Publications

Has the burden and distribution of PCBs and PBDEs changed in European background soils between 1998 and 2008? Implications for sources and processes.

Schuster, J.K.; Gioia, R.; Moeckel, C.; Agarwal, T.; Bucheli, T.D.; Breivik, K, Steinnes, E.; Jones, K.C.

A comparison of AIRS, MODIS and OMI sulphur dioxide retrievals in volcanic clouds.

Thomas, H.E.; Watson, I.M.; Carn, S.A.; Prata, A.J.; Realmuto, V.J.

Mercury emissions on a global scale and their control options. NILU F

Pacyna, J.M.; Sundseth, K.; Pacyna, E.G.

Scenarios for heavy metals, dioxins and POPs emissions to air, water and soil until 2050. NILU F

Sundseth, K.; Panasiuk, D.; Pacyna, J.M.; Pacyna, E.G.

Persistent organic pollutants in benthic communities in Svalbard: Seasonal and spatial trends.

Evenset, A.; Hallanger, I.; Renaud, P.; Tessmann, M.; Warner, N.; Christensen, G.; Ruus, A.; Borgå, K.; Gabrielsen, G.W.

Does climate change and seasons have an influence the accumulation of contaminants in Arctic marine pelagic food webs?

Hallanger, I.G.; Ruus, A.; Warner, N.A.; Evenset, A.; Gabrielsen, G.W.; Borgå, K.

Pesticides in the Godthåbsfjord, remote or local contamination, how can we tell the difference?

Carlsson, P.; Cornelissen, G.; Kallenborn, R.

Oxidative stress parameters in relation to mercury levels in tree species of Arctic seabirds inhabiting two distinct breeding colonies influenced by various inflow of Arctic and Atlantic water.

Øverjordet, I.B.; Saunes, H.; Berg, T.; Gabrielsen, G.W.; Jenssen, B.M.

An ecological assessment of the exposure of Northern predatory bird species to persistent organic pollutants.

Eulaers, I.; Covaci, A.; Halley, D.J. , Herzke, D.; Johnsen, T.V.; Jaspers, V.L.B.; Bustnes, J.O.; Eens, M.

The effect of migration and fasting on fatty acid profiles and organochlorine contaminant burdens in humpback whales.

Waugh, C.A.; Nash, S.M.B.; Nichols, P.; Schlabach, M.; Noad, M.

Temporal trends of persistent organic pollutants (POPs) and other organic contaminants in Arctic air.

Hung, H.; Kallenborn, R.; Breivik, K.; Su, Y.; Ma, J.; Brorström-Lundén, E.; Olafsdottir, K.; Thorlacius, J.M.; Leppänen, S.; Bossi, R.; Skov, H.; Manø, S.; Konoplev, A.; Stern, G.; Sverko, E.; Shoeib, M.; Fellin, P.

Update and improvement of dispersion calculations for emissions to air from TCM's amine plant. Part l-Worst case nitrosamines and nitramines. NILU OR

Tønnesen, D.

Inert dispersion of a unitary emission has been combined with time dependent air chemistry to provide maximum impact of nitrosamines and nitramines in air and water for emissions from the amine absorber at TCM. The calculations show that worst case impact of nitrosamines and nitramines in air is 5 % of the recommended guideline value. The maximum concentrations in fresh water range from13 % to 53 % of the guideline depending on the use of absorbent and flue gas. Estimates for a likely case impact show that air concentrations will be a factor of 3 lower than the worst case, while water concentrations will be a factor from 10 to 20 lower than the worst case depending on the type of absorber.

Status report January 1 - April 1 2011. Environmental surveillance of emissions to air from Snøhvit-Hammerfest LNG. NILU OR

Hak, C.