Functions of Straw for In Situ Remediation of Acidic Mining Lakes

The addition of straw in combination with Carbokalk, a by-product from the sugar-industry, was successfully used to stimulate microbial alkalinity generation in an acidic mining lake. To get detailed information about functions of straw, anenclosure experiment was carried out. Straw bundles were placedat the sediment surface of an acidic mining lake (ML 111) and thephysiochemical conditions and the microbiology of the sediment-water contact zone were studied. Straw was degraded by anaerobic microorganisms and dissolved organic carbon (DOC) leached from straw bundles. Pigmented flagellates responded to the DOC supply in the water column anda considerable amount of algal carbon was transported to the sediment. Straw addition led to microbial reduction of iron andsulfate in the sediment. Sulfate reduction was observed at a pHof 5.5. The pH, however, was not high enough to precipitate H₂S completely. Thus, some H₂S diffused into the watercolumn, where it was reoxidized. Straw did not create orstabilize an anoxic water body above the sediment. Microbial sulfate reduction and pyrite formation only took place in the sediment,whereas iron reduction also took place in the straw. Straw, however, altered the flow conditions above the sediment surfaceand prevented complete mixing of the profundal water. Straw didnot serve as a substratum for a reactive biofilm. We conclude that the most important function of straw for mining lake remediation is to be a long-term nutrient source for microbialalkalinity generation in the sediment.     

Response of Drinking-water Reservoir Ecosystems to Decreased Acidic Atmospheric Deposition in SE Germany: Signs of Biological Recovery

Strongly decreasing atmospheric emissions and acidic deposition during the 1990s have initiated chemical reversal from acidification in several drinking-water reservoirs of the Erzgebirge, SE Germany. We studied responses of phytoplankton, zooplankton and fish stocks in five reservoirs and at enclosure scale after experimental neutralization of 1,200 m³ of lake water. About 4 months after this treatment, diatoms and cryptomonads replaced the predominating chrysophytes and dinoflagellates. The colonization by acid-sensitive species of green algae, cryptomonads, rotifers and Cladocera (e.g. Bosmina longirostris) is explained by the occurrence of dormant stages or by survival of individuals in very low abundances. Analogous to the enclosure experiment, three reservoirs showed significantly (p < 0.01) falling trends of chlorophyll a and phytoplankton biovolume, mainly due to the decline of dinoflagellates. Picoplankton and diatoms increased slightly in two reservoirs. The zooplankton communities were dominated by rotifers and small Cladocera. Representatives of the genus Daphnia were lacking. Two reservoirs were re-colonized by zooplanktivorous fish populations of either perch (Perca fluviatilis) or sunbleak (Leucaspius delineatus). The latter exhibited extremely high fluctuating abundance and biomass and even suffered from a population crash. This natural mortality was caused by a limited food supply. Hence, severe top-down control may delay the recovery of larger zooplankton species like daphnids. Fishery management comprising the introduction of predatory fishes can help to control zooplanktivorous fish populations and to prevent their mass mortality.     

辽东海岸带资源的新资料及意义

本文以最新调查资料为依据,在表述辽东淤泥质海岸基本轮廓的基础上,讨论了潮滩生物、土地、潮汐能等资源特征及开发潜力,并提出以潮滩横向分带性为理论依据的人工生态模式。     

潮滩生态特征及开发利用模式——以江苏大丰潮滩研究为例

根据自然地理、海洋动力、生物等特征!本文研究受大河作用的大丰潮滩地貌、沉积过程,讨论老黄河和长江对该潮滩发育的影响和潮滩生物群落空间分布及演变规律。本文评价了大丰潮滩开发利用现状,分析了它们的经济效益和环境效益,提出把目前受到强烈改造、过度利用的模式改变为顺应潮滩自然演变、有步骤合理开发利用潮滩的模式。     

简析近年噪声环境影响评价中出现的错误预测模式

分析了环评中噪声源置于厂房内预测厂区内外噪声的错误模式,指出这些模式只能计算出不反映实际声场分布的同心族圆的等声级线,对环评工作毫无意义.其根本错误在于将壳体组合结构的整体隔声能力当作其各部位的实际隔声能力,而且忽略客观实际环境、甚至无视厂房存在所致.     

