贵州施秉白云岩喀斯特区水化学和溶解无机碳稳定同位素特征

对贵州施秉白云岩喀斯特世界自然遗产地49个水点进行采样,分析地表水和地下水水化学特征及控制因素,并探讨溶解无机碳(DIC)稳定同位素的分布特征和来源.结果发现,研究区地表水和地下水p H值呈中性到碱性,溶解质较低,水中阳离子以Ca2+、Mg2+为主,阴离子以HCO-3为主,水化学类型为重碳酸-钙镁型(HCO3-Ca·Mg).北部上游页岩分布区外源水水中Cl-、NO-3、SO2-4的比重相对白云岩区喀斯特水水点的高,Si的含量也明显高于白云岩地区喀斯特水;外源水的SIc和SId值为负,而流经白云岩区后均大于0.水化学数据表明研究区水化学受降水和人为活动影响很小,Gibbs图显示水中离子组成主要受岩性的控制.研究区喀斯特地表水中δ13CDIC值变化范围为-8.27‰~-11.55‰,平均为-9.45‰,地下水的δ13CDIC值范围为-10.57‰~-15.59‰,平均为-12.04‰,地表水δ13CDIC值比地下水偏重.DIC的δ13CDIC值在杉木河支流上整体表现为河流上游相对于下游偏轻,而杉木河干流上河水DIC的δ13CDIC值的变化则比较复杂.根据同位素质量平衡,利用DIC的δ13CDIC实测值,计算了喀斯特区地下水DIC来自土壤CO2和白云岩矿物溶解的比例,计算结果为51.2%来自于土壤CO2,矿物本身的贡献约为48.8%.     

微藻利用不同无机碳途径的定量方法

以莱茵衣藻和蛋白核小球藻为实验材料,通过向培养液中添加两种标记δ¹³C的碳酸氢钠来培养微藻。根据获得的微藻藻体的稳定碳同位素组成,运用双同位素示踪模型,成功计算出了微藻利用不同碳源的份额。并通过添加胞外碳酸酐酶特异性抑制剂(AZ),进一步获得了微藻利用不同无机碳途径的份额。本研究建立的双同位素示踪模型是一种快速定量碳源利用途径的实用方法。     

GEOCHEMICAL INTERPRETATIONS OF GROUNDWATER FLOW SYSTEMS1

ABSTRACT. Interest in the geochemistry of groundwater is increasing owing to the great number of current projects involving underground liquid waste storage, artificial recharge of potable water, accidental contamination of groundwater bodies, sanitary landfills, and pollution monitoring. Geochemical techniques used to facilitate the understanding of a groundwater system range from extremely simple to those requiring sophisticated theories, equipment, and procedures. An interpretation of the simple trilinear diagram for samples collected from the Yucatan Peninsula of Mexico provided evidence that the fresh-water body was only a few tens of meters thick and was underlain everywhere by an extensive body of salt water. A geochemical technique that has been used effectively to identify the source of salt water in coastal aquifers is measurement of the carbon-14 concentrations. Carbon-14 has been used in a regional carbonate aquifer to determine the velocity of groundwater movement, rates of chemical reactions, and distribution of hydraulic conductivity. The application of principles of irreversible thermodynamics to groundwater systems provides a basis for constructing models which permit prediction, over both time and space, of changes in head distribution and chemical character of the water resulting from imposed stresses on the system. In essence, proper application of irreversible thermodynamics combines the potential theory of Hubbert with principles of reversible chemical thermodynamics, such as solution of carbonate minerals, to describe and explain controlling chemical reactions and processes of groundwater systems.     

DETERMINING CRITICAL WATER QUALITY CONDITIONS FOR INORGANIC NITROGEN IN DRY,SEMI‐URBANIZED WATERSHEDS1

ABSTRACT: Traditional approaches to establishing critical water quality conditions, based on statistical analysis of low flow conditions and expressed as a recurrence interval for low flow conditions (e.g., 7Q10), may be inappropriate for drier watersheds. The use of 7Q10 as a standard design flow assumes year‐round flow, but in these watersheds, 7Q10 is zero or very small. In addition, the increasing use of multiple year dynamic water quality models at daily time steps can supercede the use of steady state approaches. Many of these watersheds are also under increasing urbanization pressure, which accentuates the flashiness of runoff and the episodic nature of critical water quality conditions. To illustrate, the conditions in the Santa Clara River, California, are considered. A statistical analysis indicates that higher inorganic nitrogen concentrations correlate strongly with low flow. However, peaks in concentrations can occur during the first storms, particularly where nonpoint source contribution is significant. Critical conditions can thus occur at different flow regimes depending on the relative magnitude of flow and pollutant contributions from various sources. The use of steady state models for these dry semi‐urbanized watersheds based on 7Q10 flows is thus unlikely to accurately simulate the potential for exceeding water quality objectives. Dynamic simulation of water quality is necessary, and as the recent intense storm event sampling data indicate, the models should be formulated to consider even smaller time steps. This places increasing demand on computational resources and datasets to accurately calibrate the models at this temporal resolution.     

