无锡太湖水源地藻类爆发应急管理与处置体系研究

本文通过对太湖蓝藻爆发事件的分析,揭示了我国水源地藻类爆发应急管理和处置体系存在预警、预案机制不完善,监测机制与预警机制脱节,公众信息系统不健全、公开透明程度欠缺等不足,并设计出一套水源地藻类爆发应急处理体系,包括监测检测、应急处理、长效治理和管理体系,以应对该类事件的再次发生。     

强化井喷失控应急救援队伍建设的思考

针对应急救援队伍在处置油气田勘探开发井喷失控方面的重要作用,文章围绕井喷失控应急救援队伍建设展开分析和论述,阐述应急救援队伍建设的必要性。分析了应急救援队伍建设存在的问题与不足,主要有相关的应急处置预案不完善,应急保障措施不全面、应急救援队伍能力不足,缺乏专业培训且演练流于形式等。在应对井喷失控方面,提出应急救援队伍建设的有效方法和举措,包括加强井喷失控应急救援体系的建设,加强投入、保障应急队伍专业化、安全化,加强井控培训管理体系建设,加强井喷失控专家团队建设,加强井喷失控应急处置团队建设,加强井喷失控应急实战演练等。     

利用植物化感作用抑藻的研究进展

利用植物化感作用抑制藻类具有生态安全和灵敏高效等优点,对水体富营养化的生态控制具有极其重要的意义。本文研究了利用植物化感作用抑藻的进展,从化感物质对藻细胞光合作用、酶活性、细胞膜、细胞超微结构、基因表达的影响方面探究了植物化感抑藻作用的机理。并分别就水生植物和陆生植物中提取的各类化感抑藻物质的抑藻效果进行分析比较,尤其探讨了木本植物抑藻的潜在价值,为开发新的抑藻剂提供理论指导。本文还针对目前的研究现状,提出植物抑藻领域存在的问题及前景展望。     

溢油应急综合研究进展

从溢油应急管理体系、溢油应急物资、溢油应急处置技术、溢油综合评估、溢油预测预警和应急决策支持系统等方面,系统梳理了国内外海上溢油应急处置的研究现状,并对溢油应急管理作出展望。提出未来我国应在溢油风险防控、溢油综合应急平台、溢油应急处置和溢油生物修复等方面加强管理和技术研发工作,不断提升我国溢油应急综合能力。     

基于环境地理信息平台的预警系统的构建

随着经济的高速发展,环境污染事故也呈现出上升的势头,环境污染事故不仅造成了环境危害,而且对人民群众的安全产生了重大威胁。鉴于环境污染事故的多发性、危害性,应急处置显然非常重要,而构建强大的应急处置信息系统有助于应急处置和分析决策的顺利进行。本文分析了环境应急处置需求,提出了建立环境污染应急管理信息系统的设计框架。     

浅谈突发溢油事件应急处置技术及装置的应用

概述了海洋溢油应急处置的技术方法,分析了溢油应急处置装置设备的应用特点,为海洋溢油应急处置工作提供理论依据。     

吐哈油田环境污染事件应急监测布点实践

应急监测在环境污染事件处置程序中有着非常重要的作用,而应急监测布点又是应急监测的关键环节,对监测结果的准确性、代表性起着关键作用。文章结合吐哈油田环境污染方面可能产生的事件,针对坎儿井、地下水、土壤和大气因素污染事件研究监测布点方式,确定布点的原则、监测的范围、监测点的位置和数量,为采样分析、准确评定污染现状提供技术支持,为油田进一步制定处置措施奠定基础。     

植物化感作用及其在农业生产中的应用

植物化感作用是植物间传递信息的一种方式,植物体产生生物活性物质能在生物体之间传递信息并导致生物体相互作用,这种作用包括促进和抑制作用。植物化感作用是一个崭新的研究领域。本文介绍了植物化感作用的概念、化感物质的种类、释放途径和作用机制,着重介绍了植物之间、植物与昆虫之间的化感作用,论述了植物化感作用在农业生产中的应用途径和应用前景。     

北京市污水处理厂污泥处理处置的概况及问题

介绍了北京市污水处理厂污泥处理处置历史和规划编制情况。北京市中心城区经历了堆肥、热干化、石灰干化、水泥窑协同焚烧、热水解+厌氧消化等技术路线选择过程,周边区县采用以堆肥为主的处理技术路线,处置方式均以土地利用为主。提出对上述处理处置技术路线的建议:1)土地利用方式符合北京地区实际情况但应关注相关标准的完善;2)厌氧消化系统运行稳定性、安全性和无害化程度应加以关注;3)区县污泥堆肥设施可采用车间化运营模式;4)应设置应急设施。提出如果土地利用作为最终处置方式得到认可,根据"处置决定处理"的原则,对于上游处理技术应给于全面评估,以确定最佳可行处理技术方案。     

