Stratigraphy of Lake Vida, Antarctica: hydrologic implications of 27 m of ice

Abstract. Lake Vida, located in Victoria Valley, is one of the largest lakes in the McMurdo dry valleys and is known to contain hypersaline liquid brine sealed below 16 m of freshwater ice. For the first time, Lake Vida was drilled to a depth of 27 m. Below 21 m the ice is marked by well-sorted sand layers up to 20 cm thick within a matrix of salty ice. From ice chemistry, isotopic composition of δ18O and δ2H, and ground penetrating radar profiles, we conclude that the entire 27 m of ice formed from surface runoff and the sediment layers represent the accumulation of surface deposits. Radiocarbon and optically stimulated luminescence dating limit the maximum age of the lower ice to 6300 14C yr BP. As the ice cover ablated downwards during periods of low surface inflow, progressive accumulation of sediment layers insulated and preserved the ice and brine beneath, analogous to the processes that preserve shallow ground ice. The repetition of these sediment layers reveals hydrologic variability in Victoria Valley during the mid- to late Holocene. Lake Vida is an exemplar site for understanding the preservation of subsurface brine, ice, and sediment in a cold desert environment.

[1]  H. Dugan,et al.  Subsurface imaging reveals a confined aquifer beneath an ice‐sealed Antarctic lake , 2015 .

[2]  P. Doran,et al.  Radiocarbon distribution and the effect of legacy in lakes of the McMurdo Dry Valleys, Antarctica , 2014 .

[3]  P. Doran,et al.  Micro-hole and multigrain quartz luminescence dating of Paleodeltas at Lake Fryxell, McMurdo Dry Valleys (Antarctica), and relevance for lake history , 2013 .

[4]  L. Stanish,et al.  Environmental factors influencing diatom communities in Antarctic cryoconite holes , 2013 .

[5]  J. Heldmann,et al.  Excess ground ice of condensation–diffusion origin in University Valley, Dry Valleys of Antarctica: Evidence from isotope geochemistry and numerical modeling , 2013 .

[6]  J. Head,et al.  Accelerated thermokarst formation in the McMurdo Dry Valleys, Antarctica , 2013, Scientific Reports.

[7]  H. Dugan,et al.  Lake ice ablation rates from permanently ice-covered Antarctic lakes , 2013, Journal of Glaciology.

[8]  L. Nedbalová,et al.  Diversity, ecology and biogeography of the freshwater diatom communities from Ulu Peninsula (James Ross Island, NE Antarctic Peninsula) , 2013, Polar Biology.

[9]  B. Vaughn,et al.  Glaciers of the Mcmurdo Dry Valleys, Southern Victoria Land, Antarctica , 2013 .

[10]  Adrian Ponce,et al.  Microbial life at −13 °C in the brine of an ice-sealed Antarctic lake , 2012, Proceedings of the National Academy of Sciences.

[11]  C. Schultz Antarctic subglacial aquatic environments , 2012 .

[12]  P. Kushner,et al.  Signatures of the Antarctic ozone hole in Southern Hemisphere surface climate change , 2011 .

[13]  L. Arnold,et al.  Paper I – Optically stimulated luminescence (OSL) dating of perennially frozen deposits in north‐central Siberia: OSL characteristics of quartz grains and methodological considerations regarding their suitability for dating , 2011 .

[14]  P. Doran,et al.  The Holocene environmental history of Lake Hoare, Taylor Valley, Antarctica, reconstructed from sediment cores , 2011, Antarctic Science.

[15]  Christopher P McKay,et al.  The search for life in our Solar System and the implications for science and society , 2011, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[16]  C. McKay,et al.  Stability of massive ground ice bodies in University Valley, McMurdo Dry Valleys of Antarctica: Using stable O-H isotope as tracers of sublimation in hyper-arid regions , 2011 .

[17]  H. Meyer,et al.  Origin and characteristics of massive ground ice on Herschel Island (western Canadian Arctic) as revealed by stable water isotope and Hydrochemical signatures , 2011 .

[18]  P. Doran,et al.  Single-grain and multigrain luminescence dating of on-ice and lake-bottom deposits at Lake Hoare, Taylor Valley, Antarctica , 2010 .

[19]  G. Henderson,et al.  Antarctic lakes suggest millennial reorganizations of Southern Hemisphere atmospheric and oceanic circulation , 2010, Proceedings of the National Academy of Sciences.

[20]  Andrew J. Monaghan,et al.  Snow in the McMurdo Dry Valleys, Antarctica , 2010 .

[21]  D. Mctigue,et al.  Ground ice recharge via brine transport in frozen soils of Victoria Valley, Antarctica: insights from modeling δ18O and δD profiles. , 2010 .

[22]  S. Sokratov,et al.  Snow isotopic content change by sublimation , 2009, Journal of Glaciology.

