The water quality of Lake Taihu and its protection     

Yiping Huang  Min Zhu 《GeoJournal》1996,40(1-2):39-44

Lake Taihu, the third largest fresh water lake of China, with a surface area of 2338 km², is located in the Changjiang River Delta, the most advanced economic zone in China. It is a typical saucer-like shallow lake in its depth and shape. During the last decade, the rapid economic development of local agriculture and industry both in the urban and rural areas of the Taihu region has made great advances. Great quantities of pollutants have been discharged into the lake, its nutrient content has increased continuously, and phytoplankton blooms have occurred in some areas. Water quality protection in Lake Taihu is very important because of its close relation with economic development and people's daily life. It is urgent to have comprehensive pollution control in Lake Taihu. Based on water quality monitoring data in Lake Taihu from 1986 to 1993, the dynamic variations of water quality and eutrophication trends have been analyzed, showing obvious spatial and temporal variations. The main water quality factors were compared with the standards for drinking water and indicate considerable change with the seasons. Basic strategies to protect water quality and prevent eutrophication are discussed.  相似文献   

Lake Müggelsee —the use of lake water and its consequences     

Dr. H. Behrendt  Dr. E. Driescher  Dr. G. Schellenberger 《GeoJournal》1990,22(2):175-183

Lake Müggelsee (Groer Müggelsee) — the largest lake in the area of Berlin — is the main drinking water reservoir for Berlin (East), but also a center of numerous recreational activities and fishing. The use of the lake and its catchment area has continuously increase during the past decase and has caused a substantail deterioration of the lake water quality. Mass development of algae has become a limiting factor to all future utilizations of the lake. Since the beginning of this century up to the seventies the lake water has shown signs of a permanently growing eutrophication, e.g. the content of particulate matter in the lake water has nearly doubled. During and after World War II the lake quality (Secchi depth and seston content) improved remarkably due to a reduced input of nutrients.According to time series analyses of buoyant seston and meterologica elements the development of blue-green algae seems to depend more on weather conditions than on the nutrient content of the lake water.Therefore, a certain probability of blue-green algae blooms will remain, also in the case of reduced nutrient input. Phosphorous is the main cause for eutrophication. It was responsible for distinctly higher mass developments of algae during spring and autumn in the past two decades. As a consequence, comprehensive measures are to be taken to reduce phosphorus inputs into the Spree river and lake Müggelsee, e.g. by the substitution of P in detergents, construction of tertiary sewage treatment plants and a substantially reduced application of fertilizers in agriculture.  相似文献   

太湖生态环境演化及其原因分析   总被引：42，自引：10，他引：32  

秦伯强  罗潋葱 《第四纪研究》2004,24(5):561-568

太湖地处长江下游三角洲,水域面积为2338km²,平均水深1.9m,最大水深不足2.6m,为一典型的大型浅水湖泊。太湖流域地势平坦,河网密布,河湖水力关系复杂。其主要补给径流来自西南部的天目山区及西部的宜溧河流域。每年夏天,大部分入湖洪水通过位于东太湖的太浦河及东北部的望虞河分别排入黄浦江与长江,由于出入湖河道的特殊位置,使得太湖南部的换水周期较短而北部较长。近几十年来,太湖由于污染而逐步呈现富营养化特征,污染物主要来自北部的无锡市和常州市,通过河道排入太湖北部的五里湖与梅梁湾,因此上述两地的水质较南部差。在东太湖,水产养殖对水环境的影响很大,亦呈现出富营养化特征,并殃及该地区的供水,加之该地区为太湖主要的泄洪通道,因此泥沙淤积严重,而且水生植物生长旺盛,呈现出明显的沼泽化趋势;在太湖四周地区,由于湖泊围垦和水利工程建设,其污染净化能力将降低,从而加速水环境恶化的趋势。太湖所面临这些问题,有待于强化湖泊科学管理来解决。  相似文献   

