富营养化水库水生生态环境长期观测研究

分析某富营养化水库长达15年的水质和藻类观测结果,研究该水库水质及水生生态环境变化趋势,评估各类污染防治措施的治理成效。提出富营养化防治是一个长期的工作,应在科学研究的基础上,有针对性地实施控源和生态防治相结合的治理措施。     

蠡湖综合整治十年来水环境变化的研究

对蠡湖2002-2012年湖体水质、富营养化状况和浮游植物种群进行了研究.结果表明,经过十年蠡湖综合整治工程,蠡湖水环境有了显著改善.TN、TP、NH3-N、CODMn和Chl-a浓度分别下降85.2％、70.4％、96.2％、55.3％和81.6％;TLI由70.9降至52.0,水体由中度富营养好转为轻度富营养;浮游植物种群结构有所演变,近二年种群结构呈现明显季节性差异,夏季蓝藻中的微囊藻成优势种,约占整个水体藻类密度的90％以上.蠡湖水质显著改善的同时,藻类水华情况未得到本质好转,在适宜的水文气象条件下易发生藻类水华.建议提高水体透明度,增加水体流动性,为进一步改善蠡湖水环境,乃至改善湖河小流域水环境起积极作用.     

河北省近岸海域氮磷变化及其影响因素分析

根据2011-2018年河北省近岸海域海水、入海河流、降水中氮和磷的监测数据,分析了海水中氮和磷的变化趋势及其影响因素.结果 表明:2011-2018年,河北省近岸海域海水中无机氮(DIN)和无机磷(DIP)的平均浓度均低于第二类海水水质标准,海域富营养化状况以贫营养和轻度富营养为主,超标(第二类海水水质标准限值)点位...     

Using Bacterial Growth on Insects to Assess Nutrient Impacts in Streams

A combination field and laboratorystudy was conducted to evaluate the ability of arecently developed bioindicator to detect detrimentalnutrient conditions in streams. The method utilizesbacterial growth on aquatic insects to determinenutrient impacts. Field investigations indicated thatelevated concentrations of nitrate and phosphate wereassociated with growth of filamentous bacteria oninsect body surfaces, and that there was a significantreduction in the density of major insect taxa in thenutrient-enriched stream reaches. Laboratoryinvestigations confirmed a strong linkage betweenbacterial growth and reduced survival of insects. Survival was examined for insects with bacterialinfestation ranging from 0% to greater than 50%coverage of the body surface. A threshold forcatastrophic mortality occurred at about 25% bodycoverage; there were few survivors above that amount. Based on these findings, the diagnostic endpoint forthe bioindicator is 25% body coverage by bacterialgrowth, a level that signifies major impacts and isalso easy to detect visually. This study providesadditional evidence that the insect-bacteriabioindicator is a reliable tool for assessing nutrientimpacts on stream macroinvertebrate communities. Thebioindicator should prove useful for identifyingnutrient-impacted sites as well as monitoring thesuccess of management actions to improve water quality.     

钦州湾枯水期富营养化评价及其近5年变化趋势

利用近5年枯水期现场调查的结果,采用富营养化指数法对该海湾富营养化程度进行评价并探求其变化趋势。结果表明近5年钦州湾枯水期富营养化指数的变化为0.08~10.2,其空间分布表现为沿着盐度梯度从茅岭江或钦江河口往外富营养化逐渐减轻。从2006年到2010年钦州湾富营养化从贫营养化往中度和重富营养化程度发展,富营养化显逐渐加重的趋势,在近两年河口区达到了重富营养化程度。陆源径流污染源的输入是富营养化空间分布的主要决定因素,而近5年富营养化逐渐加重的趋势主要是由不断增加的磷酸盐导致。海湾富营养化程度的增加并没有引起浮游植物生物量的急剧增加,但却增加了赤潮等生态灾害的风险。     

水芹浮床对NO-x-N类富营养水体的连续小试净化

利用连续小试装置研究了12.0～18.7℃水温下水芹浮床对NO-xN类富营养水体的连续处理效果。试验结果表明,在HRT从3～1d的过程中,CODCr平均去除率分别为(14.0±2.4)%和(46.0±4.0)%,TN平均去除率分别为(34.6±5.8)%和(65.3±5.4)%,TP平均去除率分别为(8.4±1.6)%和(10.7±2.1)%。随着CODCr、TN负荷的增加,CODCr与TN去除率均呈上升趋势。运用经验公式较好地模拟了HRT=1d时,CODCr和TN沿程浓度与距离的关系。     

富营养化浅水湖泊稳态转换理论与生态恢复探讨

从清水稳态与浊水稳态转换的过程、稳态阈值、稳态恢复力等方面介绍了浅水湖泊的稳态转换理论,总结了浊水稳态与清水稳态恢复力的影响因素,以及清水稳态与浊水稳态相互转换的驱动力,分析了富营养化引起的植物群落演替和稳态转换的过程.根据稳态转换理论和太湖五里湖的生态恢复实践,提出以改善生境条件为稳态转换驱动力进行生态恢复,并阐述了降低营养盐浓度、提高水体透明度、清除某些鱼类、改善基底、调节水位、软围隔消浪等生境改善措施.      

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.     

溪洛渡水电工程拦沙对三峡水库富营养化潜在影响的初步研究

从泥沙吸附的角度,探讨金沙江溪洛渡水电站拦沙对三峡水库溶解性磷负荷的影响。2006年11月在金沙江、长江干流和支流岷江、沱江采集了淤积泥沙和水样,测定了泥沙的全磷、有效磷和磷固定量及水的溶解性磷等指标。岷江和沱江泥沙的有效磷含量远高于金沙江和长江干流,反映了四川盆地支流的磷污染较干流严重;干流泥沙的有效磷含量向下游呈增加和磷固定量向下游呈减少的趋势,反映了干流泥沙沿途不断吸附四川盆地支流汇入干流中的溶解性磷,磷固定能力有所降低。根据金沙江宜宾与长江朱沱泥沙的有效磷含量和磷固定量,金沙江来沙年吸附溶解性磷分别为382和6 885 t,分别相当于朱沱站的26%和468％。溪洛渡水库拦蓄泥沙,金沙江来沙吸附长江干流溶解性磷的量将有所减少。水库投入运行后的前50年,以有效磷含量计,金沙江来沙的磷吸附量占朱沱年溶解性磷总量的比例从26%降至10%;以磷固定量计,从468％降至174%。长江干流进入三峡水库的年溶解性磷总量有可能增加16%～294%。金沙江来沙降低三峡入库磷负荷的实际功能,可能介于有效磷含量和磷固定量的计算值之间,具体值还需开展进一步的试验研究。     

酶联免疫快速检测技术在太湖流域微囊藻毒素污染调查中的应用研究

采用酶联免疫(ELISA)法对2008年5～11月环太湖水域及太湖下游嘉兴河网水体中微囊藻毒素(MC)的污染状况进行了调查.结果表明,ELISA法对环太湖水样的加标回收率为(98.0±6.5)%,相对标准偏差≤10.0%,准确性和再现性均良好,且具有通量高、检测速度快的特点,适于太湖流域MC污染的普查和初筛.环太湖水样中的MC-LR在2008年8、10月较高;太湖下游嘉兴河网水样中的MC-LR自2008年7月开始有检出,最高质量浓度出现在9月,为0.772μg/L;各饮用水源地水样中的MC-LR亦有检出,但未超过<地表水环境质量标准>(GB 3838-2002)规定的限值(1.0μg/L).