呼伦湖自净功能及其在区域环境保护中的作用分析

在大量详实资料和调查基础上,论述了呼伦湖富营养化状况,找出了该湖富营养化的影响因素,以及其较强自净功能的成因。呼伦湖地处内陆区高纬度、半干旱气候地区,属牧业污染型,氮入湖量主要来源于点源污染(河流的输入),磷入湖量面源(主要是降尘)大于点源。经多年观测发现,氮和磷的变化并不明显,反映出湖体有较强的自净功能,这是和湖体特殊的地理位置分不开的:①该湖系构造湖与河流沟通的吞吐湖,面积大,水较深,使得湖体自净功能显著;②地处高纬度、半干旱地区,气温低,对湖体浮游生物有一定的抑制作用;③湖体构造特殊,露出30余个泉点,有大量地下水的补给。呼伦湖是一个较大的水体与其周围湿地构成的淡水湖泊生态系统,在维持生物多样性和丰富的生物资源方面发挥巨大作用,且有明显的调蓄洪水的功能,在区域环境保护中具有特殊的地位。     

绿地再生水灌溉土壤微生物量碳及酶活性效应研究

再生水灌溉引起了土壤理化性质的变化,其对土壤生物活性的影响备受关注.以再生水利用较典型的北京为研究区,分层采集了不同再生水灌溉历史的城区公园绿地与城郊农田表层土壤样品,测定并分析了一些常规理化指标、土壤微生物量碳及5种土壤酶（脲酶、碱性磷酸酶、蔗糖酶、脱氢酶和过氧化氢酶）活性,探讨长期再生水灌溉下土壤微生物量碳和酶活性的变化.结果表明,再生水灌溉下公园绿地土壤微生物量碳和酶活性均高于其自来水对照灌区,农田上升不明显.与对照相比,公园绿地与农田再生水灌区0～20 cm土层土壤微生物量碳平均含量分别上升了60.1%和14.2%,公园绿地再生水灌区0～20 cm土层中土壤酶活性平均增幅为36.7%,而农田为7.4%.调查区土壤微生物量碳及酶活性均随土壤深度的增加而降低,其中公园绿地0～10 cm与10～20 cm土层间差异极显著.因此,北京地区城市绿地使用再生水长期灌溉有助于提高土壤生物活性.     

中国内陆流域地表水体光电化学特征研究

太阳辐射是自然界中最主要的能量来源.目前人们对自然界利用太阳能途径的认识主要集中于具有生物光采集系统(如叶绿体)的光合作用,而对于非生物光采集系统是否广泛存在于地表水体中仍不清楚.本研究通过测定全国范围内151个地表水样光生电子的能力,绘制了中国内陆流域地表水体光电化学特征图谱.通过利用XPS、XRD和EEM等手段表征水样悬浮态和溶解态物质组成,揭示了地表水体光电化学活性来源及其影响因素.结果显示,我国地表水体普遍存在光电化学活性.按生物质换算,我国地表水体光生电子每年可转化生物质当量约为1.4×10³～1.1×10⁴万t葡萄糖,相当于光合作用固碳总量的0.51%～4.02%.地表水体的光电流大小与光强和光敏物质浓度呈正相关,相关系数分别达到0.99和0.99.水体的光电化学活性主要来源于悬浮态物质,其贡献度大于60%,与含Ti或含S的半导体矿物丰度呈正相关;而溶解态物质贡献较小(<40%),其光电化学成分主要为溶解性有机质,并与腐殖酸类或富里酸类物质浓度呈正相关.本研究为自然界微生物光电能营养作用的发生提供线索,同时也为量化自然地表水...     

中国主要城市土壤重金属累积特征与风险评价

我国快速城市化过程可能会导致重金属在城市土壤中累积,威胁居民健康.通过收集和整理最近15年间发表的文献数据,从整体上分析了我国52个主要城市土壤重金属含量特征及其健康风险.结果表明,我国城市土壤平均ω(Pb)、ω(Cd)、ω(Cu)和 ω(Zn)分别为:58.5、0.49、42.1 和 156.3 mg·kg-1,其I...     

新型饮用水除氟材料Bio-F的除氟特性和比较研究

对3种传统除氟剂活性氧化铝、骨炭和改性沸石与自制的新型生物除氟剂Bio-F的除氟性能及影响因素（材料粒径、pH值、吸附时间、水样含氟浓度、其它离子、再生能力等）进行了比较,并模拟动态实验评估了这4种除氟材料对实际高氟地下水处理的效果.结果表明,Bio-F生物除氟剂对F^-的吸附过程符合Lagergren一级吸附动力学特征（R²=0.958 0）,吸附速率较快,且该过程属于吸热反应; Bio-F吸附F^-符合Langmuir吸附等温模型（R²=0.999 2）,吸附容量高,静态吸附容量可达4.088 3 mg·g^-1,分别约是活性氧化铝和改性沸石的1.8和 5.8倍.4种除氟材料吸附容量与氟浓度正相关,与吸附剂粒径负相关.高浓度的CO^2-₃、HCO^-₃明显抑制Bio-F的除氟（p<0.05）,但高浓度的Ca²⁺、NO^-₃、HPO^2-₄有利于Bio-F的除氟（p<0.001）.Bio-F除氟最佳停留时间3～4 min,远远低于沸石20 min和活性氧化铝11 min.在pH 4.0～9.0范围内Bio-F可保持90％以上吸附F^-的能力.再生性能稳定,10次再生后吸附容量变化不超过15%.Bio-F综合性能优于其它3种传统除氟剂,在我国广大农村地区推广有显著优越性.     

