四溴联苯醚对小鼠的神经毒性

为探讨持久性有机污染物2,2’,4,4’-四溴联苯醚(BDE-47)对小鼠海马组织的神经毒性,将小鼠每日灌胃25或50 mg·kg-1剂量的BDE-47,6周后检测其记忆能力、海马组织病理学变化、蛋白激酶C(PKC)表达量和半胱氨酸天冬氨酸蛋白酶-3(caspase-3)活性。结果显示,BDE-47损伤了小鼠被动回避实验的记忆保持能力,导致海马安蒙角(CA1)区锥体细胞排列紊乱,神经元胞体体积变小,形态不规则。BDE-47对小鼠海马组织PKCα、β、γ和ζ的表达无影响,但显著上调了PKCδ和PKCλ的表达,促进了caspase-3活性。这些结果提示,BDE-47导致的海马神经毒性可能与PKCδ和PKCλ表达异常及caspase-3活性升高有关。本实验结果为进一步了解BDE-47神经毒作用机制提供了实验依据。     

山蒟(Piper hancei)的生态生物学特征

山蒟(Piper hancei)是一种有较高园林绿化价值的常绿藤本植物,通过样地调查及相关数据分析,对山蒟的形态解剖学、生理生态学、营养元素含量等生态生物学特征进行研究,结果表明:山蒟喜阴湿环境,耐贫瘠,适合在酸性赤红壤上生长,主要分布于热带亚热带地区光照适中或较弱的溪涧边、林下、树干或岩石上.其平均光合速率为4.07 μmol·m-2·s-1,气孔导度为0.23 mol·m-2·s-1,蒸腾速率为3.87 mmol·m-2·s-1.山蒟对营养元素的利用率较高,植株体内加权平均养分含量为N2.00%、P0.20%、K2.11%、Ca0.94%、Na0.05%、Mg0.15%,其中叶片的N、K和Ca含量最高,枝的P和Mg含量最高.山药的生态生物学特征有利于其快速生长、覆盖、吸附攀援和适应环境.研究结果将为山蒟的引种、栽培及开发利用提供重要理论依据.     

中国土地资源生态环境质量状况分析

基于用数字环境模型对中国土地资源生态环境的质量评价,生成了中国土地资源生态环境综合评价图,分析了中国土地资源生态环境等级面积构成及分布状况,得出了中国土地资源生态环境质量最好的地区全部分布在东南沿海和四川盆地区,生态环境最适合人类生存的土地资源仅占我国土地资源总面积的１／３弱,１／３的土地资源面积养活了我国８０％以上的人口     

重庆市清水溪河流沉积物重金属污染及潜在生态风险评价

采用单因子指数法和Hakanson潜在生态风险指数法,通过分析清水溪流域18个采样点沉积物中典型重金属污染物Cd、Cr、Cu、Pb和Zn的含量,定量确定了清水溪沉积物中重金属的污染程度和潜在生态风险程度。结果表明,清水溪流域污染非常严重,上中游河段受到重金属的高强度污染,主要的重金属污染因子为Zn,污染因子的高低顺序为：Zn>Cu>Cr>Cd>Pb;潜在生态风险指数RI平均值为255.58,清水溪处于高值潜在生态风险,且上中游河段潜在生态风险指数很高,主要的潜在生态风险因子为Cd,潜在生态风险因子的大小顺序为：Cd>Cu>Cr>Zn>Pb。     

Evaluating Phosphorus Loss for Watershed Management: Integrating a Weighting Scheme of Watershed Heterogeneity into Export Coefficient Model

