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1.
Long-term Circulation and Eutrophication Model for Tolo Harbour,Hong Kong   总被引:1,自引:0,他引:1  
Since the early 1980s excessive discharges of organic waste into Tolo Harbour have created serious problems through nutrient enrichment. A number of eutrophication related problems have been reported which incurred financial losses of billions of dollars and serious ecological imbalance. This work addresses the development, verification and application of a water quality model to synthesize the available large database of water quality and to study water quality management issues of Tolo Harbour. Since detrimental water quality problems usually occur during summer when there is stratification and the water temperature is high, the tidally-averaged hydrodynamics and the relative contribution of gravitational circulation and tidal exchanges in Tolo Harbour have been studied. Gravitational circulation is found to be the dominant mixing process for most of the year, accounting for 70 percent of the mixing. A simple and tractable predictive two-layer mass transport and diagenetic dynamic eutrophication model has been developed. The model computes daily variation of key water quality variables in the water column: algal biomass, dissolved oxygen, organic-nitrogen, ammonium-nitrogen, nitrate-nitrogen, and carboneous oxygen demand. In addition, to study the response and impact of the seabed to the overall eutrophication process a sediment sub-model is developed. The diagenetic sediment sub-model computes explicitly the amount of nutrient recycled and the sediment oxygen demand exerted on the water column. The calibrated model has been validated against a 20 year water quality data base under a wide range of hydro-meteorological and environmental conditions. Both spatial and seasonal variation of observed water quality variables are reproduced. The verified model shows that a significant reduction of total nitrogen loading would be required to meet the water quality objectives, with a recovery time of three months for water column and more than two years for sediment.  相似文献   

2.
南水北调东线调度对南四湖水质的影响   总被引:5,自引:1,他引:4  
南水北调东线一期工程2013年通水,必将对南四湖水质产生重大影响.借鉴既有成功理论方法,建立南四湖三维水力调配和水质模型,并经实测值验证.利用该三维模型,模拟南水北调东线一个完整调水期中的南四湖常规、干旱调水工况调度运行过程,分析南四湖上级湖、下级湖的水力和水质变化规律,提出加强和改善南水北调东线调度管理的措施和建议,既可充分发挥南水北调工程效益,又可改善南四湖水质.  相似文献   

3.
太湖北部梅梁湾水域水质因子聚类   总被引:7,自引:5,他引:7  
刘元波  高锡芸 《湖泊科学》1997,9(3):255-260
计算了沿梁溪河河口到太湖湖心断面上10个监测点17个水质因子93组数据的Pearson相关系数和Kendall秩相关系数,进而运用最小距离法进行了因子聚类,正态分布检验和聚类结果表明,采用Kendall秩相关进行了聚类为宜,结果将诸因子聚为五大类:TDN,TN,CON,NO2-N,NH4-N,OH和CODMn归为一类,TDP,TP,PO^3+4和pH值归为一类;SS和SD归为一类,反映了该水域环境  相似文献   

4.
基于水生态改善的太湖分区分时动态水质目标制定方法   总被引:1,自引:0,他引:1  
彭兆亮  胡维平 《湖泊科学》2019,31(4):988-997
科学、合理地制定水体主要污染物浓度控制目标,即水质目标是实施河、湖"水质目标管理"的基础和前提.本文基于环境条件决定生态系统结构以及自组织适应生态学原理,提出一种可促进水生态改善的太湖分区分时动态水质目标制定方法.该方法在出入湖河道流量情景及分区污染物浓度情景设计的基础上,进行不同情境下水生态系统要素时空演化的数值试验;然后以藻类生物量减小、沉水植物生物量增加为判据,构造水质目标优化模型;最后将湖泊水生态模型与水质目标优化模型耦合,判断各污染物浓度情景下水生态系统健康状况,进而确定不同时间尺度下太湖各分区总氮、总磷、氨氮、高锰酸盐指数等主要污染物指标的动态控制目标.结果表明:本方法制定的太湖各湖区分时水质目标相比传统的"静态"目标更能促进太湖水生态系统健康发展,并为太湖水环境的精细化管理提供了可能.  相似文献   

5.
Synoptic water sampling at a fixed site monitoring station provides only limited ‘snap‐shots’ of the complex water quality dynamics within a surface water system. However, water quality often changes rapidly in both spatial and temporal dimensions, especially in highly polluted urban rivers. In this study, we designed and applied a continuous longitudinal sampling technique to monitor the fine‐scale spatial changes of water quality conditions, assess water pollutant sources, and determine the assimilative capacity for biochemical oxygen demand (BOD) in an urban segment of the hypoxic Wen‐Rui Tang River in eastern China. The continuous longitudinal sampling was capable of collecting dissolved oxygen (DO) data every 5 s yielding a ~11 m sampling interval with a precision of ±0.1 mg L?1. The Streeter and Phelps BOD‐DO model was used to calculate: (1) the oxygen consumption coefficient (K1) required for calibration of water quality models, (2) BOD assimilative capacity, and (3) BOD source and load identification. In the 2014 m river segment sampled, the oxygen consumption coefficient (K1) was 0.428 d?1 (20°C), the total BOD discharge was 916 kg d?1, and the BOD assimilative capacity was 382 kg d?1 when the minimum DO level was set to 2 mg L?1. In addition, the longitudinal analysis identified eight major drainage outlets (BOD point sources), which were verified by field observations. This new approach provides a simple, cost‐effective method of evaluating BOD‐DO dynamics over large spatial areas with rapidly changing water quality conditions, such as urban environments. It represents a major breakthrough in the development and application of water quality sampling techniques to obtain spatially distributed DO and BOD in real time. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

