Publikasjoner

Langtransporterte luftforurensninger. Powerpoint presentasjon. NILU F

Schlabach, M.

Langtransportert luftforurensning og klimadrivere. Hva er status i det internasjonale arbeidet og hva er status for nivåene i Norge?

Tørseth, K.

Langtransport av miljøgifter med avfall: En giftfri framtid på bekostning av fattige land? NILU F

Breivik, K.

Det er nå mindre forbudte industrielle miljøgifter i rike industriland som Norge, men nivåene er blitt helsefarlige i deler av Afrika og Asia. I dette foredraget vil du få høre om hvordan kontrolltiltak i rike land kan ha medført at fattige land har blitt en dumpingplass for giftig avfall.

Lange tidsserier - atmosfæriske komponenter. NILU F

Hole, L.R.

Land-Ocean Interactions in the Coastal Zone: past, present & future.

Ramesh, R.; Chen, Z.; Cummins, V.; Day, J.; D'Elia, C.; Dennison, B.; Forbes, D.L.; Glaeser, B.; Glaser, M.; Glavovic, B.; Kremer, H.; Lange, M.; Larsen, J.N.; Tissier, M.L.; Newton, A.; Pelling, M.; Purvaja, R.; Wolanski, E.

Land use regression modelling for air quality exposure: A step in the wrong direction.

Denby, B.R.

Land surface temperature validation for WACMOS-ET. Reference input data set validation report. NILU report

Schneider, P.; Prata, F.; Martins, J.; Pires, A.; Trigo, I.; Jimenez, C.; Goettsche, F.; Hook, S. J.

The Land Surface Temperature (LST) products generated specifically for the WAter Cycle Observation Multi-mission Strategy - EvapoTranspiration (WACMOS-ET)project, funded by the European Space Agency (ESA), are evaluated with respect to their overall quality. LST products derived from observations acquired by the Advanced Along-Track Scanning Radiometer (AATSR), the Multi-Functional Transport Satellite (MTSAT), and the Geostationary Operational Environmental Satellite (GOES) were studied here. Following previously established best-practices on LST validation, the evaluation includes both a qualitative component addressing general issues with the data, as well as a quantitative component, which compares the LST products directly against a reference dataset. For the latter satellite LST is compared against both ground-based in situ datasets acting as a source of absolute reference data and against independent satellite-based LST products from other sensors to provide a spatially exhaustive relative comparison.

Land data assimilation: a tool for improving land surface models and observations.

Lahoz, W.A.; Prata, F.; Orsolini, Y.

Land data assimilation at NILU: Toward an integrated representation of the Arctic hydrological cycle.

Blyverket, J.; Hamer, P.; Svendby, T.; Lahoz, W.

Land atmosphere exchange of carbon dioxide in a north Norwegian blanket bog. NILU F

Lund, M.; Bjerke, J.W.; Drake, B.G.; Engelsen, O.; Hansen, G.H.; Parmentier, F.J.W.; Powell, T.; Silvennoinen, H.; Tømmervik, H.; Weldon, S.; Rasse, D.

Lagrangian transport and inverse emission modeling of non-CO2 greenhouse gases in Europe.

Brunner, D.; Henne, S.; Reimann, S.; Hiller, R.; Manning, A.; Thompson, R.; Stohl, A.

Lagrangian reconstruction of ozone column and profile at the Arctic Lidar Observatory for Middle Atmosphere Research (ALOMAR) throughout the winter and spring of 1997-1998.

Orsolini, Y.J.; Hansen, G.; Manney, G.L.; Livesey, N.; Hoppe, U.P.