Sulfate reduction in natural water bodies. 1. The effect of environmental factors and the measured rates of the process

Sulfate reduction is an important oxidation process involving transformation of organic matter and its components and taking place in the aquatic environment and bottom sediments of water bodies (both fresh and marine) under anaerobic conditions. The intensification of sulfate reduction in water bodies is a sign of a stronger anthropogenic impact on the environment and natural water bodies. The development of sulfate reduction under natural conditions reflects the influence of many environmental factors. The effect of the most important factors (the concentration of organic matter and its components and sulfates, the temperature of aquatic environment, and the abundance and activity of sulfate-reducing bacteria) on the process of sulfate reduction in the aquatic environment and bottom sediments in water bodies is considered.     

DO-Process Models for Shallow Systems. Part 1: Ponds and Lakes

Model statements are presented for describing the oxygen concentration in dependence on various system quantities and five different shallow water bodies. A nonlinear model in the form of a polynomial and with parameter estimation by means of recursive regression proves suitable. It is a blackbox model in which the water temperature, the biomass of phytoplankton and zooplankton and the solar irradiation are the most important input quantities. The model applications to the five water bodies reach measures of determinateness of 0.6 … 0.74 and mean square deviations between the measured and calculated oxygen concentrations of 3 … 4 mg/l O₂. Simulations of the model output by changed input data are discussed.     

Transboundary water problems and approaches to their solution: 2. Revision of agreements

Mechanisms are proposed for the harmonization of interests of states using transboundary water bodies in the cases where agreements on joint management strategies are to be revised. The harmonization is being carried out taking into account the quantitative and qualitative characteristics of water resources under stochastic conditions. The functioning of water bodies is considered under static conditions and in discrete time. The harmonization takes place within a manageable market of water resources.     

Uncertainty analysis along the ecological quality status of water bodies: the response of the Posidonia oceanica multivariate index (POMI) in three Mediterranean regions

Uncertainty analyses allow the identification and quantification of the factors that contribute to the potential misclassification of the ecological status of water bodies, helping to improve the sampling design used in monitoring. Here we used a Posidonia oceanica multivariate index (POMI) bio-monitoring dataset covering a total of 81 sites distributed throughout 28 water bodies from the coast of Catalonia, Balearic Islands and Croatia to determine the levels of uncertainty associated with each region and how they change according to the quality status of water bodies. Overall, variability among sites (meadows) within water bodies was the factor that generated the greatest risk of misclassification among the three regions, within which the Balearic Islands had the lowest uncertainty, followed by Croatia and Catalonia. When water bodies classified in good/high quality were separated from those in moderate/poor status classes, we found that the latter displayed higher levels of uncertainty than the former.     

Geohydrological conditions of the Deccan Trap flow around Saugor (M.P.), India

The geological formations that occur around Sagar consist of Upper Rewa quartzitic sandstones of Vindhvan age and nine Deccan Trap flows with three main inter-trappean bands. Most of the villages around Sagar depend upon the flow No. 5 for their water supplies. This flow forms valleys which may occur either in between the Vindhyan hills or Vindhyan hills and Trap hills, or Trap hills. To evaluate the geo-hydrological conditions of this flow under different topographic and stratigraphic controls, detailed geologic, water-shed and water table maps were prepared and analysed, after taking into consideration rain fall data for a period of sixty years. The villages selected for studies include the farm-lands of Richonda which occur in between the Vindhyan hills and Kudari, which occurs in between the Trap and Vindhyan hills. Villages like Patkui and Bhainsa, occurring on either side of the surface water divide of the same flow, are also taken into consideration. Water table maps for these villages were prepared once before the onset of rains and the second time immediately after the rains, on a scale of 16″ to a mile at 1 foot contour intervals. From such studies made on this flow, the following conclusions have been arrived at:

