基于GWLF模型的于桥水库入库河流水文模拟及氮磷负荷估算

流域模型技术应用是当前开展面源污染防治的重要工具，而水文过程的准确模拟是进行污染负荷估算的首要环节和关键步骤。为了弄清近年来于桥水库入库河流氮、磷输入负荷，选取GWLF模型对水平口子流域的水文过程进行模拟，首先利用2006—2018年气象、水文资料率定模型水文参数，然后将参数推广到整个流域，对2019—2020年3条主要入库河流流量进行模拟，最后乘以相应河流断面的总氮、总磷浓度估算氮磷输入负荷。结果显示：GWLF模型适用于研究区的水文过程模拟，校准期和验证期的纳氏系数分别为0.89和0.91，平均相对误差分别为12.2%和13.1%；2020年总氮入库负荷为3 977.0 t，其中引滦调水贡献占57.0%，3条入库河流共贡献43.0%；总磷入库负荷为48.8 t，其中引滦调水贡献占68.6%，3条入库河流共贡献31.4%。GWLF模型输入数据需求量较少，模型参数较少，模拟效果较好，适用于中小型流域的水资源和水环境管理，具有一定的推广应用前景。     

固城湖水环境现状调查与评价

对固城湖水环境现状进行了调查与评价。结果表明．除湖心区断面枯水期总磷达Ⅳ类标准外，其余断面平、丰、枯水期水质均达Ⅲ类水标准。固城湖水体呈中营养化状态．且综合营养状态指数已接近富营养状态。指出，面源污染，内源污染。养殖污染。流域内的航运污染是造成固城湖水体富营养化的主要原素。提出，应严格控制各类污染源，建立流域内的污水处理厂．保护森林植被．推广使用无磷洗涤剂、生态化肥、生态农药；定期疏浚湖底淤泥，改良现有水生植被结构；加大对固城湖环境、功能和开发利用的研究及湖泊富营养化的研究．对水体中的磷、氮的化学行为及平衡进行分析，预测发展趋势。制定营养物质种类，防止其湖水向藻型湖泊发展。     

大宁河水体营养盐状况与水华爆发之间关系分析

通过对大宁河常规监测和水华爆发期间加密监测断面的氮、磷营养盐指标统计,运用综合评价、相关性分析等方法对大宁河氮、磷营养盐分布和叶绿素a与总磷、总氮的关系进行了分析.结果显示,水华爆发期间叶绿素a与总磷、总氮呈正相关关系,总磷是大宁河水华爆发的限制因子.氮磷水平呈现从上游到入长江口逐渐递增趋势,长江回灌作用对大宁河输入部分氮、磷营养盐.     

西安市城市景观水体富营养化现状及成因分析

2014年12月—2015年6月连续监测西安市13个主要城市景观水体,并对其富营养化现状及成因作分析。监测结果显示,叶绿素a、总磷、总氮、透明度的测定值分别为1.13 mg/m~3~675 mg/m~3、0.012 mg/L~3.12 mg/L、0.271 mg/L~25.6 mg/L和0.17 m~1.77 m。通过对比补水水源和水质关系得知,以自来水为补水水源的水体营养物含量最低,天然地表水次之,再生水最高。用营养状态指数法评价水体的营养状态,约68%的景观水体呈现富营养状态,景观水体发生富营养化的5个主要成因依次为:营养物指标、部分理化指标、有机物指标、水体感官性状指标、微量元素指标。     

洪泽湖富营养化和生态状况调查与评价

为了解洪泽湖水质状况，对2000年洪泽湖富营养化状态和生态特性的调查结果进行了分析，洪泽湖水中总磷、总氮和高锰酸盐指数年均值超《地表水环境质量标准》（GHZB1-1999）中Ⅱ类水标准，超标倍数分别为12倍、10倍和0.24倍；总磷、总氮、透明度年均值超湖库特定项目V类标准，洪泽湖处于中-富营养化状态。对洪泽湖生态特性分析表明，由于洪泽源独特的湖泊形态，“藻型浊水状态“和“泥沙型浊水状态“交替出现，遏制了湖水从高营养盐含量向全面富营养化状态演变，保证了底栖动物的良好生长环境，从而形成了洪泽湖独特的环境生态平衡状态。     

洪泽湖水体富营养化时空分布特征与影响因素分析

通过2014年—2017年对洪泽湖12个水质断面定期调查,采用营养状态指数(TLI)综合评价其水体富营养状态,同时应用主成分分析方法(PCA)分析其富营养化状态的时空变化特征。结果表明,洪泽湖70%以上的调查断面水质全年处于轻度富营养化状态,夏季是其富营养化最严重的季节;洪泽湖年内水体水质差异较大,而其水华特征并未呈现明显差异;洪泽湖富营养化很大程度上受制于营养盐的积累程度,并与湖泊透明度呈现极显著的负相关关系(p0.001),与湖水pH值呈现极显著的正相关关系。     

