖22条主要入湖河流2007-2014年水质监测资料,按行政区划分析22条主要入湖河流的氨氮、高锰酸盐指数、总磷和总氮浓度变化趋势以及其与太湖水质关系.结果显示,江苏省境内河流2007年以来污染物浓度普遍高于浙江省,但主要入湖河流总体上呈好转趋势,并且河流各指标的浓度变化与太湖的水质变化密切相关,验证了河道污染物输入作为太湖主要的污染物外源,直接影响太湖水质的变化,指出对入湖河流污染物的控制是缓解和治理太湖污染输入的重要途径. 相似文献
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滇池流域水污染特征(1988-2014年)及防治对策 总被引:6,自引:5,他引:1
为明确滇池流域水污染特征并提出有针对性的污染控制对策,对流域污染变化规律及其组成和空间分布特征进行分析.研究表明,近二三十年,滇池流域点源污染负荷的产生量和削减量显著增加,入湖量有所削减;城市面源入湖量随建成区面积的扩张而持续上升;农业面源入湖量在1990s出现峰值,随后下降.目前,滇池流域化学需氧量主要来源于城市面源;总氮主要来自污水处理厂尾水;总磷主要来自农业面源和未收集的点源;各控制单元入湖污染负荷已基本演变为以未收集的点源和城市面源为主.针对流域目前存在的问题,应继续坚持点源污染治理,高度重视城市面源污染治理,加强农业面源治理,进一步完善流域截污治污体系,为滇池水质改善创造条件. 相似文献
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为探究城市湖泊富营养化的污染负荷来源及其贡献率,选择长江流域中下游典型富营养化湖泊(武汉后官湖)为研究对象,结合实测法、平均浓度法与排污系数法,解析了后官湖的外部污染来源(包括点源和面源,面源又进一步划分为农村生活、农业种植、水产养殖、畜禽养殖和城市径流).结果表明:化学需氧量(COD)主要来源于点源,入湖贡献为54%;总磷主要来源于面源,入湖贡献为71%.进一步筛选面源中污染物的主要来源发现,总磷主要来自农业种植和水产养殖,入湖贡献分别为41%和30%;面源中COD、氨氮和总氮贡献最大的是城市径流,入湖贡献率分别为61%、53%和37%.行政区污染排放贡献率中,COD、氨氮、总氮和总磷排放贡献率最大的分别为沌口街办(25. 24%)、蔡甸街办(23.28%)、永丰街办(24.04%)和大集街办(26.15%).开展沌口街办和永丰街办的点源治理可有效消减入湖COD与氨氮负荷,而大集街办的农业面源污染防治则是后官湖流域总磷治理的重点. 相似文献
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基于湖库水质目标的流域氮、磷减排与分区管理——以天目湖沙河水库为例 总被引:9,自引:3,他引:6
湖库水环境保护在保障生产与生活用水、维系生态平衡、发展旅游等方面发挥着重要的作用.水质目标管理是保护湖库水质的最佳管理办法.本文以天目湖地区沙河水库及其流域为研究区域,建立模型模拟沙河水库流域的水文与水质,评估入库污染通量和主要来源;依据水质目标测算氮、磷污染的容量和减排量,结合土地的生态保护与开发适宜性评估,提出氮、磷污染分区减排和土地管控的对策和措施.研究结果表明,沙河水库氮、磷污染物入库通量分别为206.01和3.29 t/a,面源总氮和总磷分别占总入库量的85.7%和67.5%.不同土地利用类型氮、磷输出强度有显著差异,总氮输出强度依次为茶园 >耕地 >建筑用地 >裸地 >草地 >退耕地 >林地 >河湖漫滩,总磷输出强度与地表覆盖度有关,依次为裸地 >建筑用地 >茶园 >耕地 >草地 >退耕地 >林地和河湖漫滩.从氮、磷输移过程来看,沙河水库流域总氮排放量为321.64 t/a,进入河流的为255.53 t/a,在河道输送过程中损失19.4%,最终有206.01 t/a进入水库;沙河水库流域总磷排放量为13.42 t/a,进入河流的为7.90 t/a,在河道输送过程中损失58.3%,最终有3.29 t/a进入水库.不同分区河流氮、磷滞留降解率有很大的差异,中田河总氮、总磷滞留降解能力最强,分别为34.71%和84.31%.2009年的通量计算结果显示,沙河水库总氮达到Ⅳ类水质目标需要的入湖减少量为32.01 t/a,入湖削减比例为15.50%,总氮达到Ⅲ类水质目标需要的入湖减少量为59.66 t/a,入湖削减比例为29.00%;总磷达到Ⅲ类水需要的入湖减少量为0.682 t/a,入湖削减比例为20.70%,总磷达到Ⅱ类水需要的入湖减少量为1.479 t/a,入湖削减比例为44.90%.为了实现基于土地利用的面源污染减排管控,选定植被覆盖度、水源涵养能力、地形坡度、土地利用、氮磷分区贡献量、与道路和村落距离等指标综合评估生态保护价值和开发适宜性,并划定禁止开发区、限制开发区和保护性开发区3个管理分区,最终确定各分区的开发强度限制和管控方式. 相似文献
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Abstract New global models provide the opportunity to generate quantitative information about the world water situation. Here the WaterGAP 2 model is used to compute globally comprehensive estimates about water availability, water withdrawals, and other indicators on the river-basin scale. In applying the model to the current global water situation, it was found that about 24% of world river basin area has a withdrawal to availability ratio greater than 0.4, which some experts consider to be a rough indication of “severe water stress”; the impacts of this stress are expected to be stronger in developing countries than in industrialized ones. Under a “business-as-usual” scenario of continuing demographic, economic and technological trends up to 2025, water withdrawals are expected to stabilize or decrease in 41% of world river basin areas because of the saturation of water needs and improvement in water-use efficiency. Withdrawals grow elsewhere because population and economic growth will lead to rising demand for water, and this outweighs the assumed improvements in water-use efficiency. An uncertainty analysis showed that the uncertainty of these estimates is likely to have a strong geographic variability. 相似文献
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JERZY CYBERSKI 《水文科学杂志》2013,58(3):317-320
ABSTRACT The abrasion of banks of certain storage reservoirs can have considerable importance. Cases are known where the shift of the bank line forecast to take place within a period of ten or fifteen years was exceeded during the first year of operation of the reservoir. However, transformation and erosion of banks in other reservoirs or other bank sections, although anticipated, either has not occurred, or, when it did, its intensity was much lower than expected. This is why the problem of transformation of the near-shore zone in reservoirs is attracting more and more attention from many scientific institutes. The paper presents the subject, methods and results of research on the transformation and erosion of the reservoir banks. The main effort has been concentrated on trying to establish the relationships between geological-morphological and climatic-hydrological conditions. It has been stated that the dynamic potential of the reservoir is of decisive importance. This potential, depending on the morphometry of the reservoir and the meteorological conditions (mainly wind) exerts an influence on the reservoir shore line. Consequently, the erosive-accumulation processes become interrelated, resulting in transformation of the bank zone and its adaptation to new conditions. 相似文献
