Gå til innhold
  • Send

  • Kategori

  • Sorter etter

  • Antall per side

Fant 10000 publikasjoner. Viser side 293 av 400:

Publikasjon  
År  
Kategori

Effekt av strakstiltak på dager med høy luftforurensning og effekt for NO2. NILU OR

Høiskar, B. A. K.; Sundvor, I.; Haug, T. W.; Sousa Santos, G.

NILU og Urbanet Analyse AS har på oppdrag fra Vegdirektoratet vurdert effekten av noen eksempler på strakstiltak med hensyn på å redusere NO2-konsentrasjonene på dager med høy luftforurensning.

2015

Effects of transport and processing on aerosol chemical and optical properties across the Gulf of Maine.

Quinn, P.; Bates, T.; Baynard, T.; Onasch, T.; Coffman, D.; Covert, D.; Worsnop, D.; Goldan, P.; Kuster, B.; de Gouw, J.; Stohl, A.

2005

Effects of titanium dioxide nanoparticles on the Hprt gene mutations in V79 hamster cells

Kazimirova, Alena; Yamani, Naouale El; Rubio, Laura; Garcia-Rodriguez, Alba; Barancokova, Magdalena; Marcos, Ricard; Dusinska, Maria

The genotoxicity of anatase/rutile TiO2 nanoparticles (TiO2 NPs, NM105 at 3, 15 and 75 µg/cm2) was assessed with the mammalian in-vitro Hypoxanthine guanine phosphoribosyl transferase (Hprt) gene mutation test in Chinese hamster lung (V79) fibroblasts after 24 h exposure. Two dispersion procedures giving different size distribution and dispersion stability were used to investigate whether the effects of TiO2 NPs depend on the state of agglomeration. TiO2 NPs were fully characterised in the previous European FP7 projects NanoTEST and NanoREG2. Uptake of TiO2 NPs was measured by transmission electron microscopy (TEM). TiO2 NPs were found in cytoplasmic vesicles, as well as close to the nucleus. The internalisation of TiO2 NPs did not depend on the state of agglomeration and dispersion used. The cytotoxicity of TiO2 NPs was measured by determining both the relative growth activity (RGA) and the plating efficiency (PE). There were no substantial effects of exposure time (24, 48 and 72 h), although a tendency to lower RGA at longer exposure was observed. No significant difference in PE values and no increases in the Hprt gene mutant frequency were found in exposed relative to unexposed cultures in spite of evidence of uptake of NPs by cells.

2020

Effects of the projected changes in land use and climate on soil vulnerability in Europe

Afshar, Mehdi H.; Hassani, Amirhossein; Borrelli, Pasquale; Panagos, Panos; Robinson, David A.; Or, Daniel; Shokri, Nima

2025

Effects of the 11-year Solar Cycle including Medium-Energy Electron Precipitation in WACCM decadal climate predictions

Guttu, Sigmund; Orsolini, Yvan; Stordal, Frode; Otterå, Odd Helge; Toniazzo, Thomas; Verronen, Pekka T.

2020

Effects of spatial and temporal resolution on exposure modeling.

Karppinen, A.; Kangas, L.; Soares, J.; Riikonen, K.; Denby, B.; Kukkonen, J.

2011

Effects of sources and meteorology on particulate matter in the Western Mediterranean Basin: An overview of the DAURE campaign.

Pandolfi, M.; Querol, X.; Alastuey, A.; Jimenez, J.L.; Jorba, O.; Day, D.; Ortega, A.; Cubison, M.J.; Comerón, A.; Sicard, M.; Mohr, C.; Prévôt, A.S.H.; Minguillón, M.C.; J. Pey, Baldasano, J.M.; Burkhart, J.F.; Seco, R.; Peñuelas, J.; van Drooge, B.L.; Artiñano, B.; Di Marco, C.; Nemitz, E.; Schallhart, S.; Metzger, A.; Hansel, A.; Lorente, J.; Ng, S.; Jayne, J.; Szidat, S.

2014

Effects of rocket launches in Ny-Ålesund, 2018 - 2019. Observations of snow and air samples.

Aas, Wenche; Gallet, Jean-Charles; Halse, Anne Karine; Hermansen, Ove; Mikkelsen, Øyvind; Pedersen, Christina Alsvik; Spolaor, Andrea; Tørnkvist, Kjersti Karlsen; Uggerud, Hilde Thelle

The report summarizes the results from additional snow sampling and regular monitoring activities in connection to the rocket launch in Ny-Ålesund 7 Dec 2018, 26 Nov 2019 and 10 Dec 2019 to document possible impacts on environment and on the monitoring activities in Ny-Ålesund. An enhanced deposition of aluminium (Al) and iron (Fe) on the local environment due to the rocket launch is observed.