2011—2021年全国地表水环境质量评价与变化分析

根据国家地表水监测网2011—2021年水环境监测数据,从全国、十大流域主要江河、重要湖库3个层面分析了我国地表水环境质量变化趋势及当前存在问题,并提出相关建议。分析结果显示,2011—2021年,我国地表水环境质量逐步改善。其中,2021年Ⅰ~Ⅲ类水质断面比例较2011年提高了35.2个百分点,劣Ⅴ类水质断面比例较2011年降低了11.4个百分点。高锰酸盐指数、氨氮和总磷指标浓度呈现明显的下降趋势;总氮呈现先降后升再降的变化趋势,且目前仍处于较高水平。长江、珠江、浙闽片河流、西北诸河及西南诸河流域水质优于淮河、黄河、海河、辽河及松花江流域。十大流域主要江河水环境质量均有所改善,改善幅度最大的是海河流域。重要湖库水质状况有所好转,但富营养化情况未有明显改善。年内水环境质量方面,夏季水质明显劣于其他季节,表明当前我国面源污染防治存在明显短板。建议在明确当前水环境质量改善取得积极成效的同时,也应当意识到我国水生态环境保护面临的结构性、根源性压力尚未得到根本缓解,不能停留在过去的以水环境质量改善为核心的污染治理思路上,应从生态系统整体性和流域系统性出发,坚持山水林田湖草沙生命共同体理念,从"三水统筹"的角度加强对水域生态系统的整体保护。     

九龙江北溪pH值异常变化与生化因子相关性的研究

监测结果表明,九龙江北溪部分断面CODMn浓度介于中富营养～富营养之间,总氮、总磷和叶绿素a浓度均达到极富营养水平。经统计分析,pH值与甲藻显著相关(r=0.327,P=0.025),与溶解氧(r=0.762,P=0.000)、高锰酸盐指数(r=0.456,P=0.001)、总氮(r=0.482,P=0.001)、总磷(r=0.507,P=0.000)和叶绿素a(r=0.649,P=0.000)等非常显著相关。研究表明,虽然各项化学因子与pH值密切相关,但不是pH值变化的直接原因,而是由于水体富营养程度严重且已形成了藻类生境,甲藻的异常增殖才导致pH值异常升高。     

海河流域东北部地表水水源地藻类及代谢物研究

同时对海河流域东北部6个水库型地表水水源地开展了藻类及微囊藻毒素(MC-LR和MC-RR)相关研究工作。研究结果表明:海河流域东北部6个水库型地表水水源地中水体富营养化程度有明显改善,但于桥水库、洋河水库水体仍呈富营养化状态并检出MC-LR和MC-RR。另外,富营养化程度高的水体中蓝藻占明显优势,并且微囊藻毒素浓度与其成正相关关系。虽然检出的MC-RR和MC-LR浓度均低于《生活饮用水卫生规范》标准限制,但是在蓝藻暴发期间(特别是暴发后期)应加密监测,确保微囊藻毒素浓度不会对供水人群健康造成危害。     

丹江口水库河南省辖区总氮污染状况调查

围绕丹江口水库总氮超标问题,以总氮项目为主要目标,以库区和入库河流为主要监测水体,通过对流域内包括面源在内的主要污染源调查,以及对主要入库河流和库内各代表水域的系统监测,研究丹江口水库总氮浓度时空分布、形态和来源,分析丹江口水库总氮超标原因,并评价丹江口水库总氮污染程度并分析其变化趋势。     

Contribution of point sources and non-point sources to nutrient and carbon loads and their influence on the trophic status of the Ganga River at Varanasi,India

To determine the possible contributions of point and non-point sources to carbon and nutrient loading in the Ganga River, we analyzed N, P, and organic carbon (OC) in the atmospheric deposits, surface runoff, and in the river along a 37-km stretch from 2013 to 2015. We also assessed the trophic status of the river as influenced by such sources of nutrient input. Although the river N, P, and productivity showed a declining trend with increasing discharge, runoff DOC and dissolved reactive phosphorus (DRP) increased by 88.05 and 122.7% between the Adpr and Rjht sites, indicating contributions from atmospheric deposition (AD) coupled with land use where agriculture appeared to be the major contributor. Point source input led to increased river concentrations of NO₃ ^?, NH₄ ⁺, DRP, and DOC by 10.5, 115.9, 115.2, and 67.3%, respectively. Increases in N, P, and productivity along the gradient were significantly negatively correlated with river discharge (p < 0.001), while river DOC and dissolved silica showed positive relationships. The results revealed large differences in point and non-point sources of carbon and nutrient input into the Ganga River, although these variations were strongly influenced by the seasonality in surface runoff and river discharge. Despite these variations, N and P concentrations were sufficient to enhance phytoplankton growth along the study stretch. Allochthonous input together with enhanced autotrophy would accelerate heterotrophic growth, degrading the river more rapidly in the near future. This study suggests the need for large-scale inter-regional time series data on the point and non-point source partitioning and associated food web dynamics of this major river system.     

