AUTHOR=Spolaor Andrea , Moroni Beatrice , Luks Bartłomiej , Nawrot Adam , Roman Marco , Larose Catherine , Stachnik Łukasz , Bruschi Federica , Kozioł Krystyna , Pawlak Filip , Turetta Clara , Barbaro Elena , Gallet Jean-Charles , Cappelletti David 

TITLE=Investigation on the Sources and Impact of Trace Elements in the Annual Snowpack and the Firn in the Hansbreen (Southwest Spitsbergen)

JOURNAL=Frontiers in Earth Science

VOLUME=8

YEAR=2021

URL=https://www.frontiersin.org/journals/earth-science/articles/10.3389/feart.2020.536036

DOI=10.3389/feart.2020.536036

ISSN=2296-6463

ABSTRACT=<p>We present a thorough evaluation of the water soluble fraction of the trace element composition (Ca, Sr, Mg, Na, K, Li, B, Rb, U, Ni, Co, As, Cs, Cd, Mo, Se, Eu, Ba, V, Ge, Ga, Cr, Cr, P, Ti, Mn, Zr, Ce, Zn, Fe, Gd, Y, Pb, Bi, Yb, Al, Nb, Er, Nd, Dy, Sm, Ho, Th, La, Lu, Tm, Pr, Tb, Fe, In, Tl) and their fluxes in the annual snowpack and the firn of the Hansbreen (a tidewater glacier terminating in the Hornsund fjord, southwest Spitsbergen). The trace element samples were obtained from a 3 m deep snow pit dug at the plateau of the glacier (450 m a.s.l.), and from a 2 m deep firn core collected from the bottom of the snow pit. The comparison of elemental fluxes and enrichment factors allowed us to constrain specific summer and wintertime deposition patterns of water soluble trace elements in the southern part of the Svalbard archipelago. Our results suggest that the chemical composition of the Hansbreen (and likely other glaciers where the summit is close to the equilibrium line) is mainly affected by summertime deposition of trace elements from local sources and some volatile elements, which may be transported into the Arctic when polar vortex is weak. The melting of the annual snowpack seems to have a minor influence on the overall chemical signature of the glacier ice.</p>