太湖生态环境演化及其原因分析   总被引：2，自引：1，他引：2       下载免费PDF全文

秦伯强  罗潋葱 《第四纪研究》2004,24(4):561-568

太湖地处长江下游三角洲,水域面积为2338km²,平均水深1.9m,最大水深不足2.6m,为一典型的大型浅水湖泊。太湖流域地势平坦,河网密布,河湖水力关系复杂。其主要补给径流来自西南部的天目山区及西部的宜溧河流域。每年夏天,大部分入湖洪水通过位于东太湖的太浦河及东北部的望虞河分别排入黄浦江与长江,由于出入湖河道的特殊位置,使得太湖南部的换水周期较短而北部较长。近几十年来,太湖由于污染而逐步呈现富营养化特征,污染物主要来自北部的无锡市和常州市,通过河道排入太湖北部的五里湖与梅梁湾,因此上述两地的水质较南部差。在东太湖,水产养殖对水环境的影响很大,亦呈现出富营养化特征,并殃及该地区的供水,加之该地区为太湖主要的泄洪通道,因此泥沙淤积严重,而且水生植物生长旺盛,呈现出明显的沼泽化趋势;在太湖四周地区,由于湖泊围垦和水利工程建设,其污染净化能力将降低,从而加速水环境恶化的趋势。太湖所面临这些问题,有待于强化湖泊科学管理来解决。  相似文献   

Hydrobios and Control of Eutrophication in Dongping Lake, Shandong Province     

DOU Suzhen  SUN Zhaocai  CAO Ying  MA Yumei  ZHANG Jingfu  LIU Guicheng  KOU Xiaoyan Environmental Protection  Monitoring Station of Taian City  Tai ''an Shandong Environmental Protection Bureau of Dongping County  Dongping Shandong 《《地质学报》英文版》2000,74(2):329-333

The Hydrobios in Dongping Lake, Shandong Province, mainly includes phytoplankton, zooplankton, benthic animals, fishes and hydrophytic vascular plants. Nitrogen and phosphorus are the restrictive factors for the growth and propagation of hydrophyta, therefore the key to the prevention and control of eutrophication in lakes lies in the control of the contents of the two elements in the water. Artificial fishing of algae can reduce the concentrations of trophic substances such as nitrogen and phosphorus in the water bodies, and biological measures may decrease the contents of these trophic substances in the bottom sediments and the water bodies, thereby playing an active role in modifying the eutrophication of the lake.  相似文献   

太湖14000年以来古环境演变的湖泊记录   总被引：5，自引：0，他引：5  

瞿文川  薛滨  吴艳宏  王苏民  吴瑞金  张平中  陈践发 《地质力学学报》1997,3(4):52-61

本文根据东西太湖短柱岩芯的沉积物的物理、化学、生物指标的综合分析,讨论了该区距今14ka来的古气候变化过程,结果表明14.3-13.3kaBP,太湖水位低,环境指标甚至表现为暴露特征,反映了气候干旱:13.3-12.4kaBP,为偏暖湿的过渡阶段;该孔柱270-280cm (11.5kaBP左右)各类指标均明显反映冷干特征,可能是YoungerDrays事件的记录,与我国东部其它地区有可比性;约10.9-10kaBP,这一时期是整个研究时段内一个较显著的温暖期。表现为还原沉积环境和水位相对较深;约10-7.2kaBP为冷暖交替的过渡带;7.2-5.737kaBP为暖湿气候;5.05kaBP多项分析指标发生突变,反映物源发生显著变化,可能存在沉积间断;表层沉积物则呈现现代环境的特征,西太湖藻类生长茂盛,偏氧化的沉积环境。目前湖泊生产力较高,富营养化程度高,表现为藻型湖泊特征;东太湖有机质来源以东太湖中生长较为茂盛的维管水生植物为主,目前湖泊生产力较低,富营养化程度低,表现为典型的草型湖泊特征。   相似文献   

Climatic factors as risks of recent ecological changes in the shallow zone of Lake Baikal     

T.G. Potemkina  V.L. Potemkin  A.P. Fedotov 《Russian Geology and Geophysics》2018,59(5):556-565