1. Where a flow occurs in adjacent Deccan Trap valleys separated by a long continuous Vindhyan ridge, the Vindhyan ridge may act as an underground barrier, separating the ground water body of the flow into two distinct units, and the upper unit may give rise to springs on that valley side of the Vindhyan having the lower elevation.
2. Where the Vindhyan ridge loses its height and disappears below the flow, the adjacent separate water bodies of this flow merge into a single water body. The portion of the Vindhyan ridge that occurs below the ground still continues to act as barrier for the water bodies of the lower flows.
3. Where the flow occurs over a large area, but at places is overlaid by younger flows, giving rise to hills with distinct water-shed characteristics, the water body of the flow is generally continuous on either side of the hills, immediately after the rains. This, however, gets disrupted into separate water bodies during summer months and it is found to recede in the slope direction; nevertheless, the trend of recession is controlled locally by the levels at which the porous zone of a flow occurs.
4. Where the continuity of the flow is disrupted due to denudation, producing valleys, the continuity of the water table of that flow is also interrupted.
5. On either side of a distinct surface water divide of a flow, the ground water bodies occur as separate units in the flow.

     

Transboundary water problems and approaches to their solution: 1. Formation of agreements

Conflict situations in transboundary water use and the associated problems of harmonization of the interests of the users who claim the resources of transboundary water bodies. Mechanisms are proposed for the harmonization of the interests of states using transboundary water bodies in the absence of agreements regarding joint management strategies. The harmonization is being carried out with the quantitative and qualitative characteristics of water resources under stochastic conditions taken into account.     

Lake Water Resources in the Asian Part of the Russian Federation

Water resources of lakes with natural and regulated hydrological regime are evaluated, and estimates are given to the water resources of artificial water bodies in three federal districts in the Asian part of RF (Ural, Siberian, and Far-Eastern) and the constituent entities of the Federation they contain. The estimates were made by a new procedure, incorporating up-to-date satellite data and functions of Google Earth project. In the Asian part of RF, ~3140000 natural water bodies were analyzed, including ~1170000 lakes >1 ha in area and ~6000 artificial water bodies. Lake water resources in the Asian part of RF amount to 24537 km³, of which ~96% are contained in Lake Baikal. Other 638 km³ are contained in artificial water bodies.     

Sulfate reduction in natural water bodies: 2. Empirical models for process rate assessment

Empirical models that are used to assess sulfate reduction rates in the aquatic environment and bottom sediments of water bodies are discussed. Such models, with different detail, take into account the effect of the major habitat factors (the concentrations of organic matter, its components, and sulfates; ambient temperature; the numbers and activity of sulfate-reducing bacteria) on matter oxidation transformation during the sulfate reduction process. Improvements in the empirical models are proposed with the aim to more adequately account for the effect of environmental factors on the sulfate reduction rate distribution in water bodies. Validation of such models and the assessment of their parameters are demonstrated against available observational data collected at appropriate water bodies.     

The effect of morphometric characteristics and geographic zonality on thermal stratification of lakes

Long-term data (1945–1989) collected during regular observations of water temperature on a network of Roshydromet stations in different types of water bodies in Northwestern European Russia are generalized. A number of mathematical expressions, which are relatively simple and acceptable for wide circles of researchers, are proposed for the assessment of the thermal state of water bodies. Empirical dependences of the thickness of epilimnion, the depth to thermocline, the type of thermal stratification, seasonal variations in the temperature of water surface, and individual characteristics of the “biological summer” on various geographic factors are established. Elements of thermal regime are calculated for the database of ecological-geographical typification of Karelian water bodies.     

Bioindication role of higher plants in the diagnostics of aquatic ecosystems: Case study of small water bodies in St. Petersburg

The bioindication role of macropytes in the assessment of the environmental conditions of small water bodies under the conditions of a megalopolis is discussed. A comparative characteristic is given to the significance of macrophytes from different ecological groups, including hygrophytes (cattail, reed), hydrophyte (pondweed), and hydatophytes (Canada water weed, hornweed), growing in small water bodies in St. Petersburg, for the biogeochemical indication of environmental pollution by microelements (Fe, Mn, Zn, Cu, Cr, Ni, Pb, and Cd) and biogenic elements (K, Ca, Na, P, S). Possible mechanisms of detoxication of heavy metal ions in macrophyte organisms and their role in the stable functioning of water bodies in urban territory under the conditions of anthropogenic pollution are discussed. The prospects of the use of macrophyte groups for the bioindication of pollution and phytoremediation of aquatic ecosystems are analyzed.     

