两种方法测定固定污染源废气中铅的对比研究

以石英纤维滤筒采样,采用硝酸-氢氟酸消解体系,建立了火焰原子吸收光谱法和电感耦合等离子体原子发射光谱法测定固定污染源废气中铅的分析方法。分别对两种方法的波长选择、干扰因素、标准曲线、检出限、准确度和精密度等方面进行了对比研究,并对两种方法的测定结果进行t检验。结果表明,两种方法无显著性差异,均可用于固定污染源废气中铅的含量测定。     

深部咸水层超临界CO2灌注毛细压力对盐沉淀的影响

以江汉盆地江陵凹陷高盐度卤水层为例,采用数值模拟的方法研究了超临界CO2灌注到深部咸水层中毛细压力对盐沉淀的影响及其机理。结果表明:低毛细压力作用下,岩盐固体饱和度与盐度存在着显著的线性关系,高毛细压力作用下,盐度不再是控制岩盐沉淀量的主导因素,即便是较低的盐度也会造成盐沉淀的严重积累,直至完全堵塞孔喉;通过液体流速曲线分段解析,发现较高的毛细压力虽会提高滞留咸水量,但持续的咸水回流对注入性严重受损起着致命作用;另外,盐沉淀还受到注入速率的控制,随CO2注入速率的增加而降低,因此以较高的速率注入CO2可有效缓解盐沉淀的影响。     

江汉平原土地资源诅咒效应研究

将资源诅咒的研究领域由传统的矿产资源转向土地资源研究问题域,以近10a江汉平原18个县(市)的统计数据为依据,运用诅咒系数对其进行资源诅咒的实证分析。结果显示,近年来发展滞后的荆州市所辖的监利县、江陵县以及其他7个县市的土地资源诅咒系数大于1,确实存在资源诅咒现象,且江陵县与监利县还属于严重诅咒区。通过对选取指标作进一步的计算分析,得出导致其产生资源诅咒的原因主要为:以土地资源为依托的农业没有得到高效发展,而受到发展观念与投入等束缚,其二、三产业发展同样滞后。根据影响资源诅咒地区产业发展的具体因素,有针对性地给出化解土地资源诅咒的对策建议,为今后资源诅咒地区打破诅咒束缚,持续快速发展指明方向。     

Towards a new climate economics:research areas and prospects

International cooperation to address climate change now stands at a crossroads.With a new international regime for emissions reduction established by the Durban Platform, "New Climate Economics(NCE)" has become a research hotspot.The need for urgent action to combat climate change has prompted discussion on reforms of economic growth patterns and the energy system.The industrial civilization,therefore,now faces a transition towards a new pathway for ecological sustainability.NCE explores new economic concepts,theories,and analytical methods to design a balanced pathway for sustainable growth and emission reduction.Instead of getting trapped in discussions on allocation of emission reduction responsibilities and obligations among countries,NCE pays more attention to developing win-win multilateral cooperation mechanisms that facilitate collaborative RD and knowledge sharing.In addition,NCE studies incentives for low-carbon transition,turning carbon emission reduction into a domestic need for countries to increase their international competitiveness.To achieve the 2°C target,most countries around the world face challenges of insufficient emission allowances to cover expected emissions associated with their projected economic growth.As carbon emissions rights becomes an increasingly scarce resource,increasing the carbon productivity of the economy turns to be the critical path to address the dilemma of green or growth.NCE studies the historical evolution of carbon productivity for countries at different development stages as well as ways to enhance such carbon productivity.This type of study provides invaluable lessons for emerging economies to reach their own emission peaks without losing the momentum of growth.Replacing fossil fuels with new and renewable energy has proven to be an inevitable choice for reshaping the energy system and addressing climate change- it has already become a global trend.NCE studies incentives for new energy technology innovation and deployment provided by carbon pricing,and sheds light on the co-benefits of climate change mitigation,such as resource conservation,environmental protection,and energy security.The role of carbon pricing in promoting intemational RD cooperation and technical transfer will also be studied.The shift in consumption patterns is another key factor enabling a low-carbon transformation.Therefore,NCE also explores the theoretical work on new values of wealth,welfare and consumption,new lifestyles in the context of ecological civilization,concepts and implementation of low-carbon urban planning in developing countries,and the impacts of consumption pattern changes on social development,material production,and urban infrastructure construction.     

Energy and economic impacts of an international multi-regional carbon market

The establishment of a global multi-regional carbon market is considered to be a cost effective approach to facilitate global emission abatement and has been widely concerned.The ongoing planned linkage between the European Union’s carbon market and a new emission trading system in Australia in 2015 would be an important attempt to the practice of building up an international carbon market across different regions.To understand the abatement effect of such a global carbon market and to study its energy and economic impact on different market participants,this article adopts a global dynamic computable general equilibrium model with a detailed representation of the interactions between energy and economic systems.Our model includes 20 economic sectors and 19 regions,and describes in detail 17 energy technologies.Bundled with fossil fuel consumptions,the emission permits are considered to be essential inputs in each of the production and consumption activities in the economic system to simulate global carbon market policies.Carbon emission permits are endogenously set in the model,and can be traded between sectors and regions.Considering the current development of the global carbon market,this study takes 2020 as the study period.Four scenarios(reference scenario,independent carbon market scenario,Europe Union（EUh-Australia scenario,and China-EU-Australia scenario） are designed to evaluate the impact of the global carbon market involving China,the EU,and Australia.We find that the carbon price in the three countries varies a lot,from $32/tCO₂ in Australia,to $17.5/tCO₂ in the EU,and to $10/tCO₂ in China.Though the relative emission reduction（3%） in China is lower than that in the EU（9%） and Australia（18%）,the absolute emission reduction in China is far greater than that in the EU and Australia.When China is included in the carbon market,which already includes the EU and Australia,the prevailing global carbon price falls from $22 per ton carbon dioxide（CO₂） to $12/tCO₂,due to the relatively lower abatement cost in China.Seventy-one percent of the EU’s and eighty-one percent of Australia’s domestic reduction burden would be transferred to China,increasing 0.03%of the EU’s and 0.06%of Australia’s welfare.The emission constraint improves the energy efficiency of China’s industry sector by 1.4%,reduces coal consumption by3.3%,and increases clean energy by 3.5%.     