The identification of critical source areas (CSAs) and critical source periods (CSPs) are essential prerequisites for cost-effective practices of non-point source (NPS) pollution control. A simple empirical tool combining Export Coefficient Model (ECM) and a Geographic Information Systems (GIS)-based weighting scheme of watershed heterogeneity was proposed to estimate annual and monthly phosphorus loss, to identify critical source areas and periods, and to assess pollution control practices. The GIS-based weighting scheme was developed to represent the transport potential of runoff to move phosphorus from the land surfaces to waters, as a supplement to the source-based ECM. The empirical tool was applied to the Dianchi Lake watershed of China. The results showed that the total phosphorus loss from NPS in 2008 was 352.3 tons. The agricultural land was recognized as the largest and the most spatially various source type. The lakeside plain and the terraces of the watershed were identified as CSAs, which generated more than 90 % of non-point phosphorus. The early part of wet season (from May to August) was the CSPs, when about 70 % of non-point phosphorus was lost. The reduction of phosphorus fertilizers and the vegetated buffer strips (VBS) were effective in controlling phosphorus loss from NPS in the watershed. A reduction of 20 % in phosphorus fertilizer application combined with the set-up of VBS in both riparian area of the main watercourses and the lakeside areas would decrease 25 % of phosphorus loss.     

生态补偿的管理与调控模式研究

生态补偿目前是国内外研究的热点,政府和社会各界一直呼吁建立生态补偿机制。文章在理论分析的基础上,提出生态补偿过程中"政府管制、公众参与、市场调节"的管理与调控模式,并对三者之间的关系进行了分析。     

膨胀石墨除油机理及影响因素研究

针对水面浮油的去除问题,通过对新型吸附材料-膨胀石墨的扫描电镜观察,从其结构特征的角度揭示了膨胀石墨的吸油机理,首次系统地研究了温度、时间、pH等操作条件对吸附油性能的影响。扫描电镜的结果显示膨胀石墨的鳞片厚度都在100 nm以上,而且以大孔、超大孔为主,这种结构赋予了膨胀石墨独特的吸附特性。操作条件对膨胀石墨的吸附性能有重要的影响,在本实验条件下即在酸（中）性条件下,吸附时间1 min-2 min左右,转速为660 r/min膨胀石墨可达到饱和吸附量。     

中亚五国气溶胶光学厚度时空分布特征研究

气溶胶时空变化是影响气溶胶气候效应不确定性的主要因素之一.在生态环境脆弱的中亚五国(哈萨克斯坦、乌兹别克斯坦、土库曼斯坦、吉尔吉斯斯坦和塔吉克斯坦)研究气溶胶光学厚度(Aerosol Optical Depth,AOD)的时空变化对中亚地区及全球生态环境和气候变化具有重要意义.基于2002-2019年MODIS 04_...     

Spatial heterogeneity of greenhouse gas emissions from cereal crop production in China

Environmental Chemistry Letters - China is a major producer of wheat, maize and rice, which generates massive greenhouse gas emissions due to the consumption of elevated amounts of energy, land,...     

Spectroscopic characterization and photochemistry of the Criegee intermediate CF3C(H)OO

Criegee intermediates (CIs), also known as carbonyl oxide, are reactive intermediates that play an important role in the atmospheric chemistry. Investigation on the structures and reactivity of CIs is of fundamental importance in understanding the underlying mechanism of their atmospheric reactions. In sharp contrast to the intensively studied parent molecule (CH₂OO) and the alkyl-substituted derivatives, the knowledge about the fluorinated analogue CF₃C(H)OO is scarce. By carefully heating the triplet carbene CF₃CH in an O₂-doped Ar-matrix to 35 K, the elusive carbonyl oxide CF₃C(H)OO in syn- and anti-conformations has been generated and characterized with infrared (IR) and ultraviolet-visible (UV-vis) spectroscopy. The spectroscopic identification is supported by ¹⁸O-labeling experiments and quantum chemical calculations at the B3LYP/6-311++G(3df,3pd) and MP2/6-311++G(2d,2p) levels. Upon the long-wavelength irradiation (λ > 680 nm), both conformers of CF₃C(H)OO decompose to give trifluoroacetaldehyde CF₃C(H)O and simultaneously rearrange to the isomeric dioxirane, cyclic-CF₃CH(OO), which undergoes isomerization to the lowest-energy carboxylic acid CF₃C(O)OH upon UV-light excitation at 365 nm. The O₂-oxidation of CF₃CH via the intermediacy of CF₃C(H)OO and cyclic-CF₃CH(OO) might provide new insight into the mechanism for the degradation of hydro-chlorofluorocarbon CF₃CHCl₂ (HCFC-123) in the atmosphere.