海南岛吊罗山植物群落特征和物种多样性分析

根据吊罗山自然保护区不同海拔6个植物群落的样方资料,分析了吊罗山植物群落结构特征和物种多样性,同时比较了吊罗山植物群落与邻近地区植物群落的组成特征。研究结果表明吊罗山低地雨林乔木层以蝴蝶树、青梅、高山榕、粘木、长脐红豆、海南柿、肉实树和海南木莲为主,灌木层以白颜树、白茶、柏拉木和九节为主;山地雨林以陆均松、鸡毛松、黄叶树、阿丁枫、扫把青冈和海南杨桐为优势种;山顶常绿矮林则以山地常绿阔叶林陆均松、琼崖柯、岭南青冈和油丹等种类的矮化为特征。植物群落Shannon-Wiener物种多样性指数分析表明,吊罗山植物群落物种多样性在空间的变化基本上表现为随海拔梯度增加而降低,次生林物种多样性最低,山地雨林和山顶矮林物种均匀度指数最高,群落优势种明显。     

基于叶绿素荧光成像技术的藻毒性检测法的建立及在环境监测中的应用

应用新型大面积调制叶绿素荧光成像系统(Maxi-Imaging-PAM),以蛋白核小球藻作为指示生物,以典型的光合作用抑制剂敌草隆和莠灭净为测试物质,建立了微孔板式藻毒性检测方法,确定了实验参数对结果的影响,并将该方法应用于检测石油废水的藻毒性.结果表明,最适实验条件为:藻细胞的暴露浓度在3.45×10~6～5.28×10~6 cell·mL~(-1)范围内,暴露时间为2 h时,毒性检测最灵敏,获得的敌草隆和莠灭净的半最大效应浓度(EC_(50))分别为(4.33±0.38)μg·L~(-1)和(3.87±0.27)μg·L~(-1).将该方法成功应用于某石油废水的藻毒性检测,确定其EC_(50)值为1.03%±0.07%(稀释百分数),相当于414.96μg·L~(-1)的敌草隆的毒性.本研究建立的微孔板式藻毒性检测方法具有灵敏度高、所需样品量少、可大批量测试等优点,对毒理学发展具有重要意义.     

Fenton试剂与骨架构建体复合调理剂对污泥脱水性能的影响

将Fenton试剂与骨架构建体联用作为复合调理剂开展了污泥调理及脱水试验.结果表明,赤泥与水泥作骨架构建体调理后,污泥脱水性能和脱水液pH均优于石灰与水泥调理污泥.以污泥比阻(SRF)为评价指标,开展了Fenton反应时间、初始pH及调理剂投加量对污泥脱水性能影响的单因素试验.当Fenton反应时间为90 min,初始pH为5,水泥、赤泥、Fe²⁺和H₂O₂的投加量(以污泥干固体质量计)分别为300、300、40和32 mg·g^-1时,污泥比阻降低率可达94.25%±0.21%.在此基础上,以泥饼含水率为响应指标,利用表面响应法对调理剂投加量进行优化.结果表明,水泥、赤泥、Fe²⁺和H₂O₂的投加量分别为287、287、46和37 mg·g^-1,泥饼含水率可降至47.7%±0.8%.调理后污泥的粒径减小,比表面积增大,粘度减小,Zeta电位由负变正,说明该复合调理剂能有效地破解胞外聚合物(EPS),提高污泥脱水性能.     

中国气溶胶光学厚度时空演变特征分析

利用2005-2012年MODIS气溶胶产品分析了中国区域气溶胶光学厚度(aerosol optical depth,AOD)的变化趋势和空间分布特征。分析结果表明,与2005-2007三年均值相比,绝大部分省份2008-2010年期间AOD下降趋势非常明显,而在2011-2012年期间AOD又有所回升,但大部分地区2011-2012两年均值仍低于2005-2007三年均值,因此2005-2007年是我国气溶胶污染最严重的时期;从AOD的空间分布来看,气溶胶污染较重的地区主要集中在京津冀、长三角、华中、成渝等人口密集和工业发达地区;从典型城市AOD变化趋势来看,2005-2012年期间北京、石家庄、保定、邢台市AOD历年均值均明显高于全国平均值,京津冀城市群气溶胶污染异常严重。     

Developing China's roadmap for air quality improvement: A review on technology development and future prospects

