par Zhou, Jiayun 
;Delille, Bruno ;Brabant, Frédéric ;Tison, Jean-Louis
Référence Biogeosciences, 11, page (5007-5020)
Publication Publié, 2014-09-18
;Delille, Bruno ;Brabant, Frédéric ;Tison, Jean-Louis Référence Biogeosciences, 11, page (5007-5020)
Publication Publié, 2014-09-18
Article révisé par les pairs
| Résumé : | We present and compare the dynamics (i.e., changes in standing stocks, saturation levels and concentrations) of O2, Ar and N2 in landfast sea ice, collected in Barrow (Alaska), from February through June 2009. The comparison suggests that the dynamic of O2in sea ice strongly depends on physical processes (gas incorporation and subsequent transport). Since Ar and N2 are only sensitive to the physical processes in the present study, we then discuss the use of O2/Ar and O2/N2 to correct for the physical contribution to O2supersaturations, and to determine the net community production (NCP). We conclude that O2/Ar suits better than O2/N2, due to the relative abundance of O2, N2 and Ar, and the lower biases when gas bubble formation and gas diffusion are maximized. We further estimate NCP in the impermeable layers during ice growth, which ranged from g '6.6 to 3.6 1/4mol O2Lg'1 dg'1, and the concentrations of O2due to biological activity in the permeable layers during ice decay (3.8 to 122 1/4mol O2Lg'1). We finally highlight the key issues to solve for more accurate NCP estimates in the future. |