Eutrophication processes have been recorded in many world’s freshwater reservoirs, which are sources of drinking water. More and more investigations show that global warming is the main natural factor that causes eutrophication. In recent years, signs of eutrophication have also been recorded in Lake Baikal containing 20% of the world’s freshwater reserves. Therefore, we performed the first comprehensive analysis of long-term changes in climatic parameters capable to provoke negative changes in the shallow zone. The largest number of anomalies of climatic indices has been recorded in the 21st century. Moreover, the current decade has been the most favorable for the emergence of negative processes in the lake (outbreak of the mass growth of algae and aquatic vegetation, rotting of their remains at the bottom and on the shores of the lake, changes in the structure and zoning of biocoenoses, etc.). The main natural conditions favoring the emergence of negative signs are elevated temperatures of the air and lake shore water, reduced amount of precipitation, reduced inflow of river waters into Baikal and lowering of its water level, low-water season, and weakening of wind currents, water exchange processes, and, as a result, water self-purification. In the period of continuing global warming, it is necessary to study the climate effect on the processes in the shallow zone and to carry out long-term monitoring for elucidation of recent and expected changes in the ecological state of Lake Baikal and for their valid interpretation.  相似文献   

太湖富营养化与蓝藻水华引起的饮用水危机——原因与对策   总被引：58，自引：0，他引：58  

秦伯强  王小冬  汤祥明  冯胜  张运林 《地球科学进展》2007,22(9):896-906

[ZW（*][HT6H]〓收稿日期：. 〓作者简介：[HT6SS]（1963 ），男，江苏苏州人，研究员，主要从事水环境研究.[WT6HZ]E mail:[WT6BZ]qinbq@niglas.ac.cn[ZW)] [HT4F][HT5K]()[JZ）] [HT5H][GK2] 摘〓要：[HT5K]2007年5月份发生在无锡太湖蓝藻水华引起的自来水危机事件进一步凸现我国湖泊富营养化的严峻局面和蓝藻水华频发的现状。从分析太湖富营养化发生、发展，蓝藻水华爆发的原因和机制入手，提出湖泊富营养化治理和蓝藻水华控制的途径和措施。研究表明，太湖富营养化之所以如此严重而且治理起来异常艰难，主要是由于太湖发育于长江中下游洪泛平原，营养本底高；由于水浅和沉水植被的退化使得频繁的风浪扰动造成内源营养盐负荷维持在一个非常高的水平；而流域内社会经济的高速发展，进一步加剧了太湖富营养化进程。蓝藻水华爆发一方面与蓝藻本身的生理特征有关，如固碳、伪空泡、光吸收及营养盐利用的能力；另一方面则与系统内物理、化学、生物环境有关，如独特的浅水湖泊水下光场结构和低的捕食压力。太湖的富营养化治理需遵循控源截污、湖泊生态修复和流域管理的原则，具体措施包括前置库和人工湿地的面源污染物控制技术；物理机械和生物去除内源营养盐削减技术；沉水植被恢复的湖泊生态修复技术。而蓝藻水华的控制技术则包括围隔拦截和导流的物理工程方法、絮凝沉降和抑藻物添加的化学工程方法以及生态浮床和生物操纵的生态工程方法。具体使用时，需要先诊断、后治理。    相似文献   

Spatial–temporal characteristics of surface water quality in the Taihu Basin,China     

Guangju Zhao  Junfeng Gao  Peng Tian  Kun Tian  Guangheng Ni 《Environmental Earth Sciences》2011,64(3):809-819

