不同面源强度影响下城市河流溶解性有机质光谱特征变化

采用紫外-可见吸收光谱（UV-vis）和三维荧光光谱结合平行因子法（EEMs-PARAFAC）研究两条面源输入强度不同的城市河流春夏两季水体中溶解性有机质（DOM）含量和组成变化.结果表明,两条河流夏季水体DOM腐殖化程度和相对分子质量均显著高于春季（P<0.01）. PARAFAC模型共解析出C1（UVC类富里酸）、 C2（类色氨酸）、 C3（类胡敏酸）和C4（UVA类富里酸）这4个化学组分,C1[（31±6）%]和C2[（31±4）%]为水体DOM中主要荧光组分.高面源输入水平的河流春季各组分荧光强度均低于夏季,而低面源输入水平的河流与之相反.随机森林回归模型表明,C3%对河流水质变化敏感度最高（R²=0.75,P<0.001）,具有很好的指示作用;水面覆盖率（Cover）对C4%有显著预测重要性（P<0.001）, C4%易受光化学氧化作用影响.主成分分析（PCA）和Adonis检验表明,氮和磷为水体自生源过程的重要推动力,面源输入强度和季节变化对城市河流水体状况有显著影响（R²=0.775,P<0.001）.城...     

晋中盆地主要城市冬季PM2.5传输特征分析

对2017～2019年晋中盆地主要城市PM₁₀和PM_2.5逐时浓度资料进行了分析,给出了晋中市和太原市颗粒物浓度主要分布特征;此外利用PM_2.5逐时浓度资料,结合HYSPLIT后向轨迹模型,通过轨迹密度分析（TDA）、轨迹停留时间分析（RTA）和潜在源贡献因子分析（PSCF）,并对PM_2.5逐时浓度资料和对应时刻风向数据进行分析,探讨了晋中盆地主要城市冬季PM_2.5传输特征.结果表明,太原市颗粒物浓度整体水平高于晋中市,月、季变化特征类似,均呈现冬季高,夏季低的特征,最高值出现在1月.晋中市受静稳型天气形势引起的颗粒物污染较受沙尘型天气形势导致的颗粒物污染相较太原市更普遍一些;颗粒物的分布呈现出晋中市中间值较多,太原市高值偏多、低值偏少的特点,冬季为晋中盆地PM_2.5污染高发季节.晋中盆地主要城市冬季PM_2.5传输通道均可分为4类：第一类通道沿太行山横谷传输,第二类通道为偏东南方向传输通道,第一、二类均为近距离传输通道,气团会携带较多...     

太湖沉积物好氧细菌空间分布与氮磷来源及风险

沉积物中氮磷释放到湖水中会加剧湖泊的富营养化,危害生态安全和人类健康.微生物在氮磷转换中不可或缺,准确分析沉积物中氮磷分布特征和来源以及与微生物的关系是湖泊富营养化管控的重要前提.以太湖为研究区,采集30个表层沉积物样品,测定并分析了粒度、pH、有机质（OM）、溶解性有机碳（DOC）、全磷（TP）、全氮（TN）、硝态氮（NO₃^--N）和溶解性有机氮（DON）等指标含量及空间分布特征,同时利用营养琼脂（NA）培养基以平板计数法测定好氧细菌（AB）数量.结合主成分分析（PCA）和Pearson相关分析探究了太湖沉积物和AB空间分布特征和来源.采用综合污染指数法和有机污染指数法研究了太湖沉积物污染特征.结果表明,太湖表层沉积物指标平均值如下：AB为9.25×10⁴ CFU ·g^-1,平均粒径（M_Z）为17.59 μm,pH为7.62,ω（OM）为15.05g ·kg^-1,ω（DOC）为71.60mg ·kg^-1,ω（TP）为598.13mg ·kg^-1,ω（TN）为1113.92 mg ·kg^-1,ω（NO₃^--N）为3.22mg ·kg^-1,ω（DON）为22.60mg ·kg^-1.综合污染指数（FF）显示太湖中的点位13%为中度污染,87%为重度污染.TN除在湖心区、南部湖区和东太湖西部的部分湖区为轻度污染外,其余区域为中重度污染.除竺山湾为重度污染外,太湖中TP整体上为轻中度污染.有机污染指数（OI）表明,太湖沉积物有机污染较轻,主要与有机氮（ON）污染有关.太湖中DOC、DON、TN和OM主要来源于水生植物的影响,TP和AB主要来源于河流外源输入的影响.研究将为湖泊富营养化治理提供理论支撑,也为进一步研究AB去除沉积物中氮磷污染提供新思路.     