溢油污染处置技术现状分析

大规模的海洋溢油常常导致非常严重的环境污染事件和生态灾难,溢油事故应急是世界应急技术领域面临的重大技术难题。文章通过引用典型事故案例和国内事故概况说明了溢油事故的巨大风险及其危害,分析油品入水、扩散、漂移以及着陆四个不同事故演化阶段的污染特征,系统梳理溢油事故应急的物理、化学和生物处置方法,并通过对比各类方法的适用范围和优缺点,总结当前溢油应急处置技术、应急能力以及环境适应性等方面存在的不足,提出加强溢油应急处置能力应该在提高应急装备能力、开发新技术产品、建立全球联动机制等方面加强努力。     

ALGAE IN THE SPOON RIVER,ILLINOIS 1971–19721

ABSTRACT: As a part of a water quality survey of the Spoon River, Illinois, algal genera were identified and their densities were enumerated. Weekly samples were collected at five stations starting on June 1, 1971. This report presents the first year's results. Algal densities for each station were found to be distributed geometrically normal. Total algal densities increased as water progressed downstream. Although water temperature has been observed to be an important factor affecting the density and the composition of algae in streams, attempts to correlate algal densities with temperatures for the Spoon River were not fruitful. Correlations of algal densities with dissolved oxygen, flow, and coliform densities also could not be made. The dominant genera observed were Cyclotella, Navicula, Scenedesmus, and Euglena. On the average diatoms accounted for 87% of all algae counts. The average diversity indices varied about 1.0 to 1.5 for five stations. There did not appear to be any advantage in the use of diversity index over that of algal density and genera richness in characterizing algae in the Spoon River.     

高效藻类塘磷酸盐去除机理研究

从磷酸盐化学沉淀和藻类吸收两个方面探讨了高效藻类塘中磷酸盐的去除机理。首先通过化学沉淀及其解析解释了高效藻类塘中pH与磷酸盐浓度昼夜变化规律；其次测定了pH=7．5时藻类对磷酸盐的日均吸收速率；最后对高效藻类塘中磷酸盐浓度的变化规律进行了总结。     

CuSO4 treatment of nuisance algal blooms in drinking water reservoirs

Since the turn of the century, copper sulfate has been used extensively as an algicide to control nuisance algal blooms in drinking water reservoirs Recent experimental results have shown that the toxicity of copper to algae is determined by the activity of ionic copper, and not the total copper concentration The sensitivity of algae to ionic copper has been found to vary considerably for different algal species Chemical processes such as precipitation, complexation by dissolved organic substances, and adsorption by suspended material can be important in controlling the chemical speciation of copper added to drinking water reservoirs The copper sulfate dosage required for effective treatment of a reservoir is shown to depend on water chemistry and the copper sensitivity of nuisance algal species By evaluating copper chemistry and copper sensitivity of nuisance algal species it may be possible to obtain effective treatment with lower copper sulfate dosages in some reservoirs     

SIDE EFFECTS OF 58 YEARS OF COPPER SULFATE TREATMENT OF THE FAIRMONT LAKES,MINNESOTA1

The shallow Fairmont Lakes in southern Minnesota have been treated with copper sulfate for 58 years to reduce excessive algal growth. Copper sulfate was applied to five lakes at cumulative rates upo to 1647 kg/ha (1470 1b/acre), totaling 1.5 million kilograms. Data collected since treatment of the Fairmont Lakes began in 1921 provide alarming insights into lake responses to sustained chemical treatment with copper sulfate. Short-term and long-term effects have occurred. Short-term effects include: a) the intended temporary killing of algae, b) dissolved oxygen depletion by decomposition of dead algae, c) accelerated phosphorus recycling from the lake bed and recovery of the algal population within 7 to 21 days, and d) occasional fish kills due to oxygen depletion or copper toxicity or both. Long-term effects are shown to include: a) copper accumulation in the sediments, b) tolerance adjustments of certain species of algae to higher copper sulfate dosages, c) shift of species from green to blue-green algae and from game fish to rough fish, d) disappearance of macrophytes, and e) reductions in benthic macroinvertebrates. The conclusion is that while copper sulfate treatments enjoy great popularity because they kill and remove algae almost instantaneously, other immediate or cumulative side effects can be harmful to many other aquatic organisms.     