Taihu Basin is one of the most developed and industrialized regions in China. In the last two decades, rapid development of economy as well as an increase in population has resulted in an increase of pollutants produced and discharged into rivers and lakes. Much more attention has been paid on the serious water pollution problems due to high frequency of algal blooming. The dataset, obtained during the period 2001–2002 from the Water Resources Protection Bureau of the Taihu Basin, consisted of eight physicochemical variables surveyed monthly at 22 sampling sites in the Taihu Basin, China. Principal component analysis (PCA) and cluster analysis (CA) were used to identify the characteristics of the surface water quality in the studied area. The temporal and spatial variations of water quality were also evaluated by using the fuzzy synthetic evaluation (FSE) method. PCA extracted the first two principal components (PCs), explaining 86.18% of the total variance of the raw data. Especially, PC1 (73.72%) had strong positive correlation with DO, and was negatively associated with COD_Mn, COD, BOD, NH₄ ⁺–N, TP and TN. PC2 (12.46%) was characterized by pH. CA showed that most sites were highly polluted by industrial and domestic wastewater which contributed significantly to PC1. The sites located in the west of Lake Taihu were influenced by farmland runoff which may contribute to nitrogen pollution of Lake Taihu, whereas the monitoring sites in the eastern of Lake Taihu demonstrated that urban residential subsistence and domestic wastewater are the major contaminants. FSE indicates that there is no obvious variance between 2001 and 2002 among most sites. Only several sites free from point-source pollution appear to exhibit good water quality through the studied period.  相似文献   

太湖流域降雨与太湖水位关系分析   总被引：1，自引：0，他引：1  

章杭惠  刘曙光  季同德 《水文》2021,41(1):85-89,41

太湖流域快速城镇化、水利工程建设等人类活动对流域水文过程产生了较大影响。基于1981~2018年太湖流域日降雨、太湖水位实测资料,分析了流域降雨与太湖水位涨幅关系,旨在揭示变化环境下该地区降雨与水位关系的变化特征及可能的驱动因素。研究表明,2000年以来太湖水位抬高趋势明显,但同等时段降雨量条件下对应的太湖水位涨幅有所下降,且降雨量越大,太湖水位涨幅减小的越明显;流域各时段降雨与太湖水位涨幅相关关系约0.9,流域10d雨强每增加50mm,太湖水位涨幅约16cm。该研究成果可为太湖水位的中长期预报,尤其是对入汛前、入梅前等关键时间节点的太湖水位调控、雨洪资源利用等流域管理工作提供参考。  相似文献   

Assessment of water quality and identification of pollution sources of three lakes in Kashmir, India, using multivariate analysis   总被引：5，自引：3，他引：2  

Ishtiyaq Ahmed Najar  Anisa B. Khan 《Environmental Earth Sciences》2012,66(8):2367-2378

Multivariate statistical techniques, such as cluster analysis, principal component analysis (PCA) and factor analysis (FA) were applied to evaluate and interpret the water quality data set for 13 parameters at 10 different sites of the three lakes in Kashmir, India. Physicochemical parameters varied significantly (p?<?0.05) among the sampling sites. Hierarchical cluster analysis grouped 10 sampling sites into three clusters of less polluted, moderately polluted and highly polluted sites, based on similarity of water quality characteristics. FA/PCA applied to data sets resulted in three principal components accounting for a cumulative variance of 69.84, 65.05 and 71.76% for Anchar Lake, Khushalsar Lake and Dal Lake, respectively. Factor analysis obtained from principal components (PCs) indicated that factors responsible for accelerated eutrophication of the three lakes are domestic waste waters, agricultural runoff and to some extent catchment geology. This study assesses water quality of three lakes through multivariate statistical analysis of data sets for effective management of these lakes.  相似文献   

Investigation of water quality on Gökçekaya dam lake using multivariate statistical analysis,in Eskişehir,Turkey   总被引：1，自引：0，他引：1  

