森林土地利用变化及其对碳循环的影响

由于人口剧增，人类活动的影响不断加大，在过去100年全球土地利用／土地覆被发生了巨大的变化。最常见的土地利用变化是由森林转变为农业用地。森林砍伐使森林生态系统地上部生物量大大减少，砍伐后作农业用地，降低了植被生产力，减少了土壤有机质的输入，增强了腐殖质的矿化作用，有机质分解速率增加，有机碳贮量随之降低，从而影响到森林生态系统的碳循环，使大量碳元素释放到大气中，引起温室效应，导致全球变暖。另一个常见的土地利用变化是植树造林和森林恢复，这一过程可以增加森林生态系统的碳储量，从而减缓大气CO2体积分数的上升。     

Fecundity as a Basis for Risk Assessment of Nonindigenous Freshwater Molluscs

Abstract:  The most efficient way to reduce future damages from nonindigenous species is to prevent the introduction of harmful species. Although ecologists have long sought to predict the identity of such species, recent methodological advances promise success where previous attempts failed. We applied recently developed risk assessment approaches to nonindigenous freshwater molluscs at two geographic scales: the Laurentian Great Lakes basin and the 48 contiguous states of the United States. We used data on natural history and biogeography to discriminate between established freshwater molluscs that are benign and those that constitute nuisances (i.e., cause environmental and/or economic damage). Two statistical techniques, logistic regression and categorical tree analysis, showed that nuisance status was positively associated with fecundity. Other aspects of natural history and biogeography did not significantly affect likelihood of becoming a nuisance. We then used the derived statistical models to predict the chance that 15 mollusc species not yet in natural ecosystems would cause damage if they become established. We also tested whether time since establishment is related to the likelihood that nonindigenous mollusc species in the Great Lakes and United States would cause negative impacts. No significant relationship was evident at the U.S. scale, but recently established molluscs within the Great Lakes were more likely to cause negative impacts. This may reflect changing environmental conditions, changing patterns of trade, or may be an indication of "invasional meltdown." Our quantitative analyses could be extended to other taxa and ecosystems and offer a number of improvements over the qualitative risk assessments currently used by U.S. (and other) government agencies.     

Extinction Rate Estimates for Plant Populations in Revisitation Studies: Importance of Detectability

Abstract:  Many researchers have obtained extinction-rate estimates for plant populations by comparing historical and current records of occurrence. A population that is no longer found is assumed to have gone extinct. Extinction can then be related to characteristics of these populations, such as habitat type, size, or species, to test ideas about what factors may affect extinction. Such studies neglect the fact that a population may be overlooked, however, which may bias estimates of extinction rates upward. In addition, if populations are unequally detectable across groups to be compared, such as habitat type or population size, comparisons become distorted to an unknown degree. To illustrate the problem, I simulated two data sets, assuming a constant extinction rate, in which populations occurred in different habitats or habitats of different size and these factors affected their detectability. The conventional analysis implicitly assumed that detectability equalled 1 and used logistic regression to estimate extinction rates. It wrongly identified habitat and population size as factors affecting extinction risk. In contrast, with capture-recapture methods, unbiased estimates of extinction rates were recovered. I argue that capture-recapture methods should be considered more often in estimations of demographic parameters in plant populations and communities.     

长江口湿地资源生物的可持续利用

长江口湿地是我国一块重要的滨海湿地,蕴含了丰富的自然资源,这些自然资源为当地乃至更广领域的经济发展都作出了重要的贡献。本文主要探讨该湿地生态系统中六种具有代表性资源生物的利用现状。这六种资源生物是中华绒螯蟹苗、日本鳗鲡苗、缢蛏、河蚬、芦苇和海三棱草。它们在维持河口生态系统的稳定性和连续性上具有其他许多生物所不可替代的作用。目前由于种种原因,这些资源的持续发展已受到了一定的威胁,造成它们资源现存量下降的主要原因是过度捕捞、受污严重及围垦滩涂等一些因素。如何正确利用和保护这些资源已是一项急待解决的问题,针对这些问题为可持续利用它们提出了一些相应的对策和建议。     

含油污泥无害化处理及综合利用的途径

原油脱水以及油田和炼油厂的污水处理系统会排出大量的含油污泥,从环境保护角度出发,必须进行无害化处理或综合利用。处理含油污泥的方法很多,有固化处理法、土地耕作法、回收污油法、固液分离处理及综合利用等方法。较为详细地叙述了各种方法的原理、特点及适用情况等,这些方法各有利弊。今后还应进一步加强含油污泥性质与特征的基础性研究,积极寻求多种利用途径,彻底解决含油污泥污染问题     

淹没式曝气生物滤池脱氮除磷工艺的运行调试

根据昆山市中华园城市污水站的实际调试经验，探讨了曝气生物滤池工艺对进水浓度、混凝预处理、尾气预曝气、DO、反冲洗周期和强度等工艺参数的不断调整和控制，并总结出较佳的运行参数，具有一定的实际运行指导作用。     

臭氧—活性炭组合工艺对饮用水中AOC的去除

研究了以O3/GAC为主的饮用水深度处理工艺对AOC去除效果 ,结果表明 :原水 (某江水 )AOC浓度为 6 1 9μg乙酸碳 /L ;生物陶粒滤池对AOC的去除率为 54% ;O3 +GAC对AOC的去除率为 83.8% ;加氯消毒后AOC浓度增加 1 .38倍 ;常规水处理工艺对AOC的去除率为 4 3.7% ,不能保证饮用水的生物稳定性     

微污染水源水生物处理中硝酸盐氮的变化

通过中试系统和大型工程 ,探讨了微污染水源水生物处理工艺中硝酸盐氮的变化规律。研究表明 ,微污染水源水生物处理工艺中硝酸盐氮的增加是氨氮生物硝化的结果 ;处理系统启动中硝酸盐氮变化率的变化反映了两类硝化细菌在生长速率和转化能力上的协调关系以及生物膜的成熟过程 ,启动结束时硝酸盐氮变化率趋于 1.0 0 ;稳定运行阶段各工况下处理系统硝酸盐氮变化率均在 1.0 0附近 ;水源水中少量的有机氮和亚硝酸盐氮对氨氮硝化过程无明显影响。硝酸盐氮变化率是描述微污染水源水生物处理系统氨氮硝化状况的重要参数。     

复合螯合剂/活性碳分离富集和ICP—AES同时测定水样中痕量元素

本文提出将复合螯合剂（NaDDTC／8—Oxin）饱和吸附于活性碳上作为吸附材料．分离富集和ICP—AES同时测定水中痕量金属元素的方法。用ICP—AES研究了该吸附材料对某些痕量元素的吸附和解吸性能；考察了共存元素的影响。方法应用于湖水中Fe、Cu、Mn、Y和Sc的测定，检出限为ng／ml级，RSD为1．9％～4．4％，加入回收率81％～101％间，试样分析结果满意。     

活性炭水处理技术应用

本文综述了活性炭水处理的特点，主要影响因素，活性炭的再生及活性炭吸附法在水处理中的应用，从而论证了活性炭吸附法应用于水处理的可行性和有效性。