Geochemistry of streams from Byers Peninsula, Livingston Island

Abstract In January and February 2009, a series of water samples were collected from streams on Byers Peninsula. These samples were analysed for major elements and δ 18 O to determine the role of lithology and landscape position on stream geochemistry, and to understand better the hydrology (i.e. re...

Full description

Bibliographic Details
Published in:Antarctic Science
Main Authors: Lyons, W. Berry, Welch, K.A., Welch, S.A., Camacho, A., Rochera, C., Michaud, L., deWit, R., Carey, A.E.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 2013
Subjects:
Antarctic Science
Livingston Island
Online Access:http://dx.doi.org/10.1017/s0954102012000776
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0954102012000776
Description
Summary:Abstract In January and February 2009, a series of water samples were collected from streams on Byers Peninsula. These samples were analysed for major elements and δ 18 O to determine the role of lithology and landscape position on stream geochemistry, and to understand better the hydrology (i.e. residence time of water) of these systems. Precipitation chemistry is enriched in Na + , as are the streams located close to the coast. Streams originating from inland locations have much higher percentages of Ca 2+ . In contrast, Mg 2+ varied little, though streams that are in greater contact with volcanic-derived soils have slightly higher concentrations. Anion percentages varied greatly between streams with SO 4 2- ranging from 5% to 45% of the anion composition. Dissolved Si concentrations as high as 141 μM were observed. All these data suggest that active chemical weathering is occurring in this region. A time series over 13 days at one stream showed little variation in major element geochemistry. The δ 18 O of precipitation samples collected over this same period varied by ∼10‰ while the majority of stream samples varied less than ∼1.5‰. These data indicate that the stream waters represent mixtures of precipitation events, melting snow and water from the subsurface that had gained solutes through chemical weathering.

Similar Items