Autoclaving soil samples affects algal-available phosphorus

Unwanted microbial interference in samples used for biological assays of P availability has routinely been eliminated by autoclaving samples before inoculation with algae. Twenty-three soils were selected to evaluate the relationship between algal growth in P-deficient solutions containing small quantities of soil and the level of P determined by a variety of tests used to evaluate P availability in soils and sediments. Soils were either autoclaved or not before addition to flasks containing P-starved algae in a nutrient solution without P. Compared to non-autoclaved samples, autoclaving soil resulted in approximately 60% more available P as estimated by increased algal growth. However, algal growth in the presence of autoclaved soil was highly correlated with growth in the presence of non-autoclaved samples. There was no consistent change in the correlations (r) between autoclaving or non-autoclaving samples in the relationships of algal numbers with P extracted by a number of soil tests. The effect of autoclaving soil on soluble P was also evaluated for a subset of six soils. Autoclaved soils had significantly greater concentrations of soluble P than non-autoclaved soils, with 78% more orthophosphate monoesters, 60% more orthophosphate diesters, and 54% more soluble inorganic P. Inhibition of algal growth may have occurred with two high-Zn soils that produced relatively low numbers of algae despite being very high in estimated available P by all extraction methods. Removing those samples from the calculations dramatically improved correlations between soil P measured by various methods and algal growth. With these two soils removed from calculations, algal growth with autoclaved soil was most highly correlated with Olsen P (r = 0.95), with other correlations as follows: Fe-oxide strip (r = 0.80), Mehlich 3 (r = 0.75,), modified Morgan (r = 0.61), and Bray-Kurtz 1 (r = 0.57).     

Nutrient Bioassays of Growth Parameters for Algae in the North Bosque River of Central Texas1

Abstract: Nutrient dose‐response bioassays were conducted using water from three sites along the North Bosque River. These bioassays provided support data for refinement of the Soil and Water Assessment Tool (SWAT) model used in the development of two phosphorus TMDLs for the North Bosque River. Test organisms were native phytoplanktonic algae and stock cultured Pseudokirchneriella subcapitata (Korshikov) Hindak. Growth was measured daily by in vivo fluorescence. Algal growth parameters for maximum growth (μ_max) and half‐saturation constants for nitrogen (K_N) or phosphorus (K_P) were determined by fitting maximum growth rates associated with each dose level to a Monod growth rate function. Growth parameters of native algae were compared between locations and to growth parameters of P. subcapitata and literature values. No significant differences in half‐saturation constants were indicated within nutrient treatment for site or algal type. Geometric mean K_N was 32 μg/l and for K_P 7 μg/l. A significant difference was detected in maximum growth rates between algae types but not between sites or nutrient treatments. Mean μ_max was 1.5/day for native algae and 1.2/day for stock algae. These results indicate that watershed‐specific maximum growth rates may need to be considered when modeling algal growth dynamics with regard to nutrients.     

秦皇岛近海有害藻华发生特征及防治对策研究简

秦皇岛近海有害藻华主要由微型及微微型藻类引起,产生的主要原因为水体营养盐,其发生时间主要集中在5～9月。结合秦皇岛地域特色,提出有害藻华的防控及应急治理需从政策、法律、机制、预案及方法等几个方面着手,建立科学的预防体系及有效的应急体系。     

Algal cultures with effluents from biological treatment of urban wastewaters by anaerobiosis

Experiments have been carried out on cultures of native algae of Andalucía (Spain) with effluents from the biological treatment of urban wastewaters by anaerobiosis, using continuous and discontinuous systems.The influence of different hydraulic retention times of the wastewater on the algal cultures has been determined: on the level of algal biomass reached, and on the degree of purification achieved, measured from the evolution of various quality parameters.     

Benthic Algal (Periphyton) Growth Rates in Response to Nitrogen and Phosphorus: Parameter Estimation for Water Quality Models

Nitrogen (N) and phosphorus (P) are significant pollutants that can stimulate nuisance blooms of algae. Water quality models (e.g., Water Quality Simulation Program, CE‐QUAL‐R1, CE‐QUAL‐ICM, QUAL2k) are valuable and widely used management tools for algal accrual due to excess nutrients in the presence of other limiting factors. These models utilize the Monod and Droop equations to associate algal growth rate with dissolved nutrient concentration and intracellular nutrient content. Having accurate parameter values is essential to model performance; however, published values for model parameterization are limited, particularly for benthic (periphyton) algae. We conducted a 10‐day mesocosm experiment and measured diatom‐dominated periphyton biomass accrual through time as chlorophyll a (chl a) and ash‐free dry mass (AFDM) in response to additions of N (range 5–11,995 µg nitrate as nitrogen [NO₃‐N]/L) and P (range 0.89–59.51 µg soluble reactive phosphorus/L). Resulting half‐saturation coefficients and growth rates are similar to other published values, but minimum nutrient quotas are higher than those previously reported. Saturation concentration for N ranged from 150 to 2,450 µg NO₃‐N/L based on chl a and from 8.5 to 60 µg NO₃‐N/L when based on AFDM. Similarly, the saturation concentration for P ranged from 12 to 29 µg‐P/L based on chl a, and from 2.5 to 6.1 µg‐P/L based on AFDM. These saturation concentrations provide an upper limit for streams where diatom growth can be expected to respond to nutrient levels and a benchmark for reducing nutrient concentrations to a point where benthic algal growth will be limited.