Mercury Fluxes And Pools In Three Subtropical Forested Catchments, Southwest China

文献类型: 外文期刊

第一作者: Wang, Zhangwei

作者: Wang, Zhangwei;Zhang, Xiaoshan;Zhijia, Ci;Xiao, Jingsong;Yu, Pingzhong

作者机构:

关键词: mercury;input;output;pool;forested catchments

期刊名称:ENVIRONMENTAL POLLUTION ( 影响因子:8.071; 五年影响因子:8.35 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Forested catchments are an important part of the mercury (Hg) cycle and a link between the atmospheric and the aquatic environments. In this study, Hg input and output fluxes and its retention were investigated at subtropical forested catchments in southwest China. Significantly enhanced atmospheric Hg inputs were observed, and the contribution of litterfall Hg plays a more important role at these subtropical forested catchments. The ratios of Hg output fluxes from stream water to total input were 2.5% and 1.2% for LGS and TSP, which were markedly lower than those reported from Europe and North America. The current annual input Hg only accounted for 0.8 and 1.8 per mille to the Hg stored in the upper 90 cm of soil in LGS and TSP. These suggest that subtropical forested catchments are important for retention of atmospheric mercury deposition in southwest China.

分类号: X5

  • 相关文献

[1]Wet deposition flux and runoff output flux of mercury in a typical small agricultural watershed in Three Gorges Reservoir areas. Zhao, Zheng,Wang, Dingyong,Wang, Ya,Mu, Zhijian,Wang, Dingyong,Mu, Zhijian,Zhu, Jinshan.

[2]Environmental Assessment of a Free-flowing High-biodiversity Stretch of the Upper Yangtze River: Implications for River Management. Zhang, Hui,Wei, Qiwei,Sun, Liyuan. 2013

[3]DISTRIBUTION CHARACTERISTICS, BIOACCUMULATION, AND SOURCES OF MERCURY IN RICE AT NANSI LAKE AREA, SHANDONG PROVINCE, CHNIA. Liu, H.,Zhang, J.,Dai, J. L.,Wang, L. H.,Zhang, J.,Li, G. X.. 2015

[4]Enhancement of tolerance of Indian mustard (Brassica juncea) to mercury by carbon monoxide. Meng, De Kun,Yang, Zhi Min,Chen, Jian. 2011

[5]Mercury contamination of fungi genus Xerocomus in the Yunnan province in China and the region of Europe. Kojta, Anna K.,Saba, Martyna,Falandysz, Jerzy,Zhang, Ji,Wang, Yuanzhong,Li, Tao. 2015

[6]Effect of organic matter and pH on mercury release from soils. Yang, Yong-Kui,Zhang, Cheng,Shi, Xiao-Jun,Lin, Tao,Wang, Ding-Yong. 2007

[7]Estimation of mercury emission from different sources to atmosphere in Chongqing, China. Wang, Dingyong,He, Lei,Wei, Shiqiang,Feng, Xinbin. 2006

[8]Characteristics of dissolved organic matter (DOM) and relationship with dissolved mercury in Xiaoqing River-Laizhou Bay estuary, Bohai Sea, China. Jiang, Tao,Wang, Dingyong,Gao, Jie,Li, Chuxian,Jiang, Tao,Skyllberg, Ulf,Tang, Jianhui,Bjorn, Erik,Green, Nelson W..

[9]A reusable and sensitive biosensor for total mercury in canned fish based on fluorescence polarization. Shen, Tongfei,Yue, Qiaoli,Jiang, Xiuxiu,Wang, Lei,Xu, Shuling,Li, Haibo,Liu, Jifeng,Gu, Xiaohong,Zhang, Shuqiu.

[10]The effect of different TiO2 nanoparticles on the release and transformation of mercury in sediment. Zhang, Jinyang,Zhang, Jinyang,Li, Chuxian,Wang, Dingyong,Zhang, Cheng,Liang, Li,Zhou, Xiong,Wang, Dingyong,Zhang, Cheng.

[11]Mercury speciation by differential photochemical vapor generation at UV-B vs. UV-C wavelength. Chen, Guoying,Lai, Bunhong,Mei, Ni,Liu, Jixin,Mao, Xuefei. 2017

[12]Mercury distribution and speciation in floodplain soils and uptake into native earthworms (Diplocardia spp.). Han, Fengxiang X.,Su, Yi,Xia, Yunjun,Tian, Wushuang,Philips, Valerie,Han, Fengxiang X.,Shi, Zhiqi,Monts, David L.,Gu, Mengmeng,Liang, Yongchao. 2012

[13]Wet deposition fluxes of total mercury and methylmercury in core urban areas, Chongqing, China. Wang, Yongmin,Peng, Yulong,Wang, Dingyong,Zhang, Cheng,Wang, Dingyong,Zhang, Cheng,Wang, Dingyong,Zhang, Cheng. 2014

[14]Dynamics of dissolved organic matter (DOM) in a typical inland lake of the Three Gorges Reservoir area: Fluorescent properties and their implications for dissolved mercury species. Jiang, Tao,Chen, Xueshuang,Wang, Dingyong,Liang, Jian,Bai, Weiyang,Zhang, Cheng,Wang, Qilei,Wei, Shiqiang,Jiang, Tao,Jiang, Tao,Chen, Xueshuang,Liang, Jian,Wang, Qilei,Bai, Weiyang,Liang, Jian. 2018

[15]Mercury toxicity, molecular response and tolerance in higher plants. Yang, Zhi Min,Chen, Jian. 2012

[16]Forest runoff increase mercury output from subtropical forest catchments: an example from an alpine reservoir in a national nature reserve (southwestern China). Ma, Ming,Wang, Dingyong,Sun, Tao,Zhao, Zheng,Ma, Ming,Wang, Dingyong,Sun, Tao,Zhao, Zheng,Du, Hongxia.

[17]Four-year record of mercury wet deposition in one typical industrial city in southwest China. Qin, Caiqing,Wang, Yongmin,Peng, Yulong,Wang, Dingyong,Wang, Dingyong,Wang, Dingyong.

[18]Rapid Determination of Mercury in Contaminated Soil and Plant Samples Using Portable Mercury Direct Analyzer without Sample Preparation, a Comparative Study. Han, Fengxiang X.,Kelly, John G.,Han, Fengxiang X.,Su, Yi,Xia, Yunjun,Philips, Valerie,Pichardo, Sergio T.,Shi, Zhiqi,Monts, David L.,Xia, Kang.

[19]Engineering Tobacco to Remove Mercury from Polluted Soil. Chang, S.,Wang, A.,Jin, Z.,Li, J.,He, Y.,Shu, H.,Chang, S.,Wang, A.,Jin, Z.,Li, J.,He, Y.,Shu, H.,Wei, F.,Yang, Y.,Shu, H..

[20]Temperature Affects Hg-Induced Antioxidant Responses in Chinese Rare Minnow Gobiocypris rarus Larvae In Vitro. Li, Zhi-Hua,Li, Ping,Chen, Lu,Li, Zhi-Hua,Li, Ping.

作者其他论文 更多>>

微信小程序