共查询到20条相似文献,搜索用时 187 毫秒
1.
2.
介绍了水量水质监测的工作流程、监测参数、监测范围及维护方法,对比分析了自动与实验室监测的差别,分析了水量水质自动监测中的优缺点,提出了自动监测站也有其局限性,要与常规监测结合,互相补充;监测设备多为原装进口,需保障维护经费;水质站发展不宜过快,要稳定发展,等几项水量水质自劲监测站应注意的问题。 相似文献
3.
介绍了内陆湖泊水质遥感监测的特点及遥感监测水质的机理;总结了国内外近年来用于内陆湖泊水质参数反演的3种常用方法:经验模型、半经验法和机理模型法,并分析了3种模型的优缺点;讨论了目前遥感在水质监测应用中存在的问题和未来该领域研究的重点。 相似文献
4.
5.
沱江是长江流域上游最重要的支流之一,为了明晰沱江流域水质时空变化特征和防治重点,根据2010—2017年沱江流域36个监测断面水质监测数据,采用单因子评价法和秩相关系数法,从年份、月份、季度和水期4个时间段进行了分析.结果表明:沱江流域水质状况总体上污染较重,但有向好趋势,总磷(TP)为首要污染物,流域断面达标率呈先上升后下降复上升的趋势;水质指标浓度年内变化显著,水质指标浓度丰水期达到最小值,枯水期达到最大值;沱江干流监测断面水质类别好于支流;TP和氨氮(NH3-N)浓度空间变异性较弱,化学需氧量(COD)和生化需氧量(BOD5)浓度则存在较强空间变异性.虽然沱江流域水质有变好趋势,但沱江流域面临的污染问题依然严峻,今后要高度重视污染源治理,尤其是TP的防治工作. 相似文献
6.
7.
8.
9.
松嫩盆地的地下水化学特征及水质变化规律 总被引:18,自引:0,他引:18
松嫩盆地位于东北腹部, 是我国主要的大型地下水盆地之一.地下水资源十分丰富, 但水质问题复杂, 原生水质状况不佳, 人为污染比较严重.根据水利、地质部门多年积累的地下水水质监测资料, 对地下水中原生有害组分和人为污染组分的形成机理和区域分布规律进行了比较全面、深入的研究, 着重分析了在人为活动影响下, 盆地不同地下水系统内地下水水质的多年变化规律.认为地质构造上的封闭性、强还原/弱碱性/富含有机质的水文地球化学环境、地下水运动滞缓是盆地地下水中多种原生有害组分富集的基本条件.近半个世纪以来强烈的人类活动, 则是导致地下水水质发生趋势性变化的主要原因.提出了改善区域地下水交替循环条件, 治理环境污染, 治理和更新已成为污染通道的水井, 利用洁净松花江水开展地下水人工回灌等改良与保护地下水水质的主要措施. 相似文献
10.
云南开远南洞地下河水质演变特征 总被引:4,自引:4,他引:0
在云南开远南洞地下河出口,连续19年采取旱、雨季水样进行水质变化监测,结果表明: ( 1)整体上地下水水质旱季好于雨季,历年旱季水质类型以良好为主,雨季则以较差为主; ( 2)水质变化阶段性明显: 1987— 1993年,离子浓度普遍较低,旱、雨季波动不大,水质多属Ⅰ 、Ⅱ 类,有机污染以NH+4 、NO-3 等为主; 1994—2000年,旱、雨季离子浓度均普遍升高且变化加剧, N H+4 、As、Cd、Cr、Mn出现历年最大值,金属离子污染日趋加剧,水质以Ⅱ 、Ⅲ 类为主; 2001— 2005年,旱、雨季离子浓度有升有降,以升为主, Pb、Zn、Cl- 、SO2-4 出现历年最大值,水质以Ⅱ 、Ⅲ 类为主。南洞地下河水质19年来发生了较大的变化,污染日趋严重。分析认为该地下河水质逐步变差与上游补给区盆地内经济发展状况密切相关。为此,提出了采用自动监测等方法加强地下河动态变化监测研究以及实行分区、分级管理等水质保护的具体对策建议。 相似文献
11.
12.