NILU

2021

Effects of relative humidity on aerosol light scattering in the Arctic.

Zieger, P.; Fierz-Schmidhauser, R.; Gysel, M.; Ström, J.; Henne, S.; Yttri, K.E.; Baltensperger, U.; Weingartner, E.

2010

Effects of relative humidity on aerosol light scattering in the Arctic.

Zieger, P.; Fierz-Schmidhauser, R.; Gysel, M.; Ström, J.; Henne, S.; Yttri, K.E.; Baltensperger, U.; Weingartner, E.

2010

Effects of per- and polyfluoroalkyl substances (PFASs) on thyroid hormone status in Svalbard glaucous gulls.

Hovden, Torunn Slettemark; Mortensen, Åse-Karen; Ciesielski, Tomasz Maciej; Sonne, Christian; Hanssen, Linda; Heimstad, Eldbjørg Sofie; Gabrielsen, Geir W.; Jenssen, Bjørn Munro

2018

Effects of mixing on evolution of hydrocarbon ratios in the troposphere.

Parrish D.D.; Stohl, A. , Forster, C.; Atlas, E.L.; Blake, D.R.; Goldan, P.D.; Kuster, W.C.; de Gouw, J.A.

2007

Effects of increased biomass removal on the biogeochemistry of two Norwegian forest ecosystems.

Lange, H.; Clarke, N.; Kjønaas, O.J.; Aas, W.; Andreassen, K.; Børja, I.; Bratli, H., Eich-Greatorex, S.; Eldhuset, T.; Holt-Hanssen, K.; the four additional members of the Norwegian bioenergy team.

2009

Effects of increased biomass removal on the biogeochemistry of two Norwegian forest ecosystems. NILU PP

Lange, H.; Clarke, N.; Kjønaas, O.J.; Aas, W.; Andreassen, K.; Børja, I.; Bratli, H., Eich-Greatorex, S.; Eldhuset, T.; Holt-Hanssen, K.; Økland, T.; Røsberg, I.; Sogn, T.A.; Timmermann, V.

2009

Effects of grid resolution, source size and source elevation on large eddy simulation of plume dispersion in an infinite-Re neutral boundary layer

Ardeshiri, Hamidreza; Cassiani, Massimo; Park, Soon-Young; Stohl, Andreas; Stebel, Kerstin; Pisso, Ignacio; Dinger, Anna Solvejg; Kylling, Arve; Schmidbauer, Norbert

2019

Effects of grid resolution on Large eddy simulation of plume dispersion in a neutral boundary layer

Ardeshiri, Hamidreza; Park, Soon-Young; Cassiani, Massimo; Stohl, Andreas; Stebel, Kerstin; Pisso, Ignacio; Dinger, Anna Solvejg

2019

Effects of extreme meteorological conditions in 2018 on European methane emissions estimated using atmospheric inversions

Thompson, Rona Louise; Zwaaftink, Christine Groot; Brunner, D; Tsuruta, Aki; Aalto, T; Raivonen, M; Crippa, M.; Solazzo, Efisio; Guizzardi, D.; Regnier, P.; Maisonnier, M.

The effect of the 2018 extreme meteorological conditions in Europe on methane (CH4) emissions is examined using estimates from four atmospheric inversions calculated for the period 2005–2018. For most of Europe, we find no anomaly in 2018 compared to the 2005–2018 mean. However, we find a positive anomaly for the Netherlands in April, which coincided with positive temperature and soil moisture anomalies suggesting an increase in biogenic sources. We also find a negative anomaly for the Netherlands for September–October, which coincided with a negative anomaly in soil moisture, suggesting a decrease in soil sources. In addition, we find a positive anomaly for Serbia in spring, summer and autumn, which coincided with increases in temperature and soil moisture, again suggestive of changes in biogenic sources, and the annual emission for 2018 was 33 ± 38% higher than the 2005–2017 mean. These results indicate that CH4 emissions from areas where the natural source is thought to be relatively small can still vary due to meteorological conditions. At the European scale though, the degree of variability over 2005–2018 was small, and there was negligible impact on the annual CH4 emissions in 2018 despite the extreme meteorological conditions.

This article is part of a discussion meeting issue ‘Rising methane: is warming feeding warming? (part 2)’.

2021

Publikasjon
År
Kategori