Lake water resources of the European part of the Russian Federation

The article gives the results of estimating lake water resources for federal districts in European Russia and constituent entities of the Federation, carried out in the Institute of Limnology, RAS, with the use of up-to-date satellite images and the program Google Earth. European Russia contains ~610000 natural water bodies >0.1 ha in area, including ~200000 lakes >1 ha in area, and 90000 water bodies of artificial origin. Lake water resources of European Russia amount to 1370 km³ of water, of which 99% are in Northwestern Federal District. Artificial water bodies contain ~250 km³ of water resources.     

Time series analysis of optical remote sensing data for the mapping of temporary surface water bodies in sub-Saharan western Africa

A map of temporary small water bodies (TSWB) at 1 km resolution was derived for the arid, semi-arid and dry sub-humid regions of sub-Saharan western Africa where the spatio-temporal distribution of actual surface water occurrence exhibits high inter- and intra-annual variability. Water bodies and humid areas have been mapped and characterized by the analysis of 10 daily small water bodies (SWB) maps based on SPOT VEGETATION (VGT) data spanning the period January 1999–September 2007. Further analysis of the SWB time series provided additional information about the seasonal recurrence of water bodies as well as their hydrological function. A map derived from a continuous time series assures the inclusion of temporary features, a clear advantage compared to other datasets, which are based on several single date observations. The method described in this paper targets at a rapid creation of TSWB maps based on the SWB time series for different time intervals and regions.An accuracy assessment has been carried out with a stratified random sampling approach and a one-stage cluster analysis that relies on high-resolution satellite data to verify the detected water bodies. The overall accuracy, considering only the commission error, is 95.4% for the whole study region, with best results in the arid and semi-arid climate zone. The method to map water bodies delivers satisfactory results, particularly for sparsely vegetated areas as well as flat areas of the study region. In more humid, more vegetated areas and in mountainous areas, the possibility of false detections increases due to surface characteristics.     

Approach to constructing a system of mathematical models in solving long-term planning problems for small-scale water bodies

A general structure of mathematical models for solving the problems of water supply, water protection, and flood and freshet control are proposed for small-scale water bodies. Various aspects of these water bodies are considered, allowing them to be identified against other water bodies.     

Geochemical classification of surface waters in humid zone based on their acid-base equilibrium

A classification of surface waters of humid zone by its humus content, alkalinity, and trophic status has been developed basing on the acid-base equilibrium of those waters, governed by two systems: humus and carbonate, which enabled the geochemical classes of water to be established more objectively than by expert systems. An integrated estimate of natural water quality is given with the use of quality points by individual characteristics. For water bodies subject to anthropogenic impact, the degree of their pollution is given in accordance with water pollution index, which is calculated by the main standardized components, taking into account their geochemical background level and the values of MAC for water bodies used for fishery.     

Die EG‐Wasserrahmenrichtlinie: Ausweisung und Bewertung künstlicher und erheblich veränderter Gewässer