B. S. Akin  T. Atıcı  H. Katircioglu  F. Keskin 《Environmental Earth Sciences》2011,63(6):1251-1261

Gökçekaya Dam is one of the dams located on the Sakarya River (Eski?ehir) in Turkey and is approximately 38 years old. No study regarding to the water quality of the dam lake has been hitherto made. This study aimed at determining the seasonal variations with physical, chemical, and biological parameters of the water quality of the dam lake. Depth-wise water samples were taken from five selected stations, in seasonal periods during 2005–2008, and anlayzed. The quality of water was classified in accordance with the results and taking into consideration many parameters. At the same time, number and type diversities of dissolved heavy metals and algae population were analyzed. Using principal component analysis (PCA) and classification analysis (CA) methods, differences between these parameters and samples from stations have been determined . The analysis showed that Gökçekaya dam lake, formerly an oligotrophic lake, has become a mesotrophic lake. And according to the results thereof the Lake has mezotrophic characteristics due to the sudden changes (including household waste water inflow and opening the Sar?yar dam lake shutters) in certain periods and in some stations. Hierarchical clustering analysis, revealed no significant difference between the measured parameters. And according to the Water Pollution Control Regulations in Turkey (WPCR) Gökçekaya dam lake is in the first class quality in terms of anions, cations, heavy metals, temperature, and pH values. However, the is of first class quality presence of nitrite reduces the water quality in the lake and causes this lake to be classified in the fourth class quality.  相似文献   

Pollution in Taihu Lake China: causal chain and policy options analyses   总被引：1，自引：0，他引：1  

Liang Wang  Yongli Cai  Liyan Fang 《Frontiers of Earth Science》2009,3(4):437-444

Taihu Lake is located at the densely populated region of the eastern coast of China. Taihu Basin is one of the most developed regions of China. Over the past decades, especially since the reforming and opening-up of China in 1980s, the lake has received more and more pressure from a variety of interlinked human activities, including industrial pollution, fertilizer and pesticide application, eutrophication, overfishing, etc. Water quality has been deteriorating sharply in the lake. In this paper, we made a comprehensive assessment of the environmental and socio-economic issues to affect Taihu Lake ecosystem health. Pollution was identified as the most serious environmental concern. The root causes of these environmental problems are recognized to be diverse, including dense population, high urbanization, heavy industrialization, fast economic development, insufficient sewage treatment, weak public awareness of environment conservation, and lack of institutional capacity and insufficient enforcement through regulations and legislation. On the policy part, past and current policies and measures are reviewed, especially the “Zero” discharge action and phosphate ban in detergents in Taihu Basin. In order to mitigate environmental problems, some further policy options have been proposed, including: improving the fishery management; strengthening cross- provincial collaboration; making efforts to reduce flood disaster and increasing investment to new environmental protection technologies. It is important to assess the economic, social and environmental values of natural resources (soil, water and organisms) in order to allocate them efficiently and fairly between the present and future generations.  相似文献   

太湖湖体总氮平衡及水质可控目标   总被引：3，自引：0，他引：3       下载免费PDF全文

胡开明  逄勇  王华 《水科学进展》2012,23(4):555-562

通过对2007~2010年环太湖水文巡测及降水调查,进行了湖体总氮平衡分析,在充分调查现有与规划的各类型污染源总量控制工程措施的基础上,量化出具有空间分布的流域总氮污染削减率,利用构建的太湖流域及湖体水环境数学模型模拟污染削减后的太湖湖体总氮浓度场,并提出水质可控目标。结果表明:太湖出入水量共127.8亿 m3,其中通过降水进入太湖的水量为24.9亿 m3,占入湖总水量的19.5%;全年总氮收支量达到4.47万t,其中通过干湿沉降进入太湖的总氮量为0.70万t,占入湖总通量的15.5%,可见干湿沉降进入太湖的污染物不容忽视,其变化趋势与太湖地区降水特征相关性较好。同时通过模型推算,定出2015年太湖湖体不同功能区总氮的可控目标,整个湖体平均值约为2.3 mg/L,为太湖总量控制提供科学依据。  相似文献   

The characteristic and environmental pollution records of phosphorus species in different trophic regions of Taihu Lake, China     

Hezhong Yuan  Shuqing An  Ji Shen  Enfeng Liu 《Environmental Earth Sciences》2014,71(2):783-792

