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1.
长江河口地处海陆交汇地区,其海表盐度受到长江流域、东海和三角洲社会经济活动的复合影响。水体盐度直观反映了河口区域冲淡水分布,对于研究淡水羽状锋、长江物质输送与河口环境变化等具有重要意义。本文分别对枯季和洪季的长江口盐度实测数据,以及中分辨率成像光谱仪(moderate-resolution imaging spectroradiometer,MODIS)遥感反射率与反射率的比值进行拟合回归分析,建立长江口表层盐度反演经验模型,得到枯季的相关系数和均方根误差(root-mean-square error,RMSE)分别为-0.930 3、0.45‰,洪季的相关系数和RMSE分别为-0.818 5、0.88‰;并分析模型在时间尺度上的适用性。利用该盐度反演模型对长江口2007-2016年的表层盐度进行反演,结合大通站记录的长江径流量观测资料,分析长江口表层水体盐度的时空变化规律。结果表明:长江口表层盐度受径流量影响较大,空间上呈自西向东递增趋势,具有季节性分异;枯季近岸盐度较高,高盐度海水可以到达长江口南北支分叉122.5°E附近;洪季冲淡水影响范围广,高盐度海水聚集在123°E以东、31°N以南,长江口北部出现低盐区域;2007-2016年间枯季大通站流量呈上升趋势,平均盐度为29.27‰,总体呈降低趋势,洪季大通站流量呈降低趋势,平均盐度为27.10‰,呈上升趋势,盐度和径流量在年际变化中存在良好的负相关关系。 相似文献
2.
基于2006年汛期10月长江干流大通水文站逐时水位流量资料和长江口区现场实测水文、盐度资料,探讨了特枯水文年份在大型水利枢纽调控影响下的长江口区汛期盐水入侵及其对淡水资源的影响。结果表明:①2006年汛期10月大潮期间,外海上溯至北支的咸潮强度较大,倒灌南支严重,导致观测期间陈行水库、宝钢水库河段不存在淡水资源;②北支高盐度的咸水倒灌主要经白茆沙北水道而进入南支,长江入海冲淡水则主要由白茆沙南水道下泄入南支,两股不同性质的水流在白茆沙尾部汇合,其影响范围可到南港吴淞口;③观测期间,外海高盐水团经南北槽上溯,其强度和上溯距离可影响到吴淞口,致使除吴淞口附近水域存在淡水资源外,南港吴淞口以下河段皆为高盐水体覆盖。 相似文献
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4.
三峡水库蓄水改变了下泄的水沙条件,引起坝下游水沙过程及泥沙输移特性发生变化,影响下游河床沉积物的渗透系数。基于黄河花园口实测沉积物渗透系数与颗粒粒度参数,拟合了渗透系数K关于平均粒径d50及分选系数σ的经验公式,并用该公式分析了三峡水库蓄水前后下游河床沉积物K的变化。结果表明:(1)三峡水库蓄水前、后三峡大坝下游渗透系数K整体上均呈向下游减小趋势,且越接近河口,变化幅度越小;(2)城陵矶以上河段,水库蓄水运用之后,渗透系数K值较蓄水前明显增大;(3)大通至徐六径断面间河段,水库蓄水后较蓄水前渗透系数K值变化幅度存在减小趋势。 相似文献
5.
钱塘江河口为强涌潮、高含沙量、河床冲淤剧烈的河口,其盐度输移时空变化受河床冲淤的反馈影响十分显著。建立了考虑河床冲淤变化的一维盐度动床数学模型,耦合求解水沙运动、河床冲淤及盐度输移过程,数值计算方法采用守恒性较好的有限体积法。验证结果表明:河床冲淤对氯度的影响非常显著,动床模型的结果与实测基本吻合,在长历时盐度预报中采用动床模型是必要的。应用该模型分析了钱塘江河口咸水入侵对上游建库、治江缩窄工程等人类活动的响应,探讨了杭州城市供水水源保证率。结果表明,新安江水库、河口治理缩窄工程对改善河口淡水资源利用、保障杭州市供水安全显著;供水保证率要达95%以上,需采取上游水库泄水调度和新建备用水库等措施。 相似文献
6.