Evaluation of Point and Diffuse Sources of Nutrients in a River Basin on Base of Monitoring Data

The methodology of materials accounting is presented and applied to developing nutrient balance (nitrogen and phosphorus) in a river basin. The method is based on the balance principle: inputs and outputs of each nitrogen and phosphorus related sub-systems were balanced. The application of the methodology strategies was illustrated by means of a case study of the Krka river, Slovenia. Different pathways of emission to surface waters were taken into account: WWTP discharges, direct discharges, erosion/runoff and baseflow. Total annual emission into the river Krka was estimated to be 362 tonnes N/year and 73.3 tonnes P/year. The main sources of nitrogen are diffuse sources, emitted via baseflow (52%). Other important sources are effluents from WWTP, which account for 36% of total emissions. Other sources like erosion and direct discharges to surface water (animal manure, industry, households) are of lower magnitude. Erosion is main source of phosphorus emission (55% of total emission), WWTP effluents account for 37% of total emission, while other sources are less important. Besides reduction of point sources by means of wastewater collection and implementation of nutrient removal technology, managing agricultural nitrogen and phosphorus to protect water quality should become a major challenge in the Krka river basin.     

北京市水环境非点源污染监测与负荷估算研究

文章对北京全市域范围开展水环境非点源污染监测以及污染负荷估算研究。监测结果表明,天然降雨氨氮、总氮污染程度高;城区典型下垫面降雨径流的有机污染十分严重,其中屋面降雨径流总氮和氨氮污染最严重,路面降雨径流COD和总磷污染最严重;下垫面降雨径流汇入城市排水管网后,由于冲洗下水道中的沉积物,使得水质污染进一步恶化。农业典型小流域面源污染对水质影响也很明显。城市非点源污染负荷估算选用SWMM暴雨径流模型,农业非点源污染负荷模型选用改进的输出系数模型,估算结果表明:城市非点源污染主要来自大气湿沉降、综合用地、路面和屋面等,农业非点源污染主要来自耕地和林地;全市污染物排放总量中,点源排放总量与非点源排放总量基本各占50％左右。为进一步挖掘污染减排空间,完善总量减排体系提供了依据。     

洮滆水系湖库富营养化生态风险的特点与比较

茅东水库、长荡湖、涌湖、太湖竺山湾是洮滆水系从上游到下游排列的4大典型湖库,2008年的监测分析表明,氮、磷是该水系湖库富营养化的主要污染因子,并沿流域呈加剧趋势,上下游TP质量浓度为0.081～0.296 mg/L,差异小,而TN质量浓度为0.314～5.67 mg/L,差异大,长荡湖到涌湖是洮滆水系首要污染物TN快...     

太湖流域果园种植面源氮磷输出强度及其定量评估方法

以太湖流域上游地区无锡阳山地区果园种植典型区域为研究对象,通过现场试验,调查了果园种植面源氮磷输出动态变化过程,计算并分析了氮磷输出强度,构建了果园种植面源氮磷输出强度定量评估模型。结果表明:取样监测期间,果园种植径流及淋溶氮磷指标变化幅度均超过200%;果园种植面源氮磷径流输出强度与其淋溶输出的变化一致,径流总氮的输出强度最高(13.201 kg/hm~2),淋溶硝酸盐输出强度最大(4.077 kg/hm~2);所建立的评估方程能较好地反映降雨量等环境因素对果园种植面源氮磷径流及淋溶输出强度的影响情况,模拟方程的复相关系数均在0.9左右。     

Nonpoint Source Pollution Assessment of Wujiang RiverWatershed in Guizhou Province,SW China

The amount of pollution from nonpoint sources flowing in the streams of the Wujiang River watershed in Guizhou Province, SW China, is estimated by a geographic information system (GIS)-based method using rainfall, surface runoff and land use data. A grid of cells of 100 m in size is laid over the landscape. For each cell, mean annual surface runoff is estimated from rainfall and percent land use, and expected pollutant concentration is estimated from land use. The product of surface runoff and concentration gives expected pollutant loading from that cell. These loadings are accumulated going downstream to give the expected annual pollutant loadings in streams and rivers. By dividing these accumulated loadings by the similarly accumulated mean annual surface runoff, the expected pollutant concentration from nonpoint sources is determined for each location in a stream or river. Observed pollutant concentrations in the watershed are averaged at each sample point and compared to the expected concentrations at the same locations determined from the grid cell model. In general, annual nonpoint source nutrient loadings in the Wujiang River watershed are seen to be predominantly from the agricultural and meadow areas. The total annual loadings through the outlet of the watershed are 40,309 and 2,607 tons for total nitrogen (TN) and total phosphorus (TP), respectively.     