蛋白质精氨酸甲基转移酶抑制剂DB75对人膀胱癌T24细胞的抑制作用

蛋白质精氨酸甲基转移酶1(PRMT1)是近年来新发现的一种表观遗传修饰酶,在膀胱癌等多种癌组织中过度表达,因此针对该靶点的新型表观抗肿瘤药物研究尤为重要.通过基于PRMT1药效团虚拟筛选模型筛查抑制PRMT1活性的小分子化合物,体外研究了靶向PRMT1的小分子化合物DB75对膀胱癌细胞的抗瘤活性及诱导细胞凋亡的分子机制.实验结果显示:通过筛选体系获得了能显著抑制PRMT1活性的小分子化合物DB75;MTT实验表明,DB75能够显著(P<0.05)地抑制膀胱癌T24细胞的增殖,且随着药物浓度的增加,抑制率呈明显的剂量效应,48 h半数抑制浓度IC50为2.2μmol/L;DAPI染色显示DB75能显著(P<0.05)诱导膀胱癌T24细胞凋亡;分子机制研究显示,DB75通过激活Caspase-3和PARP活性从而诱导T24细胞凋亡.以上结果初步表明DB75可作为一种新型的膀胱癌表观先导化合物.     

被动加标在水生生态风险评价中的应用——以多氯联苯分配系数的测定为例

准确的水生生态风险评价需要可靠的毒性数据,而其获取要求在一定时间范围内,水体中污染物的浓度保持恒定。对疏水性有机污染物进行水体生物毒性测试时,通常采用有机溶剂加标,然而该方式可能因为污染物的挥发和降解、容器壁吸附、生物摄取等问题,水体中污染物浓度持续下降,导致污染物的浓度-效应关系难以明确。近期为了克服这些问题,被动加标用于替代溶剂加标,通过污染物在加标体系中平衡分配来维持精确和恒定的水体浓度,同时还可通过测定加标聚合物中污染物的浓度来监测水体浓度。首先介绍了被动加标方法及其材料选择,讨论了该方法在生态风险评价中的主要应用,包括分配系数的测定、体外细胞测试、体内生物积累及毒性测试,以及沉积物毒性评价等。然后,以测定代表污染物多氯联苯在聚二甲基硅氧烷与水间的分配系数为例,详细说明被动加标的操作流程。最后,讨论了被动加标方法的优缺点,并对其在水生生态风险中的应用前景进行了展望。     

新疆阿克苏地区地下水优先控制污染物的确定

为确定新疆阿克苏地区地下水优先控制污染物,结合潜在危害指数法和综合评分法对新疆阿克苏地区地下水中9项评价指标进行了优先控制污染物筛选,利用GIS软件分析了阿克苏地区地下水优先控制污染物的空间分布规律,并将地下水中各优先控制污染物与土地利用类型在空间上进行叠加,结合土地利用类型与主成因分析法确定了阿克苏地区地下水优先控制...     

用清洁生产的理念防治农业污染的初步探讨

农业发展面临的农业污染问题,已成为制约农业可持续发展的＂瓶颈＂.农业污染问题已经成为影响农村经济发展,以及农村社会和谐发展的重要因素之一.在论述农业清洁生产涵义的基础上,探讨了农业清洁生产防治农业污染问题.以新疆绿洲农业为例,论述了农业污染现状及发展农业清洁生产的必要性,分析探讨了发展农业清洁生产存在的问题和障碍,并提出了对策和建议.     

樊庆生红球菌菌剂制备优化及其重金属修复促进效果研究

目前,土壤重金属污染形势严峻,而微生物辅助植物修复的措施以其绿色友好的特性备受关注,其中,研发高效的微生物菌剂对提高修复效率至关重要.针对一种能代谢植物激素脱落酸（ABA）的微生物—樊庆生红球菌（Rhodococcus qingshengii）进行菌剂制备研究,并验证其对超积累植物东南景天提取重金属镉（Cd）、铜（Cu）、镍（Ni）和锌（Zn）能力的强化效果.结果表明,该菌种制备优化条件为：80%麦麸∶15%锯末∶5%活性炭;料水比1∶2、pH=9;接菌量40%;培养温度30℃、培养时间3 d、烘干温度40℃.优化后,固体菌剂有效活菌数可达2×10¹²CFU·g^-1,与土壤混合后其有效活菌数峰值达1×10¹¹CFU·g^-1,是接种相同活菌数液体菌剂的4倍,30 d保有的有效活菌数是液体菌剂的23倍.与未配施的空白相比,该菌剂配施于不同重金属污染土壤中,可使东南景天的Cd含量提高110%～260%,Ni和Zn含量分别提高约100%和90%;生物富集因子（BCF）则提高50%～500%,转运系数（TF）...