通过评估IPCC第四次评估公开发布的22个全球气候模式对长江流域降水和气温的模拟性能,选取了BC-CR-BCM2.0等7个气候模式,利用这些GCM s在A1B、A2和B1三种典型排放情景下的未来气温和降水预测结果,结合BP神经网络模型,在对模型验证效果良好的基础上,预测未来气候变化下长江流域径流变化趋势.结果表明,长江流域未来年平均径流量呈减少趋势,宜昌水文站以枯水年减少为主,未来年平均流量比历史年平均流量减少了520 m3/s;大通水文站则以平水年减少为主,比历史年平均流量减少了250 m3/s,水量的减少对南水北调东中线的调水规模和调配、管理提出了较大的挑战.长江流域多年平均月流量增加将主要发生在1~6月,而7~12月将以减少趋势为主.宜昌站和大通站的1~6月份平均增加幅度分别为29.6%和13.8%,7~12月份的平均减少幅度分别为-18.2%和-11.0%,宜昌站的变幅要高于大通站.宜昌站汛期呈减少趋势,平均为-8.5%,非汛期略有增加.大通站变化趋势与宜昌站相反,汛期呈增加趋势,平均为2.3%,非汛期略有减少. 相似文献
7.
根据Deleersnijder定义的一个平均年龄概念,运用耦合了物质输运模式的一个三维水动力-富营养化数值模型(HEM-3D),研究了位于美国北卡罗莱纳州Pamlico河口(PRE)的污染物输运时间在不同淡水流量影响下的分布情况。模型结果表明,在正常期,污染物被输运出PRE需要大约65d的时间。而在枯水期和洪水期,污染物分别需要230d和20d时间被输运出PRE。这表明物质输运过程明显受淡水流量的影响。污染物输运时间的空间变化显著受河口中盐度入侵的影响,咸水入侵在其可以达到的最大区域形成了一个盐度锋面,而这个锋面阻碍了污染物向外的输运。盐度层化对输运时间的垂向分布影响显著,输运时间垂向梯度随着盐度层化的增强而增大。 相似文献
8.
针对三峡水库蓄水运用以来排沙比问题,在深入研究三峡水库不同蓄水运用阶段水库排沙效果的基础上,着重研究各年年内蓄水排沙过程,系统地分析水库排沙效果的影响因素。结果表明:库区河道特性、入库水沙条件以及坝前水位的高低是水库排沙比变化的主要影响因素。2003年6月~2010年12月,水库排沙比为26.1%。水库排沙主要集中在汛期5~10月,排沙比为29.0%。尤其是在洪峰期间,库区水流流速较大,水流挟沙能力强,进入水库的泥沙大部分能输移到坝前,水库排沙比较大,当入库流量大于30000m3/s时,水库最大排沙比可达81.0%。此外,随着汛期坝前水位的抬高,水库排沙效果有所减弱,尤其是粗颗粒泥沙的多少也很大程度上影响水库排沙效果,水流的挟沙能力随着水流流速的减小而减小,粗颗粒泥沙的排沙比随之发生较全沙更为明显的减小。 相似文献
9.
洞庭湖流域洪水模拟与综合治理 总被引:1,自引:1,他引:0
在洞庭湖水灾现状和特征分析的基础上,利用水平衡方程对洞庭湖及四水水系的水情作了进一步的模拟分析。初步估计了流域的泄流系数Fo,保水系数Fs和蓄水系数FR。得到洞庭湖随洪峰入湖流量而变化的水位日增量和湘、资、沅、四水流域随集中降水量而变化的水位总增量。进而对洞庭湖水患的防治提出了综合的治理方略:(1)增加蓄洪面积,预田蓄洪;(2)增大泄流系数,有控泄流;(3)减少入流流量,有效蓄水;(4)加固堤防工程,有备无患。减少入流流量,有效蓄水,就是在洞庭湖上游的四水流域,除了增加水库型集中蓄水外,还要人工地增加降水滞流量,也就是在全流域增加分散性蓄水机能,进行研究水田蓄水、旱土蓄水、草地蓄水及林地蓄水等的蓄洪限度、实施技术及蓄洪以外的经济效益,以及流域人工增加降水滞流量的巨大潜力。本文分析认为,只有对洞庭湖及其流域的水旱灾害实施综合治理,才是根治洞庭湖水患的有效方略,将对湖南社会经济可持续发展起重要作用。 相似文献
10.