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ABSTRACTWhile threats to water availability are concerning worldwide, the coastal, rapidly urbanizing state of Florida, USA, is especially at risk. This study used a value approach to determine the propensity to support 10 and 50% monthly water bill increases to inform potential social marketing strategies to protect Florida’s freshwater supply from depletion. The results from five years of public opinion data indicate an increasing percentage of consumers who are willing to support the protection of Florida’s water supply since 2013, with a slight dip in 2017. Upon examination of socio-demographic characteristics, income appeared consistently as an influencer of the propensity to support water bill increases, while factors such as age and race inconsistently appeared throughout the models. Decision makers should consider the significance of income along with heterogeneity in the propensity to support water bill increases to protect Florida’s freshwater. The recommendations for application and research incorporate insights from social marketing, agricultural economics, extension education and sociology. 相似文献
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《水文科学杂志》2012,57(1):1-11
ABSTRACTWhile threats to water availability are concerning worldwide, the coastal, rapidly urbanizing state of Florida, USA, is especially at risk. This study used a value approach to determine the propensity to support 10 and 50% monthly water bill increases to inform potential social marketing strategies to protect Florida’s freshwater supply from depletion. The results from five years of public opinion data indicate an increasing percentage of consumers who are willing to support the protection of Florida’s water supply since 2013, with a slight dip in 2017. Upon examination of socio-demographic characteristics, income appeared consistently as an influencer of the propensity to support water bill increases, while factors such as age and race inconsistently appeared throughout the models. Decision makers should consider the significance of income along with heterogeneity in the propensity to support water bill increases to protect Florida’s freshwater. The recommendations for application and research incorporate insights from social marketing, agricultural economics, extension education and sociology. 相似文献
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Humood F. Al‐Mudhaf Mohammad N. Al‐Hayan Mustafa I. Selim Abdel‐Sattar I. Abu‐Shady 《洁净——土壤、空气、水》2011,39(12):1068-1080
Three hundred and twenty‐two samples of desalinated household water were collected from 99 sampling locations that covered 95% of Kuwaiti's residential areas. Seventy‐one brands of bottled water were collected from Kuwaiti markets. The water quality parameters that were studied included pH, electrical conductivity (EC), total dissolved solids (TDS), F?, Cl?, Br?, , , , , , , , and the major macronutrients Na+, K+, Ca2+, and Mg2+. The analysis yielded a large range of results for most of these parameters, with differences in some cases exceeding 10‐fold. With a few exceptions, the results were found to comply with US‐EPA and WHO standards. Only the water in two brands of bottled water was acidic (pH < 6.5). The TDS was found to be higher than the US‐EPA regulated value in 4 and 3% of the household samples and bottled water brands, respectively. The fluoride levels were generally higher in bottled water than in household water. However, the household water that was produced by the Doha desalination plant and some of the European brands of bottled water were the best samples studied in terms of their quantity of Ca2+, Mg2+, and Na+ compared with the DRI values for those substances. EC and TDS were positively correlated with , , Na+, K+, Ca2+, and Mg2+ for household water but only with Ca2+ and Mg2+ for bottled water. 相似文献
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Four micro‐catchment (MC) areas were identified to represent the main terrain types of a remote, sparsely populated upland valley catchment of 18 km2 in Cumbria, UK. These were improved land with good grazing (IB), steeply sloping land with rough grazing (SG), wet moorland with sparse grazing (WM) and enclosed woodland that excluded livestock and deer (EW). Each MC contained the origin of a small stream that flowed into Swindale Beck, the river draining the valley. The water quality during the 14‐month study, as judged by chemical and physical parameters, was excellent, but it could not be regarded as pristine because of the frequent presence of Cryptosporidium oocysts arising from livestock and wild mammal faeces. Oocysts (0·2–5·6 l?1) detected by genus‐specific immunofluorescent antibody were found in 32% of 188 water samples tested: ranking order EW 44%, IB 34%, Beck 30%, SG and WM 26%. Similarly, oocysts were identified in 9·5% of 1730 faecal samples. Small wild mammals (28%), calves (15·7%) and lambs (8·1%) were the dominant sources, whereas adult livestock (1·8%) and large wild mammals (4·8%) were less important. Autumn showed the highest occurrence of oocysts for both water and faecal samples. No hydrological controls were found to have a significant impact on the occurrence or concentration of oocysts in the main river or in the MCs, suggesting that their presence is controlled by seasonal changes in pathogen prevalence in the animal reservoir. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
