不同水生植物对富营养化水体释放气体的影响

水体反硝化脱N、温室气体排放以及O2释放过程均是水体生态系统中发生的重要生化反应过程。为了明确不同类型水生植物对这些过程的影响程度,采用自主研发的原位收集水体释放气体装置,于2012年7—8月对滇池草海中自然生长的挺水植物〔菖蒲(Acorus calamus)〕、浮叶植物〔睡莲(Nymhaea tetragona)和荷花(Nelumbo nucifera)〕、漂浮植物〔凤眼莲(Eichhornia crassipes)〕、沉水植物〔狐尾藻(Myriophyllum verticillatum)和轮叶黑藻(Hydrilla verticillata)〕及对照(无植物)区域内释放的N2、CH4、O2、CO2和N2O的规律进行研究。结果表明,各种水生植物生长区及对照区释放气体主要由N2、CH4和O2组成,其余成分主要是CO2和N2O。沉水植物通过光合作用明显促进了水域内O2释放过程,进而提高了水体释放气体的速率及各气体成分通量值。而睡莲、荷花和凤眼莲由于叶片覆盖水面的影响,降低了水体藻类的光合能力,造成该区域水体释放气体的速率中值低于对照区,且各气体成分释放通量值也较低。各区域释放气体中CH4浓度无显著差异(P0.05),菖蒲区释放的气体中N2浓度显著高于对照区(P0.05)。     

Assessing the potential of crop residue recycling in China and technology options based on a bottom-up model

Crop residues are an important biomass, and are significant in the sustainable development of China. This paper uses the Grey-Markov modeling approach, the cost-benefit analysis method, and the constraint optimiza- tion method to establish the potential of crop residue recycling in China （CRRC） using a bottom-up analysis. Taking 2010 as the baseline year, the CRRC model is used to determine the quantity trends of crop residue resources, simulating the recycling potential and selecting key crop residue recycling technologies for operation between 2010 and 2030. The results illustrate that the total residue output from different crops will gradually increase to 1062 million tons in 2030. The proportion of crop residue for field burning is expected to decrease as a result of guidance and support from the government. Market mechanisms are also improving the development of the crop residue recycling industry. The economic benefit of crop residue recycling is expected to be worth 132 billion CNY in 2030 according to technology structure options. Key crop residue recycling technologies preferred such as liquefaction, amination, silo, co-firing straw power and composting will account for more than 85% of the total benefits.     

Effects of bicarbonate and cathode potential on hydrogen production in a biocathode electrolysis cell

A biocathode with microbial catalyst in place of a noble metal was successfully developed for hydrogen evolution in a microbial electrolysis cell （MEC）. The strategy for fast biocathode cultivation was demonstrated. An exoelectrogenic reaction was initially extended with an H2-full atmosphere to enrich Ha-utilizing bacteria in a MEC bioanode. This bioanode was then inversely polarized with an applied voltage in a half-cell to enrich the hydrogen-evolving biocathode. The electrocatalytic hydrogen evolution reaction （HER） kinetics of the biocathode MEC could be enhanced by increasing the bicarbonate buffer concentration from 0.05 mol·L-1 to 0.5 mol· L-1 and/or by decreasing the cathode potential from -0.9 V to - 1.3 V vs. a saturated calomel electrode （SCE）. Within the tested potential region in this study, the HER rate of the biocathode MEC was primarily influenced by the microbial catalytic capability. In addition, increasing bicarbonate concentration enhances the electric migration rate of proton carriers. As a consequence, more mass H＋ can be released to accelerate the biocathode-catalyzed HER rate. A hydrogen production rate of 8.44 m3. m 3. d1 with a current density of 951.6 A. m-3 was obtained using the biocathode MEC under a cathode potential of - 1.3 V vs. SCE and 0.4 mol· L-1 bicarbonate. This study provided information on the optimization of hydrogen production in biocathode MEC and expanded the practical applications thereof.     

黄浦江水源地沉积物重金属潜在生态风险评价

为了解黄浦江上游饮用水源地沉积物中重金属的污染特征,对黄浦江干流和主要支流15个采样点的Hg、Cd、Pb、Cu和Zn含量进行检测,并对其生态风险进行评价.相比环境背景中位值,在15个样品中5种重金属含量都存在一定比例的超标现象,其中,Cd和Hg的污染相对明显;相比背景最大值,仅有Cu和Cd含量超标.采用潜在生态风险指数法和污染负荷指数法进行评价,所得出的生态风险等级均为无污染～中等污染水平,急水港近苏沪交界处、淀峰大桥、大蒸港沪浙交界处、大蒸港泖洋河交汇处、园泄泾以及五厍东一号河交界处区域生态风险较高,Cd和Hg是研究区域生态风险的主导因子.值得注意的是,黄浦江支流大蒸港和园泄泾的生态风险整体高于黄浦江干流.总体而言,黄浦江上游水源地表层沉积物中重金属污染仍处于中等以下水平.     