Total organic carbon (TOC), Total nitrogen (TN) and the phosphorus species concentrations of sediment cores taken from Zhushan Bay, Meiliang Bay, and East Taihu Lake regions in Taihu Lake, a large shallow lake in China, were determined. Experimental results showed a conspicuous eutrophication trend in the northern area of Taihu Lake. Inorganic P was found to be the main phosphorus form. Fe-bound P accounted for the largest proportion of Inorganic P in Meiliang Bay, an alga-type lake region. In East Taihu Lake, a macrophytic lake region, Ca-bound P was found in higher proportions than in other lake regions, with Organic P present in similarly large proportions. With respect to Taihu Lake sediment cores, the date at approximately 20 cm layer depth was roughly identified as 1950s, while upper 5 cm layers corresponded to the turn of the century. The drastic increase in phosphorus species concentration except for Ca-bound P was indicative of the large quantities of effluent discharge into Zhushan Bay owing to the increased industrial and agricultural production from the 1950s onwards. TN, Inorganic P, Organic P, and total phosphorus (TP) concentrations increased by over 2, 2.5, 2 and 2.5-fold, respectively, over the past five decades. A large proportion of Organic P accounted for TP, and high C/N ratios indicated that East Taihu Lake can be properly classified as an oligotrophic lake.  相似文献   

云南大理地区1989—2019年期间气候变化及对洱海水质的影响     

安国英  郭兆成  叶佩 《现代地质》2022,36(2):406-417

依据1989年至2019年云南大理地区所辖12个气象站点的气候数据和洱海水质监测资料等文献,分析大理地区气候变化特征和洱海富营养化变化趋势,并总结洱海水质综合营养状态指数与降水量、气温的相互关系。结果表明,1989年至2019年期间,大理地区的年平均气温呈波动上升趋势,气候变暖明显,冬季气温升温幅度最大;年降水量总体呈波动下降趋势,秋季降水量减少最为显著。洱海水质的综合营养状态指数及单因子总氮、总磷、高锰酸盐指数等总体呈升高趋势,而水体透明度呈降低趋势;进一步可分成2个阶段,即2003年之前呈快速上升或下降变化趋势;2003年之后呈波动稳定趋势。洱海综合营养状态指数与年平均气温呈正相关,与年降水量呈负相关关系;总氮、水体透明度分别与年平均气温正相关和负相关,与年降水量则呈负相关和正相关;而总磷与冬季平均气温、高锰酸盐指数与夏季或冬季平均气温均呈正相关关系。年内变化上,洱海污染指数、综合营养状态指数在最近的2015—2019年期间呈现6—10月份明显增高,显示非汛期水质明显好于汛期状况。总之,1989—2019年期间,受大理地区气温升高、降水量减少导致入湖水量减少的影响,洱海综合营养状态指数呈升高趋势,湖泊富营养化进程加剧状况没有得到改善,洱海水环境仍然比较脆弱。  相似文献   

长江中下游不同类型湖泊沉积物营养盐 蓄积变化过程及其原因分析^*   总被引：7，自引：10，他引：7  

薛滨  姚书春  王苏民  夏威岚 《第四纪研究》2007,27(1):122-127

在长江中下游的洪湖、太湖、巢湖采集了沉积柱样,测定了总有机碳、总氮、磷,并采用²¹⁰ Pb和¹³⁷ Cs定年。洪湖1950年以来沉积物中营养元素急剧增加,巢湖在20世纪70年代以来营养元素开始增加,而在太湖中则为80年代。结果表明草型湖中有机质增加比藻型湖迅速,洪湖湖泊沉积物有机质迅速增加与围垦活动开始时间一致。沉积物中总磷的变化不如总有机碳、总氮的变化规律性明显。洪湖两钻孔总磷背景值为0.7~0.8g/kg,太湖钻孔其总磷本底为0.6g/kg,梅梁湾大量钻孔表明总磷本底在0.5g/kg;巢湖的则更低。对比湖泊类型来看,目前为藻型湖的沉积本底磷偏低,而目前为草型湖的沉积本底磷偏高,这可能与不同生态类型湖泊营养元素的生物地球化学循环与积累的方式有关。  相似文献   

Influences of wastewater discharges on the water quality of Mamasın dam watershed in Aksaray, Central Anatolian part of Turkey     