芦苇与海三棱藨草中重金属的累积及季节变化

通过分析上海滨岸潮滩芦苇和海三棱藨草根系、茎叶中Cu、Pb、Fe、Mn、Zn、Cr、N的含量，发现Fe、Mn、Zn、Cu在芦苇与海三棱藨草根系、茎叶中含量较高，而Pb、Cr、N含量较低；Mn在芦苇与海三棱藨草茎叶中的含量接近或超过根系中的含量，而Fe在茎叶中的百分含量较少；聚类分析表明，Pb、Cr在芦苇和海三棱藨草体内的迁移能力非常相近，Zn、Cd、Cu也表现出类似的规律；芦苇和海三棱藨草分别在夏季和春季开始大量吸收重金属元素，之后含量降低，冬季时重金属元素在这两种潮滩植物根系和茎叶中再次出现富集。在同一采样断面，除Cr以外，其余重金属元素在海三棱藨草体内的含量明显高于芦苇。     

阿尔乡沙地围封治理效应的分析

围封治理沙地是促进沙地植被演替的有效手段，通过对阿尔乡沙地围封治理前后生态调查，对沙丘面积和分布、植被种类组成和分布等演替指标进行比较分析，进一步证明了围封治理取得的显著效应，并提出合理化建议。     

建筑砌块成型机噪声评价与治理

利用工业废弃物粉煤灰生产建筑砌块 ,有明显环境效益 ,但其生产线噪声污染严重 ,砌块成型机是主要噪声源。在噪声环境影响评价基础上 ,采取为成型机加隔声罩和在厂房内悬挂空间吸声体的方法 ,有效控制了成型机的噪声污染     

中水回用中平板膜的污染机理分析

采用间歇式生物反应器,对模拟小区生活污水的人工配水进行了生物处理;然后,在操作压力为0.1 MPa,搅拌速度为300 r/min条件下,选用膜生物反应器中常用的聚醚砜(PES,切割分子量分别为2万、1万和5千)、聚丙烯腈(PAN,切割分子量为20万)、聚偏氟乙烯(PVDF,切割分子量为20万)超滤平板膜和聚醚砜(PES,孔径为0.1μm)、聚丙烯腈(PAN,孔径为0.1μm)、聚偏氟乙烯(PVDF,孔径为0.1μm)微滤平板膜在实验室用死端超滤器上分别对活性污泥悬浮液进行了过滤并探讨了和间歇式生物反应器组合在一起用于中水回用的效果,结果表明:每种组合处理后的出水水质为COD＜50 mg/L,NH3-N＜10 mg/L,SS为0 mg/L,浊度为0 NTU,都达到了中水回用的水质标准(CJ25.1-89),其中生物反应器分别与PES超滤膜(5千、1万、2万)和PAN(20万、0.1μm)膜组合时,对COD的去除率较高,但所有组合对NH3-N、TOC去除率及膜的渗透通量都相差不大.此外,根据恒压堵塞过滤定律对膜的污染机理进行的研究证实:对于微滤膜和PAN(20万)超滤膜而言,由滤饼过滤过渡到完全(标准)堵塞,再到滤饼过滤;但对于PVDF(20万)和PES(2万)超滤膜,则由标准堵塞过渡到完全堵塞,再到滤饼过滤;PES(5千、1万)超滤膜的污染机理相对简单,整个过程以滤饼过滤为主.     

滨岸带水华堆积与消散特征及其营养盐效应

为了解滨岸带植被、地形等地貌要素对蓝藻水华堆积及消散过程的影响,在太湖滨岸带设置不同形式的围格和植被实验区,通过逐日监测水体叶绿素a（Chl-a）的消长过程及同步营养盐变化,研究夏季蓝藻水华在湖泊滨岸带堆积与消散特征和营养盐效应.结果表明,滨岸带的地形地貌及植被状况对蓝藻水华的堆积程度及消散过程影响较大,软围隔营造的滨岸带静水环境,以及不同植被所形成的不同滞水区,显著加剧了蓝藻水华的局部堆积,从岸边挺水和浮叶植被区到开敞水域对照区,蓝藻水华的堆积程度依次递减;近岸挺水和浮叶植被区蓝藻水华堆积最严重,堆积时间最早,持续时间长;蓝藻水华堆积对营养盐等水质指标影响极大,堆积严重时该区域Chl-a含量达到了457.42μg/L,总氮（TN）达到11.04mg/L,总磷（TP）达到1.32mg/L;橡胶围格内浮叶植物区藻类堆积程度与近岸区类似,而浮叶植物与沉水植物混合区藻类堆积程度低于单一浮叶植物区;水体围隔能够加剧蓝藻水华的堆积,没有围隔的浮叶植物区藻类堆积程度最低.在蓝藻水华堆积过程中,蓝藻细胞仍在继续增殖,水体Chl-a仍会明显增加,而同期的水体营养盐的增幅小于Chl-a,甚至随着藻类生长消耗及生态系统的脱氮效应,溶解态氮磷下降明显.蓝藻水华消散过程中,TN、TP与Chl-a同步下降,但藻体中的氮磷释放到水中,导致堆积区的溶解态氮、磷有所增加,显示出明显的营养盐效应.本研究定量刻画了蓝藻水华局部堆积并快速致灾的地形地貌要素特点,揭示了蓝藻水华的水质与生态效应,为科学评估富营养化水体蓝藻水华的生态灾害风险提供科学依据.