滇池东南岸农业和富磷区入湖河流地表径流及污染特征

应用聚类分析与因子分析方法,通过8次常规监测,对滇池东南岸10条以农业面源和受磷矿开采区影响的入湖河流的地表径流及其水质污染特征进行了分析,并探讨了其空间差异性。在南岸选取降雨过程相同的3条河流,开展暴雨径流监测,探讨污染物在降雨过程中的流失特征。结果表明,新宝象河的平均流量为2.6 m3/s,占总入湖流量的26.5%;总氮、总磷、化学需氧量、悬浮物是滇池的主要污染指标,许多河流均已严重超标。河流水质在空间上可分为3类,具有明显的空间差异性。总氮、总磷、溶解磷、硝态氮对水质污染的贡献率达到了53.636%,氮、磷含量是河流水质污染的主要贡献因子。降雨条件下化学需氧量、悬浮物浓度增长迅速,流量、悬浮物与大多数水质指标均有相关性,磷矿开采对河流水质的影响在降雨条件下更加明显,其悬浮物浓度在降雨条件下比只受农业面源影响的河流最高高出1.9倍。     

Nutrients in the Changjiang River

N, P and SiO3-Si in the Changjiang mainstream and its major tributaries and lakes were investigated in the dry season from November to December, 1997, and in the flood season in August and October, 1998. An even distribution of SiO3-Si was found along the Changjiang River. However, the concentrations of total nitrogen, total dissolved nitrogen, dissolved inorganic nitrogen, nitrate and total phosphorus, total particulate phosphorus increased notably in the upper reaches, which reflected an increasing impact from human activities. Those concentrations in the middle and lower reaches of the Changjiang River were relatively constant. Dissolved N was the major form of N and the particulate P was the major form of P in the Changjiang River. The molar ratio of dissolved N to dissolved P was extremely high (192.5-317.5), while that of the particulate form was low (5.6-37.7). High N/P ratio reflected a significant input of anthropogenic N such as N from precipitation and N lost from water and soil etc. Dissolved N and P was in a quasi-equilibrium state in the process from precipitate to the river. In the turbid river water, light limitation, rather than P limitation, seemed more likely to be a controlling factor for the growth of phytoplankton. A positive linear correlationship between the concentration of dissolved N and the river's runoff was found, mainly in the upper reaches, which was related to the non-point sources of N. Over the past decades, N concentration has greatly increased, but the change of P concentration was not as significant as N. The nutrient fluxes of the Changjiang mainstream and tributaries were estimated, and the result showed that the nutrient fluxes were mainly controlled by the runoff, of which more than a half came from the tributaries. These investigations carried out before water storage of the Three Gorges Dam will supply a scientific base for studying the influences of the Three Gorges Dam on the ecology and environment of the Changjiang River and its estuary.     

Multiple Effects of Environmental Factors on Algal Growth and Nutrient Thresholds for Harmful Algal Blooms: Application of Response Surface Methodology

Systematic understanding of the co-effects of environmental factors on phytoplankton proliferation can enable more effective control of harmful algal blooms in eutrophic lakes and reservoirs. A batch of statistically designed experiments using response surface methodology was recently conducted on mixed algae samples collected from Changtan Reservoir. The central composite designed response surface model was established to evaluate multiple effects of various physical and chemical factors (total nitrogen, total phosphorus, temperature, and light intensity) on algal density and chlorophyll a content. Analysis of variance indicated an excellent correlation between modeling results and experimental responses. Among the selected environmental variables, promotion of the interactive effects of nitrogen and phosphorus together with the optimum total nitrogen/phosphorus mass ratio (between 7.9 and 10.1) was determined to be the most significant stimulating parameter associated with algal blooming development dominated by non-nitrogen-fixing species. The favorable effects of strong illumination were shown to be greater than those of high temperature. The border values of total nitrogen and phosphorus concentrations leading to a critical value of algal density under different water temperatures and light intensities could be predicted as nutrient loading thresholds for harmful algal blooms by our second-order polynomial regression model.     

平原感潮河网地区非点源污染负荷匡算

平原感潮河网地区非点源污染严重,由于具有交叉污染等特性,造成了整个平原河网存在严重的环境污染和环境安全问题。构建了大尺度非点源污染负荷匡算模型,对南通平原河网地区非点源污染负荷进行了匡算。根据不同的产污方式,将非点源污染分为城镇降雨径流污染、畜禽养殖污染、农田降雨径流污染、农村生活污染和水产养殖污染等5种类型,分别计算其流失过程。