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The River Buyukmelen is located in the province of Duzce in northwest Turkey and its water basin is approximately 470 km2. The Aksu, Kucukmelen and Ugursuyu streams flow into the River Buyukmelen. It flows into the Black Sea with an output of 44 m3 s−1. The geological succession in the basin comprises limestone and dolomitic limestone of the Yılanlı formation, sandstone, clayey limestone and marls of the Akveren formation, clastics and volcano‐clastics of the Caycuma formation, and cover units comprised of river alluvium, lacutrine sediments and beach sands. The River Buyukmelen is expected to be a water source that can supply the drinking water needs of Istanbul until 2040; therefore, it is imperative that its water quality be preserved. The samples of rock, soil, stream water, suspended, bed and stream sediments and beach sand were collected from the Buyukmelen river basin. They were examined using mineralogical and geochemical methods. The chemical constituents most commonly found in the stream waters are Na+, Mg2+, SO2−4, Cl− and HCO3− in the Guz stream water, Ca2+ in the Abaza stream water, and K+ in the Kuplu stream water. The concentrations of Na+, K+, Ca2+, Mg2+, SO2−4, HCO−3, Cl−, As, Pb, Ni, Mn, Cr, Zn, Fe and U in the Kuplu and Guz stream waters were much higher than the world average values. The Dilaver, Gubi, Tepekoy, Maden, Celik and Abaza streams interact with sedimentary rocks, and the Kuplu and Guz streams interact with volcanic rocks. The amount of suspended sediment in the River Buyukmelen in December 2002 was 120 mg l−1. The suspended and bed sediments in the muddy stream waters are formed of quartz, calcite, plagioclase, clay (kaolinite, illite and smectite), muscovite and amphibole minerals. As, Co, Cd, Cr, Pb, Ni, Zn and U have all accumulated in the Buyukmelen river‐bed sediments. The muddy feature of the waters is related to the petrographic features of the rocks in the basin and their mineralogical compositions, as most of the sandstones and volcanic rocks (basalt, tuffite and agglomerate) are decomposed to a clay‐rich composition at the surface. Thus, the suspended sediment in stream waters increases by physical weathering of the rocks and water–rock interaction. Owing to the growing population and industrialization, water demand is increasing. The plan is to bring water from the River Buyukmelen to Istanbul's drinking‐water reservoirs. According to the Water Pollution Regulations, the River Buyukmelen belongs to quality class 1 based on Hg, Cd, Pb, As, Cu, Cr, Zn, Mn, Se, Ba, Na+, Cl−, and SO2−4; and to quality class 3 based on Fe concentration. The concentration of Fe in the River Buyukmelen exceeds the limit values permitted by the World Health Organization and the Turkish Standard. Because water from the River Buyukmelen will be used as drinking water, it will have an adverse effect on water quality and humans if not treated in advance. In addition, the inclusion of Mn and Zn in the Elmali drinking‐water reservoir of Istanbul and Fe in the River Buyukmelen water indicates natural inorganic contamination. Mn, Zn and Fe contents in the waters are related to geological origin. Moreover, the River Buyukmelen flow is very muddy in the rainy seasons and it is inevitable that this will pose problems during the purification process. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
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《水文科学杂志》2013,58(5):829-840
Abstract The paper presents a compact picture of the occurrence of water on Earth, including the temporal development of water resources of the planet, the current water balance, and the future of water on Earth. In examining numerous standard hydrological references and new developments in quantification of the water resources of planet Earth, several corrections are proposed to the hydrological water balance of Earth. Particular attention is drawn to the areas of open water surfaces on land, which according to current estimates are much larger than reported in standard hydrological references. The paper stresses the need for improvements in our understanding of the hydrological cycle and presents several conclusions on the ways to improve this understanding and future visualizations of the water balance of Earth. 相似文献