氧化沟工艺低氧同步脱氮启动研究

在常温条件下,采用小试Pasveer氧化沟处理低C/N实际污水,通过控制好氧区平均ρ(DO)为0.2～0.4 mg/L,保持好氧区与缺氧区体积比为1∶1,成功实现低氧脱氮过程。其中,模式1先接种好氧污泥并逐渐降低好氧区DO,然后接种缺氧污泥;模式2初始阶段保持低氧环境,并直接接种好氧和缺氧混合污泥。结果显示:两种方式均能成功启动低氧脱氮并保持较高的脱氮率;同时,当C/N值为1.94时,氨氮去除率较高;当C/N值为3.00时,总氮去除率较高,低氧低碳条件下脱氮效果较好。     

DNA fragmentation,apoptosis and cell cycle arrest induced by sodium arsenite in cultured murine Sertoli cells: prevention by curcumin

Arsenic is a significant environmental concern worldwide, primarily due to geo physiochemical contamination of drinking water, and a major public health hazard in both developing and developed countries. The present study was aimed to investigate ameliorative effects of curcumin (Cur) against sodium arsenite (SA)-induced toxicity in cultured murine Sertoli cells. The cells were treated with SA (5 μM) and Cur (5 μg/ml and 10 μg/ml) alone or in combination for 12 hr. The SA treatment decreased cell viability, produced oxidative stress, and induced apoptosis as reflected by reactive oxygen species (ROS) generation, loss of mitochondrial transmembrane potential, DNA fragmentation, and apoptotic cells. Moreover, the SA-induced cell cycle arrest in the cells is characterized by a rise in the number of cells in the sub G1 phase of the cell cycle. The Cur was found to be effective in reversing all these arsenic (As)-induced cellular events. Data suggest that Cur modulates As-mediated oxidative stress, apoptosis, DNA fragmentation, and cell cycle arrest through suppression of excessive ROS generation. Evidence indicates that Cur may emerge as a useful protective agent against As-induced Sertoli cells toxicity by inhibiting As-induced damage in testes.     

西安市兴庆宫公园土壤中重金属含量研究及污染评价

通过对西安市兴庆宫公园表层土壤的取样调查,分析了Cu、Zn、Cd、Cr及Pb等5种重金属的含量及形态分布特征,并对其综合污染状况及潜在生态风险进行分析与评价。结果显示,兴庆宫公园的表层土壤呈碱性,并含有较多有机质;土壤中Cu、Zn、Cd、Cr及Pb平均含量分别为29．89mg／kg、55．28mg／kg、0．169mg／kg、66．71mg／kg和43．59ms／kg;土壤中Cu、Zn、Cd、Cr及Pb化学形态均以残渣态为主;整个公园土壤内梅罗污染指数为2．29,土壤重金属综合污染已经达到中度污染;整个公园潜在生态风险指数平均值为73．89,生态风险等级为轻微。     

内循环三相生物流化床处理味精废水

利用混合异养硝化-好氧反硝化菌群在内循环三相流化床内处理实际味精废水,以火山岩为载体,考察了反应器的启动和驯化,分析了污染物进水浓度变化对处理效果影响和同步硝化反硝化效果。结果显示,经过10 d的间歇闷曝,微生物附着在载体表面,挂膜成功;经驯化可处理较高浓度的味精废水并具有较强耐冲击能力;同步好氧硝化反硝化效果良好。     

粒状铁与甲醇支持的生物-化学联用法去除富氧地下水中硝酸盐

针对富氧地下水中硝酸盐,采用粒状铁和甲醇支持的生物-化学联用法开展了批实验研究,优化了脱氮反应参数,初步探讨了脱氧脱氮的能力及途径。结果表明,该法的优化参数是粒状铁种类为GI-北京,m（粒状铁）∶m（水）为3∶800,粒状铁粒径为0.425~1.0 mm,反应时间为5 d,甲醇用量为210.59 mg.L-1。生物-化学法、粒状铁和好氧异养菌完全脱氧所需的时间分别是174、206和2 746 min。生物-化学法脱氧依赖于粒状铁化学还原和好氧异养菌有氧呼吸,并且前者起着关键作用。随着反应时间的增加,异养脱氮、自养脱氮和化学还原各自引起的NO3-去除率亦增加。当反应时间≤5 d时,自养脱氮和化学还原的去除率均〈10%,而当反应时间为5 d时,生物-化学法的NO3-去除率达到近100%。生物-化学法内存在异养脱氮、自养脱氮和化学还原3种脱氮途径,其中异养脱氮是最主要的途径,且三者存在共生、协同和促进作用。生物-化学法脱氮期间硝酸盐还原速率≥亚硝酸盐还原速率。生物-化学法去除地下水中硝酸盐是有效可行的。     

基于事故发展与控制的隐患分级方法

为使隐患管理工作更加科学,对隐患与事故的关系进行研讨,提出隐患的根本属性是能够促使事故发生或发展。通过预估促使和控制(阻碍)事故发展的因素,来揭示隐患在事故过程中的作用机制。根据发生作用的时间将隐患分为第1类隐患和第2类隐患。在风险评估过程中,解决了具体隐患风险分级的问题,提出隐患暴露频率、其他条件的可能性、隐患纠正系数、事故后果初始分值、人员防护修正系数、人员暴露修正系数、应急处理与事故控制修正系数和财产损失修正系数等评价指标。通过隐患致因事故风险的计算,评估隐患的最终风险。