杭州市第二水源千岛湖配水工程(简称配水工程)的实施将引起富春江水库下泄流量及过程改变,从而对钱塘江河口盐水入侵产生影响。建立考虑涌潮作用的二维盐度数值模型,在验证钱塘江河口潮位和盐度的基础上,预测配水工程实施对河口盐水入侵距离和重要取水口含氯度超标时间的影响。研究表明:配水工程实施后,上游富春江水库若按现状调度方案,对枯水年影响大,咸水上溯距离增加3.7 km,沿岸取水口的可取水时间缩短0.2~3.6 d,丰、平水年盐水入侵和引水前相当;通过水库的优化调度,可基本消除枯水年引水造成的盐水入侵影响。为减少配水工程实施的盐水入侵影响,采用水库的优化调度模式是必要的。 相似文献
11.
Impacts of hydrological changes on phytoplankton succession in the Swan River, Western Australia 总被引:2,自引:0,他引:2
Terence U. Chan David P. Hamilton Barbara J. Robson Ben R. Hodges Chris Dallimore 《Estuaries and Coasts》2002,25(6):1406-1415
The Swan River estuary, Western Australia, has undergone substantial hydrological modifications since pre-European settlement. Land clearing has increased discharge from some major tributaries roughly 5-fold, while weirs and reservoirs for water supply have mitigated this increase and reduced the duration of discharge to the estuary. Nutrient loads have increased disproportionately with flow and are now approximately 20-times higher than pre-European levels. We explore the individual and collective impacts of these hydrological changes on the Swan River estuary using a coupled hydrodynamic-ecological numerical model. The simulation results indicate that despite increased hydraulic flushing and reduced residence times, increases in nutrient loads are the dominant perturbation producing increases in the incidence and peak biomass of blooms of both estuarine and freshwater phytoplankton. Changes in salinity associated with altered seasonal freshwater discharge have a limited impact on phytoplankton dynamics. 相似文献
12.
Estimation of net physical transport and hydraulic residence times for a coastal plain estuary using box models 总被引:1,自引:0,他引:1
A box model based on salinity distributions and freshwater inflow measurements was developed and used to estimate net non-tidal physical circulation and hydraulic residence times for Patuxent River estuary, Maryland, a tributary estuary of Chesapeake Bay. The box model relaxes the usual assumption that salinity is at steady-state, an important improvement over previous box model studies, yet it remains simple enough to have broad appeal. Average monthly 2-dimensional net non-tidal circulation and residence times for 1986–1995 are estimated and related to river flow and salt water inflow as estimated by the box model. An important result is that advective exchange at the estuary mouth was not correlated with Patuxent River flow, most likely due to effects of offshore salinity changes in Chesapeake Bay. The median residence time for freshwater entering at the head of the estuary was 68 d and decreased hyperbolically with increasing river flow to 30 d during high flow. Estimates of residence times for down-estuary points of origin showed that, from the head of the estuary to its mouth, control of flushing changed from primarily river flow to other factors regulating the intensity of gravitational circulation. 相似文献
13.
The coastal marshlands of the Nueces estuary, Texas depend upon periodic freshwater inundation to support current community structure and promote further establishment and expansion of emergent halophytes. Decades of watershed modifications have dramatically decreased freshwater discharge into the upper estuary resulting in hypersaline and dry conditions. In an attempt to partially restore inflow, the U.S. Bureau of Reclamation excavated two overflow channels re-connecting the Nueces River to the marshlands. Freshwater-mediated (precipitation and inflow) changes in tidal creek and porewater salinity and emergent marsh vegetation were examined over a 5-yr period at three stations in the upper Nueces Marsh with the aid of a Geographical Information System (GIS). Two stations were potentially subjected to freshwater inflow through the channels, while one station experienced only precipitation. Decreased tidal creek and porewater salinity were significantly correlated with increased freshwater at all stations (R2=0.37 to 0.56), although porewater salinities remained hypersaline. GIS analyses indicated the most considerable vegetation change following freshwater inundation was increased cover of the annual succulentSalicornia bigelovii. Fall inundation allowed seed germination and rapid expansion of this species into previously bare areas during the subsequent winter and following spring. The station affected by both inflow and precipitation exhibited greaterS. bigelovii cover than the station affected solely by precipitation in both spring 1999 (58. 7% compared to 27.9%) and 2000 (48.6% compared to 1.9%). Percent cover of the perennialBatis maritima temporarily increased after periods of consistent rainfall. The response was short term, and cover quickly returned to pre-inundation conditions within 3 mo. Prolonged inundation led to longterm (>2yr) decreases in percent cover ofB. maritima. Our results suggest that the timing and quantity of freshwater inundation strongly dictate halophyte response to precipitation and inflow. Brief periods of freshwater inundation that occur at specific times of year alleviate stress and promote seed germination and growth, but extended soil saturation can act as a disturbance that has a negative impact on species adapted to hypersaline conditions. 相似文献
14.
