卷 43, 编号 4 (2016)

Data collected in 2005–2009 are analyzed to study the main features of hydrological processes in the main part of the Amur estuary—the Amur Liman. Data on the morphological structure of the liman and the surge and tidal phenomena are analyzed. The variability of salinity field in different phases of river hydrological cycle is studied. Wind currents are shown to have an appreciable effect on the water exchange and river runoff distribution between the seas of Japan and Okhotsk in the ice-free season. In summer, the Amur runoff enters the Sea of Okhotsk. The main features of the structure of liman water in summer are identified. The northern part of the estuary is freshened by river runoff and partially mixed; it has a two-layer structure. A salt wedge forms at the northern exit from the liman into the Sea of Okhotsk, and strong water stratification is observed there.

This study assesses the development issues of Palakpakin Lake. Premised on the scarcity of development studies on lakes (as the field is dominated by limnology and aquaculture studies) and small-lake studies (as the field is heavily concentrated on big-lake studies), the article argues that the lake has long been wanting of development initiatives from its administrative agencies. It further contends that the Laguna Lake Development Authority and the City Government of San Pablo must now act to promote development of the lake; specifically, by modifying their model-template approach, by formulating a zoning-development plan, and by fostering ecotourism. These basic actions are necessary in managing, developing and conserving the natural resource, as well as in preparing, informing and precipitating other actions on the lake.

The phenomenon of an increase in tidal wave height in cone-shaped estuaries is studied. The effect of estuary narrowing in the direction of tidal wave propagation (the hydrodynamic effect of confusor) is among the factors amplifying the tide. An opposite effect of turbulent friction, whose manifestation increases with decreasing bay’s depth, conversely, reduces tide amplitude because of the dissipation of tidal wave energy. Stokes diffusion layer also plays a significant role in the formation of wave transformation regime. In an estuary with a median depth, which is much greater than the Stokes layer thickness, the confusor effect is stronger and tide amplitude increases at estuary head. At depths lesser than Stokes layer thickness, the turbulent friction dominates over the confusor effect and the amplitude of tidal wave decreases at the head of the estuary. The depths of the order of Stokes layer thickness cause an interesting intermediate phenomenon—at the entrance into the estuary, first the effect of friction manifests itself, resulting in a decrease in the amplitude of tidal wave, but later, the effect of confusor starts dominating, and the amplitude of tidal wave again increases toward estuary head. When the period of tidal wave coincides with seiche period, a resonance enhancement of seiche oscillations takes place in the estuary.

A problem of convective cooling of both freshwater and saltwater lake is formulated. A transient one-dimensional turbulent model with variable layer depth is proposed to describe the process of freezing. The dependence of layer depth on time is determined by a universal equation describing the propagation of Deardorff convective layer. A combination of the main form of equations of Kolmogorov–Obukhov theory and available experimental data is shown to allow the construction of a universal profile of turbulent exchange coefficient, depending on the height.

Experiments were carried out to simulate the transformations of anaerobic freshwater chemistry at aeration. Quantitative characteristics of the passage from dissolved into suspended state in the course of aeration were obtained for Fe, Mn, Co, Ni, Cu, Zn, Cd, Ag, Rb, Cs, Sr, Ba, Be, Al, Ga, Cr, Ti, Zr, U, La, Ce, Pr, Nd, Sm, Eu, Gd, Dy, Ho, Er, Tm, Yb, Lu, B, V, Ge, As, Mo, and W. The decrease in the concentration of dissolved forms was found to be maximal for Fe and Mn, reaching 0.03 and 0.2 mg/L, respectively; these values correspond to the solubility of newly-precipitated oxihydrates of those elements. Among other elements, a high degree of removal is typical of elements-hydrolysates (Cr, Zr, Al, Ga, Be, Ti, and the majority of rare-earth elements), some heavy metals (Zn, Ag, Cd, and Co), and W.

In the process of methane oxidation by nitrite ion, the latter, when in high concentration, inhibits the oxidation process. The effect of inhibition is incorporated in the proposed model, describing the dynamics of anaerobic oxidation of methane and its heavy fractions δ¹³CH₄ and δC²H¹H₃ by nitrite ion. Two substrates—methane and nitrite—are considered in a modified Monod function, describing the oxidation rate. The model is calibrated against experimental data given in [8]. The dynamic behavior of the system under a deficiency of methane or nitrite ion is described. The dynamics of δ¹³CH₄ and δC²H¹H₃ are shown to be governed by the oxidation dynamics of total methane CH₄. By contrast to the conventional opinion that Rayleigh equation corresponds to 1st-order kinetics in terms of substrate concentration, this study shows that Rayleigh equation can be derived from dynamic equations for methane with heavy isotopes (¹³C and ²H), whatever the kinetic type of total methane oxidation.

The spatial and temporal variations of algae within a large drinking water reservoir with mesotrophy (Panjiakou Reservoir, Northern China) were investigated in relation to variations in environmental factors over a 6-month period (May to October) in 2013 and 2014. The analysis based on in-situ samples upstream to downstream (Puhekou, Jiajia’an, Yanziyu Panjiakou and Baqian) showed that three harmful algae species of Cyanophyta, Chlorophyta and Bacillariophyta prevail in the reservoir. The variations in algal concentrations presented a seasonal cycle with high values in the flood season and low values in the drought season and a spatial concentration in main water storage area of the reservoir. Compared with the environmental factors of pH value, permanganate index, ammonia nitrogen and total nitrogen, water temperature, dissolved oxygen content and total phosphorus were significant related to algae concentrations with correlation coefficients of 0.76, 0.62 and 0.85, respectively. The impact analysis of three factors on prevailing algae species indicated that Chlorophyta was the main contributor to the algal photosynthesis of the Panjiakou Reservoir. An extremely high value of algal concentrations with little variety in August 2013 revealed that pollution carried by tremendous runoff may induce algae blooms later.

This study highlights the physicochemical compositions of different water sources available at Matahara Plain and evaluates their suitability for irrigation purpose. Various surfaceand ground-water samples were collected and then analysed for important major physicochemical quality parameters (pH, EC, cations and anions) following standard procedures. Other chemical indices were derived from the measured quality parameters. The quality rating for each water type was evaluated against the recommended threshold level for irrigation. Each water sources were rated for irrigation suitability following standard Food and Agriculture Organization (FAO) guidelines and others. Overall, the findings emphasize the need to avoid the use of poor quality water for irrigation.

The number of international agreements on transboundary water bodies and streams was found to increase rapidly in the late XX and early XXI century. The institutional and regulatory conditions required for solving the problems of international rivers and lakes are discussed. A system of governmental bodies in Russia, dealing with the use and protection of transboundary water bodies and streams is described. The international cooperation of Russia in the management of transboundary water bodies and streams is shown.

Communities are at threat because of the potential severe consequences of private dam failure. Such threat exists due to inadequate land use planning and safety assurance policy for water storage and downstream developments which must be integrated if lives and public and private property are to be saved. This paper aims to explore the interrelated policy, responsibility, cost-sharing and engineering issues associated with farm dam safety to mitigate failure threats to both existing and future downstream developments. Key insights into the design of best-practice integrated land use planning and safety assurance policy are provided based on (1) review of practice in Australia and internationally, underpinned by relevant theoretical principles, and (2) development of a cost-effective flood safety review/design tool to help policy-makers address cost sharing issues. The novel guidance and tool developed can help jurisdictions world-wide address the threats associated with farm dams and both existing and future land developments.