基于形态与in vitro方法的铬污染土壤生物可给性研究

铬（Cr）是电镀类场地的主要污染物.开展土壤中Cr（III）和Cr（VI）的生物可给性研究对于准确评估Cr污染场地风险,克服污染场地过度修复问题十分关键.本研究采集我国栗钙土、红壤、潮土3种典型土壤,通过添加相同浓度污染物的方式制备成Cr（III）或Cr（VI）污染土壤.随后利用5种体外方法（in vitro）,对3种土壤经口摄入的Cr生物可给性进行比较与健康风险评估.进而从土壤理化性质、Cr赋存形态、土壤矿物组成方面,对不同土壤在溶解度生物可给性研究联盟（SBRC）方法中的生物可给性差异进行分析.结果表明,基于生物可给性的Cr污染土壤健康风险评估能够显著降低风险水平,提高风险控制值,其中,SBRC方法在评估中更具有保守性.3种土壤在相同的Cr（III）和Cr（VI）污染浓度下,栗钙土相较于红壤和潮土在肠期具有更高的生物可给性和健康风险.此外,土壤黏粒、有机质含量及迁移系数能够影响土壤Cr的生物可给性,土壤矿物种类赋存不同也是造成Cr（III）和Cr（VI）在不同土壤中生物可给性差异的重要因素.     

Influence of eutrophication on the coagulation efficiency in reservoir water

Water from the three reservoirs, Min-ter, Li-yu-ten and Yun-ho-shen, was examined for concentration of chlorophyll a, ultraviolet absorption (UV(254)), fluorescence intensity (FI), concentration of dissolved organic carbon (DOC), and fractionation of dissolved molecules by molecular weight. The water samples were collected over the change from spring to summer (May to July but before the typhoon season) when the water temperature and extent of eutrophication increase. Analytical results indicate that the concentration of DOC is proportional to the concentration of chlorophyll a, but not to the values of UV(254) and FI. Therefore, eutrophication, extraneous contaminants of small molecules, and the extracellular products of algae cause an increase in DOC, but a decrease in the proportion of large organic molecules such as of humic substances. The fraction of DOC with a molecular weight of less than 5000 Da increases with the concentration of chlorophyll a. All these data suggest that changes in the quality of water after eutrophication make the treatment of drinking water more difficult. The method of enhanced coagulation was recently developed for removing DOC. However, the results of this paper demonstrate that the efficiency of DOC removal falls as the degree of eutrophication increases. When the percentage of DOC with small molecules excreted by algae increased by 1%, the efficiency of DOC removal decreased by approximately 1%, implying that enhanced coagulation are not able to remove the DOC excreted by the algae during eutrophication, and resulting an increased concentration of trihalomethanes formation in water disinfections process.     

Changes in the grassland-forest boundary at Ta-Ta-Chia long term ecological research (LTER) site detected by stable isotope ratios of soil organic matter

The carbon isotope analysis [delta13C values] of organic samples can be a useful research in ecological studies because delta13C values are indicative of the plant source. This study investigated the changes in plant communities along the grassland-forest boundary in the alpine forest at Ta-Ta-Chia long term ecological research (LTER) site in central Taiwan using carbon isotope data. The aim of this study was focused on the forest fire affected the change of vegetation community. Four pedons from grassland dominated by Miscanthus transmorrisonensis (pedons 1 and 2), transition zone by Tsuga and Yushania nittakeyamensis (pedon 3), and forest zone by Tsuga and nittakeyamensis (pedon 4) were examined. Soil organic matter (SOM) delta13C values in the upper soil horizon were similar to delta13C values of the overlaying vegetation types. This indicates that the boundary between these plant communities remained the same in the past decades. The delta13C values of the grassland SOM ranged from -19.4 per thousand to -24.1 per thousand, showing decrease with soil depth. This suggests that C4 plants (transmorrisonensis) have replaced C3 plants of Tsuga and nittakeyamensis. The delta13C values of the Tsuga forest area (pedon 4) range from -27.0 per thousand to -23.5 per thousand and showed only slight change with soil depth, implying that C3 plants have remained the major species in the forest.     

医疗废物中有机质的热解动力学研究

在空气气氛下,对医疗废物中几种有代表性的有机质进行非等温热解实验。分析实验结果发现,热解失重曲线与N2气氛下不同,出现多个DTG峰。利用Freeman Carroll法求出了各有机质的表观动力学参数,并建立了能较好反映各物料失重过程的表观多步反应动力学模型。针对混合物料无法直接求出表观动力学参数,建立了多组分反应动力学模型。