M. Sinha M. K. Mukhopadhyay P. M. Mitra M. M. Bagchi H. C. Karamkar 《Estuaries and Coasts》1996,19(3):710-722
Construction of the Farakka barrage on the Ganga River in April 1975 to augment water supply to the Calcutta port has brought about a significant increase in freshwater discharge in its distributary, the Hoogly estuary. This has naturally resulted in major changes in the ecology of this estuary, causing modifications in the structure of its fishery resources, fishing pattern, and fish production. This paper presents observations on salinity, plankton, bottom biota, fishery resource, and fish production of different zones of the Hooghly estuary during the period 1982–1992. Comparison with similar studies made before and immediately after commissioning of the Farakka barrage (1975–1977) has revealed that the increased freshwater discharge has resulted in considerable decrease in salinity throughout the estuary. The freshwater zone now extends toward the mouth of the estuary. The true estuarine zone has moved seaward and the marine zone has been restricted to the area near the mouth of the estuary. This has effected major changes in plankton dynamics, sharp decline in the fishery of marine and neritic species in the upper estuary, caused a significant increase in catch ofTenualosa ilisha and an over twofold increase in the average annual fish landings from the estuary as a whole. New zonations have been proposed based on the presently, observed salinity values, which are the most significant factor in determining the fishery of any estuary. An interdisciplinary study of the ecology of the new zones is needed to establish their correct biological characteristics. 相似文献
15.
Luci Cajueiro Carneiro Pereira Ádila Kelly Rodrigues da Costa Rauquírio Marinho da Costa André Magalhães Manuel de Jesus Flores-Montes José A. Jiménez 《Estuaries and Coasts》2018,41(3):676-689
The effects of atypical climatic conditions, such as those of a drought event, are remarkably accentuated in minor estuaries filled with sediments and with reduced or sporadic freshwater input, where the salinity intrusion is pronounced. To understand these effects, hydrological and hydrodynamic parameters were evaluated during a drought period in a small estuary located on the eastern Amazon coast in northern Brazil. Five campaigns were conducted between June 2012 and June 2013. Samples were collected from the surface and bottom layer every 3 h over a 25-h period at three stations of the Taperaçu Estuary. To compare drought and post-drought periods, in terms of salinity and chlorophyll-a, data was recorded until June 2015. Taperaçu is a relatively shallow estuary of the Amazon coastal zone, which is characterized by the absence of any direct fluvial discharge, although it does receive freshwater input from adjacent wetlands, as well as less saline waters from the Caeté Estuary through the Taici Creek. Hydrological variables were controlled by rainfall levels and the tidal range, and the water became more saline and more oxygenated, with reduced dissolved nutrient and chlorophyll-a concentrations when precipitation decreased. A significant variation was found between the months of June 2012 (most intense drought) and 2013 (less intense drought). The connection to the neighboring Caeté Estuary and adjacent mangroves and wetlands contributed to the influx of nutrient-enriched waters. Overall, then, it is hoped that the results of this study can contribute to the understanding of the effects of drought events in other minor estuaries on the highly indented Amazon coast, as well as in other areas of the equatorial zone with similar environmental characteristics. 相似文献
16.