Air pollution control policies in China have been experiencing profound changes, highlighting a strategic transformation from total pollutant emission control to air quality improvement, along with the shifting targets starting from acid rain and NO_x emissions to PM_2.5 pollution, and then the emerging O₃ challenges. The marvelous achievements have been made with the dramatic decrease of SO₂ emission and fundamental improvement of PM_2.5 concentration. Despite these achievements, China has proposed Beautiful China target through 2035 and the goal of 2030 carbon peak and 2060 carbon neutrality, which impose stricter requirements on air quality and synergistic mitigation with Greenhouse Gas (GHG) emissions. Against this background, an integrated multi-objective and multi-benefit roadmap is required to provide decision support for China's long-term air quality improvement strategy. This paper systematically reviews the technical system for developing the air quality improvement roadmap, which was integrated from the research output of China's National Key R&D Program for Research on Atmospheric Pollution Factors and Control Technologies (hereafter Special NKP), covering mid- and long-term air quality target setting techniques, quantitative analysis techniques for emission reduction targets corresponding to air quality targets, and pathway optimization techniques for realizing reduction targets. The experience and lessons derived from the reviews have implications for the reformation of China's air quality improvement roadmap in facing challenges of synergistic mitigation of PM_2.5 and O₃, and the coupling with climate change mitigation.     

Assessing the fractionation and bioavailability of heavy metals in soil–rice system and the associated health risk

Environmental Geochemistry and Health - This study developed a method to build relationships between chemical fractionations of heavy metals in soils and their accumulations in rice and estimate...     

啶虫脒在甘蓝和土壤中的残留消解动态研究

采用田间试验及气相色谱检测方法,研究了啶虫脒在甘蓝(Brassica oleracea L.var.capitata L.)和土壤中的残留消解动态.结果表明,啶虫脒在甘蓝和土壤中消解较快.在甘蓝中半衰期为1.4～1.6 d,药后3d消解90%以上;在土壤中的半衰期为1.8～1.9 d,药后7 d消解90%以上.3%啶虫脒可湿性粉剂,45、22.5 g·hm-2,施药2次,药后3、5、7 d苹果和土壤中残留量均小于2 mg·kg-1.     

鄱阳湖湿地土壤酶及微生物生物量的剖面分布特征

为探明淡水沼泽湿地土壤微生物功能活性随土壤剖面深度的变化,以鄱阳湖区内典型的苔草湿地土壤为研究对象,选择剖面深度为1 m共5层(0~20、>20~40、>40~60、>60~80、>80~100 cm)的土壤,对土壤酶[Bglu(β-葡萄糖苷酶)、NAG(乙酰氨基葡萄糖苷酶)、Bxyl(β-木糖苷酶)、Phos(酸性磷酸酶)、Phox(酚氧化酶)、Pero(过氧化物酶)]活性、w(MBC)(微生物生物量碳含量)和w(MBN)(微生物生物量氮含量)及土壤理化性质进行研究.结果表明,代表微生物功能活性的土壤酶和w(MBC)、w(MBN)均随着剖面深度的增加而逐渐降低,表层(0~20 cm)土壤中的酶活性和w(MBC)、w(MBN)均显著高于深层土壤.值得注意的是,不同土壤酶活性随着剖面深度的变化规律不一,但总体酶活性在土壤深度为>40~60 cm时达到稳定,并且仍都具有较高活性;表层土壤中w(MBC)为65.58~161.90 mg/kg,w(MBN)为7.39~16.28 mg/kg,二者占所研究剖面土壤总微生物碳氮含量的51%~69%.进一步的相关性分析发现,土壤微生物功能特性与有机质AFDM(去灰分干重)、w(TOC)、w(TN)、含水量及pH存在显著的相关性,其中土壤w(TOC)、w(TN)是影响鄱阳湖湿地土壤微生物数量和活性的最主要因素.研究显示,土壤深度对湿地土壤微生物功能特性及土壤性质具有显著影响,表层土壤中微生物功能活性最高,但湿地深层土壤中仍存在大量的微生物,由微生物参与的代谢活动仍然活跃,深层土壤微生物功能特性不容忽视.      

Economic Valuation of Health Impact of PM10 Pollution in Beijing from 2001 to 2006

Abstract

In light of the practical need for research to inform policy in Beijing, this study evaluates the economic cost of the impact of PM₁₀ pollution in Beijing from 2001 to 2006, taking health as the main impact, and mortality as the main outcome. Based on the literature review, this study adopts relatively conservative parameters as the basis for calculating the health impacts. It concludes that nearly 30% of mortality among registered residents above age 30 in Beijing can be attributed to PM₁₀ pollution, and that the economic cost equals 0.8%–1.2% of the city’s GDP over the same period. This is lower than the results of previous studies, but still high enough to warrant a commitment to solve the city’s air pollution problem.