Abhay Kumar Singh G. C. Mondal P. K. Singh S. Singh T. B. Singh B. K. Tewary 《Environmental Geology》2005,48(8):1014-1028
Water samples collected from the six reservoirs of Damodar River basin in pre- and post-monsoon, have been analysed, to study
the major ion chemistry and the weathering and geochemical processes controlling the water composition. Ca, Na and HCO3 dominate the chemical composition of the reservoir water. The seasonal data shows a minimum concentration of most of the
ions in post-monsoon and a maximum concentration in pre-monsoon seasons, reflecting the concentrating effects due to elevated
temperature and increased evaporation during the low water level period of the pre-monsoon season. Water chemistry of the
reservoirs strongly reflects the dominance of continental weathering aided by atmospheric and anthropogenic activities in
the catchment area. Higher concentration of SO4 and TDS in Panchet, Durgapur and Tenughat reservoirs indicate mining and anthropogenic impact on water quality. The high
contribution of (Ca+Mg) to the total cations, high concentration of dissolved silica, relatively high (Na+K)/TZ+ ratio (0.3) and low equivalent ratio of (Ca+Mg)/(Na+K) suggests combined influence of carbonate and silicate weathering.
Kaolinite is the possible mineral that is in equilibrium with the water, implying that the chemistry of reservoir water favours
kaolinite formation. The calculated values of SAR, RSC and sodium percentage indicate the ‘excellent to good quality’ of water
for irrigation uses. 相似文献
13.
The only source of drinking water in Vilnius City, Lithuania's capital, is groundwater. It can be supplied from 20 wellfields situated in the City or its environs. About half of them (11) are located in the valley of the Neris River crossing the City. The exploited aquifers were formed by melting continental glaciers and modified by the river. Until 1990 groundwater resources had not been conserved—the per capita consumption for domestic use in Vilnius reached 350 l/day. After 1990, due to the increasing cost of supplying drinking water, its consumption was reduced by a factor of three. As pumping rates of wellfields in Vilnius were increased or decreased, the groundwater quality was changed significantly. It is mainly affected by the surface water and shallow aquifers of the hydrologic system. The unoxidised organic matter that enters the exploitable aquifers from rivers and polluted shallow groundwater consumes scarce oxygen resources, thus creating anoxic conditions favourable for increasing the accumulation of iron, manganese and ammonium. Modelling and monitoring data show that the concentrations of sulphates and chlorides in Vilnius wellfields indicate not only the rise of brackish water from below, but also downward seepage of polluted surface water into the aquifers. 相似文献
14.
基于第二十二届国际大地测量与地球物理大会的动态,分析出世纪之交水文学研究的三大基本特点.其一是强调人类活动对水循环的影响的研究,主要表现为研究土地利用变化对来自面源的氮负荷的影响、城市化进程加快对地表和地下水质的影响、河流对水文系统、泥沙输送及营养负荷的变化的生态响应和地下水和地表水在质与量上的相互作用.其二是十分重视区域尺度的水文的研究.包括区域及全球尺度资料库的建立和区域水分通量的计算.其三是集成应用示踪剂、遥感及先进的水文测验技术进行水文机理研究. 相似文献
15.
16.