Yves de Lafontaine 《Estuaries and Coasts》1990,13(1):43-50
The species composition and relative abundance of ichthyoplankton were investigated during summer 1986 at four stations along the salinity gradient in the Manicouagan River estuary, a tributary of the lower St. Lawrence estuary. Physical characteristics of water masses indicated the presence of a strong saline front (>10‰ per km) delineating the freshwater and marine section of the Manicouagan estuary. The estuary supports a depauperate ichthyoplankton community, including four species of pelagic fish eggs and eight species of fish larvae. Species richness increased with salinity. The ichthyoplankton fauna can be divided into two distinct groups: freshwater and marine. These two groups result initially from spawning preferences exhibited by the different species abundance of freshwater larvae was maximal at the head of the estuary and marine larvae were most abundant at the most saline station. The length frequency distribution suggests that marine larvae are not effectively retained within the estuary. The Manicouagan estuary cannot be considered as a major spawning site nor an important nursery zone for any fish found in this area. 相似文献
17.
A three-dimensional, time-dependent hydrodynamic and suspended sediment transport model was performed and applied to the Danshuei
River estuarine system and adjacent coastal sea in northern Taiwan. The model was validated with observed time-series salinity
in 2001, and with salinity and suspended sediment distributions in 2002. The predicted results quantitatively agreed with
the measured data. A local turbidity maximum was found in the bottom water of the Kuan-Du station. The validated model then
was conducted with no salinity gradient, no sediment supply from the sediment bed, wind stress, and different freshwater discharges
from upstream boundaries to comprehend the influences on suspended sediment dynamics in the Danshuei River estuarine system.
The results reveal that concentrations of the turbidity maximum simulated without salinity gradient are higher than those
of the turbidity maximum simulated with salinity gradient at the Kuan-Du station. Without bottom resuspension process, the
estuarine turbidity maximum zone at the Kuan-Du station vanishes. This suggests that bottom sediment resuspension is a very
important sediment source to the formation of estuarine turbidity maximum. The wind stress with northeast and southwest directions
may contribute to decrease the suspended sediment concentration. When the freshwater discharges increase at the upstream boundaries,
the limits of salt intrusion pushes downriver toward river mouth. Suspended sediment concentrations increase at the upriver
reaches in the Danshuei River to Tahan Stream, while decrease at Kuan-Du station. 相似文献
18.
The Lower Hillsborough River, Florida is a short (16 km) riverine estuary which has a dam located at its upstream end. Salinity below the dam is influenced by freshwater that flows over or through the structure. Depending on location in the estuary, the response of salinity to changes in upstream freshwater inflows is normally not instantaneous, but lags behind the freshwater release. An analytical approach and a laterally averaged two-dimensional hydrodynamic model were used to examine the response time of salinity in the Lower Hillsborough River to changes in freshwater inflows from the upstream reservoir. A series of case studies were conducted using the model to determine how salinity in the river within one kilometer below the dam would respond to changes in freshwater inflows. The model results suggest that the time lag of salinity in the river depends on whether the upstream freshwater inflows are increasing or decreasing, as well as their magnitude. While the time lag for salinity is about six to eight days for decreasing inflows, it is much shorter for increasing inflows depending on the magnitude of the flow release. 相似文献
19.
Susanne M. Moskalski Christopher K. Sommerfield Kuo-Chuin Wong 《Estuaries and Coasts》2011,34(4):800-813
Influences of tides, freshwater discharge, and winds on water properties in the St. Jones River estuary (USA), a Delaware
National Estuarine Research Reserve, were investigated using multiyear records of sea level, salinity, and turbidity, supplemented
by a current profiler time series in 2007. Results demonstrate that instantaneous properties fluctuate with semidiurnal tides
and resonant overtides, whereas tidal mean variations are forced by seasonal freshwater inflow and offshore winds. Mean sea
level and salinity are highest in summer and vary with seasonal water temperature and rainfall, whereas sea level variability
and turbidity are highest in winter on account of storm effects. Salinity and discharge modeling suggest that much (43–65%)
of the freshwater resident in the estuary is derived from non-point sources below the head of tide. This diffuse freshwater
inflow produces a seaward surface slope and weak mean current, which temporarily reverses under the influence of storm–wind
setup within Delaware Bay. 相似文献