Water Quality Assessment of Osun River: Studies on Inorganic Nutrients

The present investigation provides data of some ions, namely Na⁺, Ca²⁺, NH₄ ⁺,Cl^-, NO₃ ^-,CN^- and PO₄ ^3- on water samples of river Osun,selected rivers in the region and groundwaters. The pH,temperature, electrical conductivity (EC), total dissolvedsolids (TDS), total hardness (TH) and total carbon (IV) oxide(TCO₂) have also been determined to asses the chemicalstatus and pollution levels of these water sources. The highervalues of certain parameters with respect to the acceptablestandard limits for drinking water indicate the pollution inboth groundwater and river water samples of the study area, and make the waters unsuitable for various applications. Thehigh pollution river water source showed higher levels ofphosphate, nitrate and ammonium ions (P < 0.05). There is nosignificant difference (P < 0.05) between the meanconcentrations of other inorganic nutrients in the high and lowpollution water source types. The correlation coefficientbetween quality parameter pairs of river water and groundwatersamples are determined and the significance of these parametersin both types of water sources are discussed.     

Deposition of Inorganic Particulate Aerosols to Vegetation - A New Method of Estimating

A new, direct method was developed for quantifying inorganic particulate aerosols trapped by the forest canopy, and for determining the resulting input of elements to a forest ecosystem. The method is based on direct measurements of only six parameters. Using this method, it is possible to determine the load of aerosols trapped by the forest canopy and deposited to leaves, as well as the load of aerosols falling to the forest floor by impaction on plants. It is also possible to estimate the aerosol input of soluble and insoluble elements to an ecosystem. With this new method it has been found that the load of aerosols trapped by the canopy of a mixed forest located in the Rybnik Coal Basin averaged 189.0 kg x ha-1 x growing season-1, or 39.3% of the total inorganic particles reaching the ecosystem. The trapped aerosols provided 13.4 kg x ha-1 of soluble nitrogen and 0.91 kg x ha-1 of insoluble nitrogen over the growing season. At the same time, the input of soluble nitrogen from the atmosphere with rainfall to an open area averaged 13.9 kg x ha-1, and the input of insoluble nitrogen with inorganic dusts averaged 1.4 kg x ha-1.     

Soil resource availability impacts microbial response to organic carbon and inorganic nitrogen inputs

Impacts of newly added organic carbon （C） and inorganic nitrogen （N） on the microbial utilization of soil organic matter are important in determining the future C balance of terrestrial ecosystems. We examined microbial responses to cellulose and ammonium nitrate additions in three soils with very different C and N availability. These soils included an organic soil（ 14.2% total organic C, with extremely high extractable N and low labile C）, a forest soi1（4.7% total organic C, with high labile C and extremely low extractable N）, and a grassland soil（1.6% total organic C, with low extractable N and labile C）. While cellulose addition alone significantly enhanced microbial respiration and biomass C and N in the organic and grassland soils, it accelerated only the microbial respiration in the highly-N limited forest soil. These results indicated that when N was not limited, C addition enhanced soil respiration by stimulating both microbial growth and their metabolic activity, New C inputs lead to elevated C release in all three soils, and the magnitude of the enhancement was higher in the organic and grassland soils than the forest soil. The addition of cellulose plus N to the forest and grassland soils initially increased the microbial biomass and respiration rates, but decreased the rates as time progressed. Compared to cellulose addition alone, cellulose plus N additions increased the total C-released in the grassland soil, but not in the forest soil. The enhancement of total C- released induced by C and N addition was less than 50% of the added-C in the forest soil after 96 d of incubation, in contrast to 87.5% and 89.0% in the organic and grassland soils. These results indicate that indigenous soil C and N availability substantially impacts the allocation of organic C for microbial biomass growth and/or respiration, potentially regulating the turnover rates of the new organic C inputs.     

几种常用无机混凝剂处理印染废水试验及评述

通过常用无机混凝剂ＰＦＳ、ＰＡＣ、ＦｅＳＯ４．７Ｈ２Ｏ及Ａｌ２（ＳＯ４）３．１８Ｈ２Ｏ处理印染废水试验，确定各自的最佳混凝处理条件。在最佳条件下，４种混凝剂对印染废水都有一定的处理效果。经成本等指标比较后，推荐ＰＦＳ为印染废水处理的适宜混凝剂。     

混凝剂在污水处理中的现状与发展

介绍了无机絮凝剂、有机絮凝剂及微生物絮凝剂在污水处理中的研究和应用情况,并分析研究发展趋势.     

泸州市城市空气自然降尘和硫酸盐化速率的探讨

本文以1992－2001年泸州市城市空气质量数据为依据，指出了该市自然降尘和硫酸盐化速率的变化规律，并对防治对策进行了探讨。