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Long-Range Transport of Airborne Pollutants

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Lee,, Eiliv Steinnes, and, Kevin C. Foday M. Gillian L. Daly and, Frank Wania. Organic Contaminants in Mountains. Timothy S. Howe,, Shane Billings, and, Richard J. Wegmann,, M. Scheringer,, M. Meijer,, E. Steinnes,, W. Ockenden, and, K. Gouin,, G. Thomas,, I. Cousins,, J. Barber,, D. Mackay, and, K. David A. Priemer and, Miriam L. Frank Wania and, Michael S. Peter Weiss. Martine I. Michael S. John I. Baker and, Ronald A.

1. Introduction

Science of The Total Environment , , How good are the predictions of mobility of aged polychlorinated biphenyls PCBs in soil? Insights from a soil column experiment. Environmental behaviour of polychlorinated biphenyls in a paddy field: Impact factors and canopy effects. Profiling of heavy metal and pesticide residues in medicinal plants. Comparisons of three plant species in accumulating polycyclic aromatic hydrocarbons PAHs from the atmosphere: a review. Environmental Science and Pollution Research , 25 17 , Do environmental dynamics matter in fate models?

05 Aug 2019 Air pollutants emission and transport and transformation

Exploring scenario dynamics for a terrestrial and an aquatic system. Environmental fate and exposure models: advances and challenges in 21 st century chemical risk assessment. Polychlorinated biphenyl concentrations, accumulation rates in soil from atmospheric deposition and analysis of their affecting landscape variables along an urban-rural gradient in Shanghai, China.

Chemosphere , , SoilPlusVeg: An integrated air-plant-litter-soil model to predict organic chemical fate and recycling in forests. Polychlorinated biphenyls and polybrominated diphenylethers in soils from planted forests and adjacent natural forests on a tropical island. Environmental Pollution , , Jones, Riffat Naseem Malik. Organohalogenated contaminants OHCs in high-altitude environments: A review and implication for a black carbon relationship. Critical Reviews in Environmental Science and Technology , 47 13 , Distribution and vertical migration of polycyclic aromatic hydrocarbons in forest soil pits of southeastern Tibet.


Benjamin A. Musa Bandowe, Hannah Meusel. Nitrated polycyclic aromatic hydrocarbons nitro-PAHs in the environment — A review. Pedosphere , 27 1 , Occurrence of fluorotelomer alcohols at two Alpine summits: sources, transport and temporal trends. Environmental Chemistry , 14 4 , A review of current knowledge and future prospects regarding persistent organic pollutants over the Tibetan Plateau. Climate change and global cycling of persistent organic pollutants: A critical review.

Science China Earth Sciences , 59 10 , Clifford P. Rice, Krystyna Bialek, Cathleen J. Hapeman, Gregory W. The influence of tree species composition on the storage and mobility of semivolatile organic compounds in forest soils. In situ determination of the depuration of three- and four-ringed polycyclic aromatic hydrocarbons co-adsorbed onto mangrove leaf surfaces.

A passive dosing method to determine fugacity capacities and partitioning properties of leaves. Characterizations of wet mercury deposition on a remote high-elevation site in the southeastern Tibetan Plateau. Towards more ecologically realistic scenarios of plant uptake modelling for chemicals: PAHs in a small forest. Patricia B.

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Baldantoni, A. Joswiak, Baiqing Xu, Tandong Yao. Persistent organic pollutants in mountain air of the southeastern Tibetan Plateau: Seasonal variations and implications for regional cycling. Atmospheric transport and accumulation of organochlorine compounds on the southern slopes of the Himalayas, Nepal. Environmental fate and behavior of persistent organic pollutants in Shergyla Mountain, southeast of the Tibetan Plateau of China. Mercury distribution in the foliage and soil profiles of the Tibetan forest: Processes and implications for regional cycling. Alberto Pistocchi, Dimitar T.

Patterns of traffic polycyclic aromatic hydrocarbon pollution in mountain areas can be revealed by lichen biomonitoring: A case study in the Dolomites Eastern Italian Alps. Figure 4. The highest score is the highest concentration of one of the four pollutants. The ATMO index therefore makes it possible to report pollution peaks, due to PM10 for example, as is often the case in winter during high pressure periods, or to ozone in the middle of summer.

However, it can be the source of a misunderstanding.