聚己内酯与聚羟基丁酸戊酸酯的脱氮性能对比

以可生物降解聚合物聚己内酯(PCL)和聚羟基丁酸戊酸酯(PHBV)作为反硝化缓释碳源和微生物载体,利用清水释碳和批式反硝化试验选出适用于再生水反硝化深度脱氮生物滤池的可生物降解碳源滤料,通过比较与分析碳源滤料的表面形态及物质特性和附着微生物的群落特征揭示其性能优越的原因.结果表明,PHBV反硝化启动时间短,反硝化速率高,剩余有机物浓度低,相比PCL具有更稳定持续的反硝化效果.原因是其表面粗糙,且含有大量C—O和CO等亲水性基团,易于微生物附着和降解利用;其表面附着的微生物种类多样,其中发硫菌属(Thiothrix)、假单胞属(Pseudomonas)、菌胶团属(Zoogloea)、黄杆菌属(Flavobacterium)和脱氯菌属(Dechloromonas)等优势菌属均具有异养反硝化功能.因此,PHBV更适合作为再生水反硝化深度脱氮生物滤池的碳源滤料.     

基于风险预控的煤矿安全管理长效机制构建

根据风险预控原理,指出煤矿企业应当正确区分隐患和危险源,遵循危险源辨识-监测-控制的基本思路,建立了煤矿风险预控的流程,并界定了危险源辨识、危险源监测和危险源控制的内容。在风险预控理论的基础上,从制度保证和体制支撑两个方面设计了煤矿安全管理的长效机制。分析认为：为保障煤矿的长治久安,应从理顺安全管理体制,落实安全责任制度;实施危险源闭环管理;加强安全培训,实施安全管理人员准入制度;健全安全考核制度,实行奖惩激励四个方面加强安全管理。     

两种水源的水质及其混凝效果对比

针对一年中长江原水和黄浦江原水的水质情况,进行了两种原水几种水质指标的对比分析,混凝沉淀后两种原水氨氮和CODMn的达标情况对比,以及不同水温对于两大原水浊度、氨氮和CODMn混凝效果的影响。结果表明,黄浦江原水的浊度、氨氮和CODMn一般比长江原水高,pH比长江原水低,经过混凝沉淀处理后长江原水氨氮和CODMn的达标率比黄浦江原水高,两种原水的浊度、氨氮和CODMn的去除率随水温的升高有增大的趋势,若两种原水进行混合,为保证其处理后水质达标,则黄浦江和长江原水的配比最好不能超过2∶8。     

山区乡镇湖库型水源保护与经济发展模式研究

在促进山区乡镇经济发展的同时,如何保护好大型湖库水源地是当地政府部门十分关注的问题.在对广东省万绿湖、湖南省东江湖和四川省升钟湖案例研究的基础上,提出保护水源以分级控制为主、经济发展以生态旅游为主、人口流动以有序迁移为主的发展保护模式.同时,以引导性发展为区域先行,环境保护规划、人口流动规划和地区经济发展规划的同时编制、同时实施、同时评估.该模式可为我国受到湖库型饮用水源大面积保护区范围影响下的山区乡镇环境经济协调发展提供一条合适的道路.     