人类巨量碳排放究竟导致什么后果,争议颇大,只有深入研究始新世以来大气CO2浓度与环境变化,才有可能正确认识未来人类自身巨量碳排放之后果。大量研究揭示出: 从始新世到渐新世末期,大气CO2浓度大幅下降,全球变冷,形成了大陆冰川; 中新世至今,大气CO2浓度在低浓度背景之下长周期缓慢下降。当前尚不清楚何种机制主导了这一变化过程,也不清楚形成大陆冰川的水来自何方。为此,从青藏高原深部碳循环、表层水循环和环境变化的角度探讨这些问题,再分析未来人类巨量碳排放之后果。青藏高原在生长、隆升过程中,通过硅酸岩化学风化、植物光合作用、陆内俯冲(深埋)、水岩反应等方式,持续将巨量大气CO2转化为富含碳元素的固、流体,封存在青藏高原新生的厚地壳之中,大幅降低了大气CO2浓度,导致了全球变冷、大陆内陆(含青藏高原,下同)表层失水变干,形成了大陆冰川。渐新世—中新世之交,青藏高原生长到改变大气环流的规模,形成了亚洲季风,大陆内陆进一步荒漠化,捕获CO2的量大幅下降,并与青藏高原内部所释放CO2的量达到了准动态平衡,这是中新世以来大气CO2浓度变化的主要机制。人类巨量碳排放彻底扭转了大气CO2浓度长周期缓慢下降的趋势,大陆冰川因全球变暖所形成的液态水不会长期停留在海洋里,而以大气降水的方式重新回到干冷的大陆内陆,青藏高原将因此再次成为巨型水塔,缓解30多亿人的清洁饮用水问题。持续生长的高原和当前干冷荒漠化的大陆内陆通过前述多种方式固化人类排放的巨量CO2,导致未来大气CO2浓度在较高浓度背景下保持稳定,届时沙漠变绿洲,黄土高原变成有机质丰富的黑土高原,人居环境大幅改善; 但在盆地内部,PM2.5难以扩散,易形成雾霾。全球平均海平面因海水热膨胀而缓慢上升,上升速率约为1 mm/a。水主要在大陆冰川与内陆表层之间循环,与海平面升降之间没有因果关系。因此,人类巨量碳排放所导致的全球变暖对于人类自身的发展是利大于弊。 相似文献
17.
18.
19.
Seawater flows towards the inlands along with the rivers and canals, through the process of infiltration and leaks in the ground water characterized by high concentrations of soluble salts. High salinity concentrations can make groundwater unsuitable for public consumption and surface water unsuitable for irrigation and agricultural activities. This study envisages the fluctuations of ground and surface water quality of Bentota area in the presence of seawater intrusion. The temporal and spatial variations of eleven water parameters were monitored by collecting the water samples during one year period. Spatial distributions were assessed by applying the Inverse distance weighted (IDW) interpolation method in Arc GIS 10.5 software. Water quality is assessed on the integration of all parameters in terms of an index based on the World Health Organization (WHO) standards. The significant linear relationship between the considered parameters of surface water (SW) and groundwater (GW) were identified applying correlation analysis using SPSS software. All parameters of surface water were above the permissible limits of WHO standards. Surface water quality index values with respect to 60% of canals show very poor quality (>1 250) of surface water indicating their unsuitability for irrigation activities. Those surface water bodies indicated very highly saline conditions during dry months. The spatial distribution of ground water quality index with respect to the highest parameter values of each sampling location indicates that 52.2% of total land extent of Bentota Divisional Secretariat Division (DSD) has good quality of ground water which is suitable for drinking. Its 47.2% of total land extent has poor quality of ground water for drinking purpose and less than 0.5% of the area consists of excellent or very poor quality of ground water in each. This study helps to manage coastal aquifers by understanding the extreme water quality conditions and coastal salinity. 相似文献
20.
Shaohua Zhou 《地学学报》1996,8(6):514-524
An analytical solution has been derived for the steady-state geotherm of the continental lithosphere, using an empirical thermal conductivity model that incorporates the experimentally observed temperature and pressure effect. Based on recent global compilations of crustal thickness and heat flow data, a standard continental lithosphere is re-defined by a global mean model with total crustal thickness of 40 km and surface heat flow of 55 mWm-2 (within which 28 mWm-2 is assumed to be derived from deep mantle source). The thickness of the continental lithosphere (≅125 km), consistent with previous models, is given by the depth at which the geotherm intersects the potential asthenosphere temperature of 1280°C. It is shown that the new steady-state geotherm is much hotter than that based on the previously adopted model where material thermal conductivity is assumed to be constant (≅3.14 W/m/k) throughout the lithosphere. The consequence of this re-evaluation of pre-extension thermal structure in the lithosphere is that the minimum stretching factor required to cause the onset of dry mantle partial melting can be 15–20% lower than the previous estimate. Also, if minor amounts of water or other volatile element or dry basalt are present in the upper mantle, melting of the subcontirfental mantle is very likely to occur for any geotherms constructed using surface heat flows > 30 mWm-2 . 相似文献