Add to ORKGThe chemical composition of the boundary layer in snow covered regions is impacted by chemistry in the snowpack via uptake, processing, and emission of atmospheric trace gases. We use the coupled one-dimensional (1-D) snow chemistry and atmospheric boundary layer model MISTRA-SNOW to study the impact of snowpack chemistry on the oxidation capacity of the boundary layer. The model includes gas phase photochemistry and chemical reactions both in the interstitial air and the atmosphere. While it is acknowledged that the chemistry occurring at ice surfaces may consist of a true quasi-liquid layer and/or a concentrated brine layer, lack of additional knowledge requires that this chemistry be modeled as primarily aqueous chemistry occurring in a ...
The Greenland Summit Halogen-HOx (GSHOX) Campaign was performed in spring 2007 and summer 2008 to in...
The Greenland Summit Halogen-HO(x) (GSHOX) Campaign was performed in spring 2007 and summer 2008 to ...
This study explores the role of snowpack in polar boundary layer chemistry, especially as a di-rect ...
International audienceThe chemical composition of the boundary layer in snow covered regions is impa...
The chemical composition of the boundary layer in snow covered regions is impacted by chemistry in t...
Sun-lit snow is increasingly recognized as a chemical reactor that plays an active role in uptake, t...
Levels of OH and peroxy radicals in the atmospheric boundary layer at Summit, Greenland, a locations...
International audienceSun-lit snow is increasingly recognized as a chemical reactor that plays an ac...
International audienceReactive chlorine and bromine species emitted from snow and aerosols can signi...
Levels of OH and peroxy radicals in the atmospheric boundary layer at Summit, Greenland, a location ...
International audienceFrom 10 May through 17 June 2007 and 6 June through 9 July 2008 intensive samp...
From 10 May through 17 June 2007 and 6 June through 9 July 2008 intensive sampling campaigns at Summ...
Elevated levels of reactive bromine and chlorine species in the springtime Arctic boundary layer con...
Atmospheric hydroperoxides (ROOH) were measured at Summit, Greenland (72.97° N, 38.77° W) in summer ...
The Greenland Summit Halogen-HOx (GSHOX) Campaign was performed in spring 2007 and summer 2008 to in...
The Greenland Summit Halogen-HO(x) (GSHOX) Campaign was performed in spring 2007 and summer 2008 to ...
This study explores the role of snowpack in polar boundary layer chemistry, especially as a di-rect ...
International audienceThe chemical composition of the boundary layer in snow covered regions is impa...
The chemical composition of the boundary layer in snow covered regions is impacted by chemistry in t...
Sun-lit snow is increasingly recognized as a chemical reactor that plays an active role in uptake, t...
Levels of OH and peroxy radicals in the atmospheric boundary layer at Summit, Greenland, a locations...
International audienceSun-lit snow is increasingly recognized as a chemical reactor that plays an ac...
International audienceReactive chlorine and bromine species emitted from snow and aerosols can signi...
Levels of OH and peroxy radicals in the atmospheric boundary layer at Summit, Greenland, a location ...
International audienceFrom 10 May through 17 June 2007 and 6 June through 9 July 2008 intensive samp...
From 10 May through 17 June 2007 and 6 June through 9 July 2008 intensive sampling campaigns at Summ...
Elevated levels of reactive bromine and chlorine species in the springtime Arctic boundary layer con...
Atmospheric hydroperoxides (ROOH) were measured at Summit, Greenland (72.97° N, 38.77° W) in summer ...
The Greenland Summit Halogen-HOx (GSHOX) Campaign was performed in spring 2007 and summer 2008 to in...
The Greenland Summit Halogen-HO(x) (GSHOX) Campaign was performed in spring 2007 and summer 2008 to ...
This study explores the role of snowpack in polar boundary layer chemistry, especially as a di-rect ...