海洋硅藻三角褐指藻经黑暗与UV辐射后的补偿生长(英文)

补偿生长是生物体对环境变化的一种适应性反应,主要指生物体遭受到不良环境胁迫后其生长及生理机能受到制约,但当不良环境胁迫解除后,生物体的生长能力会得到不同程度的恢复,表现出相对未受不良环境胁迫生物体超常生长的现象.迄今为止,补偿生长研究的对象主要集中在水生动物、反刍动物和高等植物上,而针对体积微小的海洋浮游植物的研究非常有限.海洋微藻是海洋生态系统最主要的初级生产者,在自然界物质和能量流动中扮演着至关重要的角色;同时,它们可以广泛应用在水产养殖、食品加工、医药保健、环境保护和生物制能等各种行业,具有非常好地开发利用前景.本文利用海洋硅藻三角褐指藻为试验材料,设置黑暗胁迫和UV辐射胁迫处理,着重测定微藻在恢复生长时期的藻生物量,叶绿素a含量和蛋白质含鼍等指标,探讨经黑暗与UV辐射胁迫后三角褐指藻的补偿生长现象.结果显示,无论是先经正常光照处理还是2 d黑暗处理,UV辐射0.1 rain和0.8 rain的微藻生物量都明显高于不经UV辐射胁迫的微藻生物置;此外,经过不同程度的黑暗与UV辐射处理后,微藻在恢复生长期的叶绿素a和蛋白质含量在某特定生长时期中明显高于对照组的叶绿素a和蛋白质含最.结果表明,三角褐指藻对外界环境变化具有适应能力,一旦不良环境胁迫被解除,微藻会表现出一定的补偿生长效应.我们的研究结果不但拓展和丰富了目前补偿生长的研究对象范围,而且还能为当前赤潮的形成、预测和防治提供一个新的研究思路,为有益经济微藻的高效率培养与利用提供理论指导.     

微波法处理含铬废渣的可行性分析

微波辐照解毒铬渣是一项新技术,为考察该技术应用的可行性,本文对铬渣解毒前后性状的变化进行了讨论。结果表明,该技术能较完全地使高价铬转化为低价铬,解毒渣中铬主要以三价形态存在,铬渣毒性得到消除;解毒渣浸出液中Cr6+浓度远低于国家危险废物鉴别标准,解毒渣已不属于危险固体废弃物,其在环境条件下可安全存放。说明该技术具有应用前景。     

电磁辐射环境的潜在致突变水平

通过蚕豆根尖细胞微核试验,对微波通信基站和广播电台周围环境电磁辐射水平进行监测,了解了不同电磁辐射强度与蚕豆根尖细胞微核率之间的关系。指出较强电磁辐射水平对蚕豆根尖微核率的形成具有显著影响,电磁辐射环境可能存在潜在的致突变危险。建议国家有关部门应尽快对有关场所中的电磁辐射环境,以及对公众健康影响的问题作深入研究,制定可操作性法规,并明确界定有关场所可执行的标准,使建筑物高层电磁辐射环境污染得到有效地控制和管理。     

微波催化氧化法处理富马酸废水

在活性炭与Fenton试剂存在下,用微波辐射处理多次铁碳微电解处理后的富马酸废水,通过单因素和正交实验对影响因素进行了考察。在100mL水样中,活性炭用量为1．0g、双氧水用量为1．0mL、废水pH为3、微波加热时间为10min、辐射功率为350W的条件下,可以使富马酸废水的COD从300mg／L降至96．6mg／L。     

江苏省核辐射突发事件的预警监测体系

核辐射突发事件的监测预警体系是环境突发公共事件应急管理体系的重要组成部分,对保障核与辐射安全具有重要的意义.介绍了江苏省核辐射突发事件的监测预警体系和辐射监测网络的建设现状,通过对国际辐射预警和监测技术的广泛调研,结合江苏省实际情况,分析应对核辐射突发事件的监测预警体系存在的问题和对策,提出了相应的建设规划和建议.     

辐射环境安全事故的应急准备和演练

核技术的广泛应用给人类带来巨大利益的同时,也不可避免地产生一定程度的危害。结合辐射环境安全事故的特点,从事故类型、应急组织、应急响应准备、应急响应处置、应急演练的开展等方面详细阐述了如何开展辐射环境安全事故应急准备和演练,以提高辐射应急处置能力和水平。     

Effect of UV radiation and temperature on mineralization and volatilization of coumaphos in water

This study was undertaken to determine the dissipation and degradation of coumaphos [O-(3-chloro-4-methyl-2-oxo-2H-1-benzopyran-7-yl) O,O-diethyl phosphorothioate] under different sunlight conditions and at different temperatures. The effect of the ultra violet (UV) component of solar radiation was also studied using quartz tubes in addition to other radiation in the visible range using glass tubes and the results were compared with those obtained under the dark light conditions. Water suspensions of coumaphos were incubated at three temperatures viz. 22°C, 37°C and 53°C in closed systems to study the effect of temperature. Volatilization, mineralization and degradation of coumaphos increased with an increase in temperature and exposure to solar radiation, particularly under the UV component of the solar radiation. Major loss of the pesticide occurred through volatilization. The optimum temperature for the degradation of coumaphos was found to be at 37°C. The data obtained from the mineralization and degradation studies indicated that 53°C crosses the biological range for suitable growth of microorganism. UV radiation exposure along with maintaining temperature at 37°C may prove useful in the dissipation and/or degradation of coumaphos prior to its disposal as waste from cattle dipping vats.     

铁屑吸附-微波辐照-内电解协同处理结晶紫染料废水

以结晶紫为模型化合物,提出了一种新的“铁屑吸附—微波辐照—内电解”协同处理染料废水的方法。试验结果表明,吸附在铁屑表面的染料通过微波催化裂解和内电解协同作用迅速降解,染料溶液的脱色率和COD去除率分别达到99％和95％以上。废铁屑经8次使用后仍有良好的处理效果。研究了各种相关因素对染料废水脱色的影响。     

Coupling effects of the explosion shock wave and heat radiation on the dynamic response of a fixed-roof tank

The occurrence of leakage in large tank farms or oil deposits can lead to fire or explosion accidents. Coupling effects of fire and explosion loadings can cause considerably more damage to adjacent tanks or buildings than either loading individually does. In this study, the combined loadings of the explosion shock wave and heat radiation from a pool fire on a neighboring empty fixed-roof tank were numerically investigated. The effects of the explosion shock wave intensity and relative height of the explosion center [the ratio of the height of the explosion center to the height of the tank (h_r)] were analyzed. The results indicate that tanks damaged by explosion shock waves have decreased fire resistance and critical buckling temperature. Moreover, the thermal buckling deformation of the predamaged tank largely depends on the explosion shock wave. With an increase in the explosion shock wave intensity or a decrease in h_r, the explosion shock wave has greater influence on the fire resistance of the tank, and the critical buckling temperature decreases. This paper can provide an understanding of the dynamics of a tank under explosion shock wave loading, and of the critical failure criterion and failure modes of a target tank under the coupled loading of the explosion shock wave and an adjacent pool fire.