Economic and Ecological Rules for Water Quality Trading1

Horan, Richard D. and James S. Shortle, 2011. Economic and Ecological Rules for Water Quality Trading. Journal of the American Water Resources Association (JAWRA) 47(1):59‐69. DOI: 10.1111/j.1752‐1688.2010.00463.x Abstract: Emissions trading in textbook form uses markets to achieve pollution targets cost‐efficiently. This result is accomplished in markets that regulators can implement without knowing pollution abatement costs. The theoretical promise of emissions trading, along with real‐world success stories from air emissions trading, has led to initiatives to use trading for water pollution control. Yet, trading, particularly when it involves nonpoint sources of pollution, requires significant departures from the textbook concept. This paper explores how features of water quality problems affect the design of markets for water pollution control relative to textbook emissions markets. Three fundamental design tasks that regulators must address for pollution trading to achieve an environmental goal at low cost are examined: (1) defining the point and nonpoint commodities to be traded, (2) defining rules governing commodity exchange, and (3) setting caps on the commodity supplies so as to achieve an environmental target. We show that the way in which these tasks are optimally addressed for water quality markets differs significantly from the textbook model and its real‐world analogs. We also show that the fundamental appeal of emissions trading is lost in the case of realistic water quality markets, as market designs that reduce the costs of achieving water quality goals may no longer be implementable without the regulatory authority having information on abatement costs.     

Hydrologic and Phosphorus Export Behavior of Small Streams in Commercial Poultry‐Pasture Watersheds1

Romeis, J. Joshua, C. Rhett Jackson, L. Mark Risse, Andrew N. Sharpley, and David E. Radcliffe, 2011. Hydrologic and Phosphorus Export Behavior of Small Streams in Commercial Poultry‐Pasture Watersheds. Journal of the American Water Resources Association (JAWRA) 1‐19. DOI: 10.1111/j.1752‐1688.2011.00521.x Abstract: Few watershed‐scale studies have evaluated phosphorus export in streamflow from commercial poultry‐pasture operations. Continuous streamflow and mixed‐frequency water quality datasets were collected from nine commercial poultry‐pasture (AG) and three forested (FORS) headwater streams (2.4‐44 ha) in the upper Etowah River basin of Georgia to estimate total P (TP) loads and examine variability of hydrologic response and water quality of storm and nonstorm‐flow regimes. Data collection duration ranged from 18 to 22 months, and approximately 1,600 water quality samples were collected. Significant (p < 0.1) inverse relationships were detected between peak flow response variables and both drainage area and fraction of forest cover. Order‐of‐magnitude differences in TP and dissolved reactive P (DRP) concentration were observed between AG and FORS sites and among AG sites. TP yields of FORS sites ranged from 0.01 to 0.1 kg P/ha. Yields of AG sites ranged from 0.031 to 3.17 kg P/ha (median = 0.354 kg P/ha). With 95% confidence intervals, AG yields ranged from 0.025 to 13.1 kg P/ha. These small‐watershed‐scale yields were similar to field‐scale yields measured in other studies in other regions. TP yields were significantly related to area‐weighted Mehlich‐1 soil test P concentrations (p = 0.0073) and base‐flow water sample P concentrations (p ≤ 0.0005). Water quality sampling during base‐flow conditions may be a useful screening tool for P risk‐based management programs.     

Nutrient Loadings to Streams of the Continental United States from Municipal and Industrial Effluent1

Maupin, Molly A. and Tamara Ivahnenko, 2011. Nutrient Loadings to Streams of the Continental United States From Municipal and Industrial Effluent. Journal of the American Water Resources Association (JAWRA) 47(5):950‐964. DOI: 10.1111/j.1752‐1688.2011.00576.x Abstract: Data from the United States Environmental Protection Agency Permit Compliance System national database were used to calculate annual total nitrogen (TN) and total phosphorus (TP) loads to surface waters from municipal and industrial facilities in six major regions of the United States for 1992, 1997, and 2002. Concentration and effluent flow data were examined for approximately 118,250 facilities in 45 states and the District of Columbia. Inconsistent and incomplete discharge locations, effluent flows, and effluent nutrient concentrations limited the use of these data for calculating nutrient loads. More concentrations were reported for major facilities, those discharging more than 1 million gallons per day, than for minor facilities, and more concentrations were reported for TP than for TN. Analytical methods to check and improve the quality of the Permit Compliance System data were used. Annual loads were calculated using “typical pollutant concentrations” to supplement missing concentrations based on the type and size of facilities. Annual nutrient loads for over 26,600 facilities were calculated for at least one of the three years. Sewage systems represented 74% of all TN loads and 58% of all TP loads. This work represents an initial set of data to develop a comprehensive and consistent national database of point‐source nutrient loads. These loads can be used to inform a wide range of water‐quality management, watershed modeling, and research efforts at multiple scales.