Hatim Elhatip  Özlem Güllü 《Environmental Geology》2005,48(7):829-834

Sustaining the human ecological benefits of surface water requires carefully planned strategies for reducing the cumulative risks posed by diverse human activities. Municipal governments in Aksaray City play a key role in developing solutions to surface water management and protection problems. The responsibility to provide drinking water and sewage works, regulate the use of private land, and protect public health provides the mandate and authority to take action. A large part of Aksaray City uses Mamasın dam water as its primary source for drinking water. Several point sources of contamination may result from direct wastewater discharges from Melendiz and Karasu rivers, which recharge the Mamasın dam watershed. Relevant studies were carried out for monitoring the eutrophication process, which usually occurs in the static water mass of the Mamasın dam lake. This process may be caused by the continual increase in nutrients and decrease of O₂ levels, causing anaerobic conditions. Stimulated algae growth in these water bodies consequently reduces water quality. Hydrochemical parameters were evaluated to estimate the types of pollution sources, the level of pollution, and its environmental impacts on the Mamasın dam drinking water reservoir.  相似文献   

长江中下游典型湖泊近代环境变化研究   总被引：7，自引：0，他引：7  

薛滨  姚书春  夏威岚 《地质学报》2008,82(8):1135-1141

选择长江中下游的典型湖泊洪湖、巢湖、石臼湖和太湖,采集了沉积柱样,测定了总有机碳、总氮、总磷,并采用210Pb和137Cs定年以研究湖泊近代环境演变。根据洪湖137Cs蓄积峰得到过去50 a里洪湖沉积速率经历了一个由慢到快再变慢的过程,1963~1986年之间沉积速率最大,达0.174 cm/a,这可能是因为当时湖区大规模开垦有关。巢湖钻孔核素的研究发现20世纪70年代以来随着深度的减少,巢湖钻孔中沉积通量在增加,可能与流域内水土流失逐步加重有关。对营养盐的分析表明,洪湖50年代以来沉积物中营养元素急剧增加,巢湖70年代以来营养元素开始增加,在太湖中体现为80年代,石臼湖中则为近百年来营养元素开始快速增加。从营养盐增加的幅度来看,草型湖的洪湖、石臼湖要大于藻型的巢湖以及太湖藻型区域。本文尝试利用总有机碳、总磷获取了湖泊环境变化的速率。研究表明总有机碳和总磷的变化速率存在波动性,这可能与湖泊的自我调节有关。而总有机碳的变化速率在最近时间阶段内基本呈正值,对于洪湖来说在80年代初,石臼湖在1970年左右,太湖在80年代初,巢湖在60年代。总有机碳、总磷变化速率的振荡幅度与周期也许对理解当今湖泊处于何种位置,由此采取何种湖泊管理手段提供重要认识。  相似文献   

Effects of climatic changes and anthropogenic activities on lake eutrophication in different ecoregions   总被引：1，自引：0，他引：1  

X. Chuai  X. Chen  L. Yang  J. Zeng  A. Miao  H. Zhao 《International Journal of Environmental Science and Technology》2012,9(3):503-514

Climatic changes and anthropogenic activities could affect nutrients?? status significantly in the different lake ecosystems. Nutrients in Lake Hulun and Lake Taihu, two largest shallow cyanobacteria-blooming lakes in northern and southern China, respectively, were at eutrophicated levels in 2009. The concentrations of total nitrogen and total phosphorus were 3.346 and 2.250?mg/L as well as 0.435 and 0.062?mg/L, respectively, in these two lakes with different causes of eutrophication. For Lake Hulun, it was the decreased amount of water as a result of the warming and drying climate that accounted for the abrupt increase of total nitrogen and total phosphorus levels through inspissation. In addition, the icebound effects, no outflows, low nutrients sequestration by the sediment and the reduction of aquatic productivity made the situation even worse. On the contrary, high population densities, the rapid development of agriculture and industry as well as urbanization have increased the nitrogen and phosphorus loads on Lake Taihu. Therefore, higher criteria of total nitrogen and total phosphorus should be applied in Lake Hulun given the difficulties in controlling climatic changes while much more rigorous standards should be established for Lake Taihu since the anthropogenic impacts on nutrient status are relatively easy to control.  相似文献