6.
The horizontal distribution of phytoplankton in a medium-size canyon type reservoir, forced by weak winds of 3–4 ms?1, is largely driven by the interaction of the large-scale circulation and processes regulating the vertical distribution of algal cells in the water column. These drivers, in turn, are subject to diurnal variations, making our understanding of the horizontal distribution of phytoplankton a challenging task. A three-dimensional physical-–ecological model is used to understand the spatial distribution of algae and the role of diurnal variations in the physical–biological drivers. The model was used to demonstrate that the large-scale circulation induced during the day is more efficient generating patchiness than the circulation existing at night, when convectively driven turbulence homogenizes the upper layers. Different spatial distributions develop for different populations and under different forcing scenarios, characterized in terms of the directionality of wind forcing, wind magnitude and the lags between winds and diel heat fluxes. The time scales needed so that algal biomass in the surface exhibit significant longitudinal gradients—T P —will vary depending on the algal group, and its ability to regulate its vertical position. These scales are shorter for those species that either migrate actively in the water column or exhibit positive buoyancy (Cryptophytes or Positive buoyant algae). In El Gergal, these scales T P are on the order of a few days. Synoptic changes in the meteorological forcing, like the passing of a front, could potentially change the longitudinal distribution of algal biomass if they persist for periods of time longer than T P .  相似文献   

7.
Abstract

A dynamic water quality model, HYPE, was applied to a large, data-sparse region to study whether reliable information on water quantity and water quality could be obtained for both gauged and ungauged waterbodies. The model (called S-HYPE) was set up for all of Sweden (~450 000 km2), divided into sub-basins with an average area of 28 km2. Readily available national databases were used for physiographic data, emissions and agricultural practices, fixed values for representative years were used. Daily precipitation and temperature were used as the dynamic forcing of the model. Model evaluation was based on data from several hundred monitoring sites, of which approximately 90% had not been used in calibration on a daily scale. Results were evaluated using the Nash-Sutcliffe efficiency (NSE), correlation and relative errors: 92% of the spatial variation was explained for specific water discharge, and 88% and 59% for total nitrogen and total phosphorus concentrations, respectively. Day-to-day variations were modelled with satisfactory results for water discharge and the seasonal variation of nitrogen concentrations was also generally well captured. In 20 large, unregulated rivers the median NSE for water discharge was 0.84, and the corresponding number for 76 partly-regulated river basins was 0.52. In small basins, the NSE was typically above 0.6. These major achievements relative to previous similar experiments were ascribed to the step-wise calibration process using representative gauged basins and the use of a modelling concept, whereby coefficients are linked to physiographic variables rather than to specific sites.

Editor D. Koutsoyiannis

Citation Strömqvist, J., Arheimer, B., Dahné, J., Donnelly, C. and Lindström, G., 2012. Water and nutrient predictions in ungauged basins: set-up and evaluation of a model at the national scale. Hydrological Sciences Journal, 57 (2), 229–247.  相似文献   

8.
太湖水质时空特性及其与蓝藻水华的关系   总被引:16,自引:5,他引:11  
张晓晴  陈求稳 《湖泊科学》2011,23(3):339-347
以太湖2005-2007年的连续监测资料为基础,运用聚类分析和自相关分析方法,针对总无机磷,总无机氮、水温等环境理化因素与叶绿素a进行时空序列分析,初步归纳了当前太湖水质指标变化的空间特点、时问周期性及其与蓝藻水华暴发的关系.结果表明,太湖水质的空间分布大致分为三个人湖河口、四个湖湾、湖心区、西部湖区、东部湖区等十个区...  相似文献   

9.
A three-dimensional model coupling physical and biological processes for the whole Thau lagoon (Mediterranean coast of France) was developed in order to assess the relationships between macrophytes and the oxygen and nitrogen cycles. Ten species have been inserted as forcing variables in the model. Plankton dynamics, shellfish cultivation impact and mineralization of organic matter are also considered, as well as nutrient and oxygen exchanges between the sediment and the water column.Simulations with and without the macrophytes have shown that the system can be characterized as having a highly structured pattern involving lagoon nitrogen and oxygen cycles. This pattern is created by the combined influence of macrophytes, watershed and oyster farming.The model has been also used to assess the total annual macrophyte production at the whole lagoon scale. Comparisons with phytoplankton production and with results from other temperate lagoons have underlined the high productivity of the Thau lagoon supported by active nutrient regeneration.  相似文献   

10.
A probabilistic method of calculating the occurrence of oxygen-depleted water within a combined hydrothermal and water quality model was presented in this paper to investigate the environmental impact of eutrophication on the living resources. The method was applied to an eutrophicated shallow coastal bay in western Japan, where the occurrence of red tides at the water surface and the onset of bottom hypoxic waters are observed every summer. Both meteorology and freshwater inflow contribute to the development of stratification of the bay, thus limiting the dissolved oxygen supply to bottom waters. The resulting hydrodynamics enhances the development of oxygen-depleted bottom waters by transporting organic matter produced by algal blooms to the inner bay, where it decomposes and exerts high SOD. During August, about 60% of the inner bay is hypoxic for prolonged durations and as a result most of the benthic biota and fish die. The method used here is a very useful and informative way to evaluate the spatial and temporal damage and severity caused by hypoxia on living resources. Moreover, the model results agreed very well with the observed hydrodynamics, thermal structure and water quality data of the stratified bay. The model can be used for other lakes and bays where knowledge of temperature and density stratification is important for assessing water quality.  相似文献   

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