Designation and Assessment of Artificial and Heavily Modified Water Bodies under the EC Water Framework Directive The EC Water Framework Directive allows the Member States to designate artificial and heavily modified water bodies under specific conditions. For those water bodies the ecological assessment and the resulting programmes of measures will be based on the “maximum ecological potential” as reference conditions and not on the “high ecological status”, which has to be used for natural water bodies. Such designation is possible only, if the hydromorphology of the water bodies concerned has been substantially changed in character to maintain specified uses. The criteria for the designation are fulfilled, if restoration measures needed to meet the high ecological status would have significant adverse effects on the uses and if no other better environmental options would exist to maintain the specified uses. In late 1999 the EC‐Working Group on Heavily Modified Water Bodies (HMWB) has been established to develop criteria for the designation of artificial and heavily modified water bodies as well as for the determination of the maximum ecological potential. The working group has produced the guidance document “Identification and Designation of Artificial and Heavily Modified Water Bodies” in November 2002, which has been agreed by the European Water Directors on 21 November 2002 in Copenhagen. The guidance document is focusing on two time borders, the provisional identification of heavily modified water bodies until 2004 and the legally binding designation as artificial and heavily modified in the first river basin management plan in 2009 at the latest. The guidance document considered the main findings of 34 case studies for rivers, lakes, transitional and coastal waters carried out in 11 European countries. The results of the case studies as well as a summarizing synthesis were used as a fundamental basis to produce the guidance document. The practical examples given by the case studies were compiled as a toolbox which supplements the guidance for the purpose of its better application.     

Coupling effects of hydrological characteristics and nutrient load in sediments on the trophic state of reservoirs

Currently,lakes and artificial reservoirs are increasingly threatened by eutrophication,which is the result of the combined action of many natural and anthropogenic factors.In the past,the effect of nutrient load on the trophic state of water bodies has attracted much attention,while few studies have addressed the effect of hydrological characteristics.Therefore,to reveal the coupling effects of hydrological characteristics and nutrient load in sediments on the trophic state of water bodies,this study collected relevant data from 36 lakes and reservoirs across China.Pearson correlation analysis showed that trophic level index was positively and significantly correlated with nutrient load in sediments and hydraulic retention time,while it was negatively correlated with mean depth and hydraulic load.The principal component analysis showed that the nutrient load was the first major component that influenced the trophic state of water bodies,followed by the mean depth and hydraulic retention time.Eutrophication was prone to occur in water bodies with mean depth less than 7 m and hydraulic retention time greater than 14 d,and the trophic level index regression equation with hydrological characteristics and nutrient load in sediments was derived by multiple regression analysis.This study revealed that the trophic state of water bodies influenced by both nutrient load and hydrological characteristics.It provides a new idea to reduce the occurrence of eutrophication in reservoirs by using the artificial hydrological regulation capacity of reservoirs.     

Phosphorus Input into Artificial Water Bodies in Kalmykia from Cattle-Breeding Farms

Water Resources - Artificial water bodies in Kalmykia, which is known to have limited water resources, have been constructed for drinking water supply to the population, cattle-breeding, and...     

Methanogenesis and organic matter destruction in bottom sediments of technogenic water bodies

Traits have been revealed in the microbial processes of methane formation and organic matter destruction in bottom sediments of technogenic water bodies, in which at the abundance of C_org compounds, including toxic, dissolved oxygen deficiency, and low redox potential, organic matter decay in sediments is mostly anaerobic with the predominance of methanogenesis and sulfate reduction. Data on major microbial processes are used to calculate the total sludge destruction; it is maximal in the sediments of low-toxicity technogenic water bodies; organic matter destruction in them is mostly due to methanogenesis; it is minimal in high-toxicity water bodies, the share of sulfate reduction in them increases, and that of methanogenesis decreases.     

太湖流域宜溧河地区水体水质状况及营养状态评价

宜溧河流域是太湖的主要集水流域,流域水体的水质状况及营养状态与太湖的水质状况与营养状态密切相关,本研究根据2000年12月14-15日以及2001年4月18-19日两次大规模的水质同步监测结果,对流域平原河网地区水体的水质状况及营养状态进行了系统综合的评价,评价结果表明：不管是平水期还是枯水期,河网水体的水质状况都较差,营养水平较高;在枯水期间,受多种因素的综合影响,水体的水质状况呈现恶化趋势,营养盐含量也有所升高。     

The Density of Bottom Sediment Particles in Water Bodies

Water Resources - The density of particles in the bottom deposits of water bodies is an important characteristic, which determines the rate of interaction between bottom water layers with the...