期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
桑沟湾溶解态汞的生物地球化学行为 被引量:3
1
作者 李磊 任景玲 +4 位作者 刘素美 乔旭东 蒋增杰 杜金洲 方建光 《生态毒理学报》 CAS CSCD 北大核心 2014年第5期888-900,共13页
作为一种毒性极强的重金属元素,汞在海洋中可以通过海洋生物的呼吸、摄食和吸附等过程被利用,并在沿食物链传递的过程中不断富集,最终危害人类的健康.利用冷原子荧光光度法(CV-AFS)对2011年4月、8月、10月和2012年1月桑沟湾溶解态无... 作为一种毒性极强的重金属元素,汞在海洋中可以通过海洋生物的呼吸、摄食和吸附等过程被利用,并在沿食物链传递的过程中不断富集,最终危害人类的健康.利用冷原子荧光光度法(CV-AFS)对2011年4月、8月、10月和2012年1月桑沟湾溶解态无机汞(DIHg)和溶解态有机汞(DOHg)的含量进行了测定.结果表明,桑沟湾四个季节DIHg的浓度范围分别为52~865、131~359、31~134和22~119 pmol·L^-1,DOHg的浓度范围分别为37~214、52~635、21~98和未检出~51 pmol·L^-1.桑沟湾DIHg和DOHg具有相似的分布特征,均呈现出从近岸向外海逐渐降低的趋势,有明显的季节变化.桑沟湾DIHg和DOHg的周日变化与潮汐呈现出较好的负相关关系,且存在明显的昼夜差异.影响桑沟湾DIHg和DOHg分布的主要因素包括河流和地下水的输入、大气的干湿沉降、与黄海的交换、活性气态汞(Hg0)在海-气界面的交换、表层水体发生的光化学还原反应以及养殖生物的清除等.通过初步计算,桑沟湾溶解态汞(TDHg)的存留时间约为(127±0.53)年,远远低于大洋.根据美国国家环境保护局汞的质量标准和我国地表水环境质量标准,桑沟湾没有明显的汞污染.但海产品体内富集的汞可能会带来潜在的生态危机和食品安全问题,需要相关部门加以重视,确保桑沟湾养殖产业的平衡发展. 展开更多
关键词 溶解态汞 形态 分布 季节变化 桑沟湾
下载PDF
A New Approach for the Health Assessment of River Systems Based on Interconnected Water System Networks 被引量:11
2
作者 ZHAO Junkai LI Lixian +2 位作者 ZHANG Aishe LI Jiufa GUO Qiuxia 《Journal of Resources and Ecology》 CSCD 2017年第3期251-257,共7页
Interconnected river system networks is a national water conservancy strategy in China and focus of research. Here we discuss the classification system, material and energy exchange between rivers and lakes, various d... Interconnected river system networks is a national water conservancy strategy in China and focus of research. Here we discuss the classification system, material and energy exchange between rivers and lakes, various dynamic flows and ecological functions of river-lake interconnected relationships. We then propose a novel method for the health assessment of river systems based on interconnected water system networks. In a healthy river system there is "material and energy exchange" and it is the first and foremost relationship of material and energy exchange between rivers and lakes. There are unobstructed various "flows" between rivers and lakes including material flows (water, dissolved substances, sediments, organisms and contaminants), energy flows (water levels, flow and flow velocity), information flows (information generated with water flows, organisms and human activities) and value flows (shipping, power generation, drinking and irrigation). Under the influences of na- ture and human activity, various flows are connected by river-lake interconnection to carry material and energy exchange between rivers and lakes to achieve river-lake interactions. The material and energy exchange between rivers and lakes become one of the approaches and the direct driving forces of changes in river-lake interconnected relationships. The benignant changes in river-lake interconnected relationship tend to be in relatively steady state and in ideal dynamic balance. 展开更多
关键词 interconnected water system network classification system material and energy exchange ecological function health assessment of river system river-lake system
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部