[23]  C. Ramsey,et al.  Optically stimulated luminescence dating of single and multiple grains of quartz from perennially frozen loess in western Yukon Territory, Canada: Comparison with radiocarbon chronologies for the late Pleistocene Dawson tephra , 2008 .

[24]  D. Neil,et al.  Meteorological controls on sand transport and dune morphology in a polar‐desert: Victoria Valley, Antarctica , 2008 .

[25]  Diana H. Wall,et al.  Persistent effects of a discrete warming event on a polar desert ecosystem , 2008 .

[26]  S. Fitzsimons,et al.  Dynamic implications of discontinuous recrystallization in cold basal ice: Taylor Glacier, Antarctica , 2008 .

[27]  S. Spaulding,et al.  Holocene depositional environments and surface-level changes at Lake Fryxell, Antarctica , 2008 .

[28]  C. McKay,et al.  Hydrologic response to extreme warm and cold summers in the McMurdo Dry Valleys, East Antarctica , 2008, Antarctic Science.

[29]  B. Hallet,et al.  Sublimation and ice condensation in hyperarid soils: Modeling results using field data from Victoria Valley, Antarctica , 2007 .

[30]  A. Fountain,et al.  Solute and isotope geochemistry of subsurface ice melt seeps in Taylor Valley, Antarctica , 2007 .

[31]  H. French,et al.  Observations on buried glacier ice and massive segregated ice, western arctic coast, Canada , 2007 .

[32]  Phillip P. Allen,et al.  Glacial and postglacial sedimentation in the Fryxell basin, Taylor Valley, southern Victoria Land, Antarctica , 2006 .

[33]  B. Vaughn,et al.  A Stable Isotopic Investigation of a Polar Desert Hydrologic System, McMurdo Dry Valleys, Antarctica , 2006 .

[34]  B. Hall,et al.  The radiocarbon reservoir effect in proglacial lakes: Examples from Antarctica , 2006 .

[35]  P. Grootes,et al.  14C-AMS at the Leibniz-Labor: radiometric dating and isotope research , 2004 .

[36]  A. Murray,et al.  The single aliquot regenerative dose protocol: potential for improvements in reliability , 2003 .

[37]  A. Frolov A review of the nature and geophysical studies of the thick permafrost in Siberia: Relevance to exploration on Mars , 2003 .

[38]  Christopher P. McKay,et al.  Valley floor climate observations from the McMurdo dry valleys, Antarctica, 1986–2000 , 2002 .

[39]  Christopher P. McKay,et al.  Formation and character of an ancient 19-m ice cover and underlying trapped brine in an “ice-sealed” east Antarctic lake , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[40]  G. Denton,et al.  Glacial Lake Victoria, a high‐level Antarctic Lake inferred from lacustrine deposits in Victoria Valley , 2002 .

[41]  G. Henderson,et al.  Use of uranium–thorium dating to determine past 14C reservoir effects in lakes: examples from Antarctica , 2001 .

[42]  P. Doran,et al.  Luminescence-dating zeroing tests in Lake Hoare, Taylor Valley, Antarctica , 2001 .

[43]  C. Hendy The role of polar lake ice as a filter for glacial lacustrine sediments , 2000 .

[44]  G. Denton,et al.  Radiocarbon chronology of ross sea drift, eastern taylor valley, antarctica: evidence for a grounded ice sheet in the ross sea at the last glacial maximum , 2000 .

[45]  P. Mayewski,et al.  Wisconsinan and holocene climate history from an ice core at taylor dome, western ross embayment, antarctica , 2000 .

[46]  J. Southon,et al.  Dating Quaternary lacustrine sediments in the McMurdo Dry Valleys, Antarctica , 1999 .

[47]  S. Tyler,et al.  A Late Holocene desiccation of Lake Hoare and Lake Fryxell, McMurdo Dry Valleys, Antarctica , 1998, Antarctic Science.

[48]  C P McKay,et al.  Perennial Antarctic lake ice: an oasis for life in a polar desert. , 1998, Science.

[49]  P. Mayewski,et al.  Abrupt Early to Mid-Holocene climatic transition registered at the equator and the poles , 1997 .

[50]  G. Aiken,et al.  Effects of glacial meltwater inflows and moat freezing on mixing in an ice‐covered antarctic lake as interpreted from stable isotope and tritium distributions , 1996 .

[51]  L. D. Meeker,et al.  Climate Change During the Last Deglaciation in Antarctica , 1996, Science.

[52]  D. Andersen,et al.  Changes in ice cover thickness and lake level of Lake Hoare, Antarctica: implications for local climatic change. , 1992, Journal of geophysical research.

[53]  H. Burton,et al.  Meromixis in an antarctic fjord: a precursor to meromictic lakes on an isostatically rising coastline , 1989, Hydrobiologia.

[54]  S. Squyres,et al.  Thickness of ice on perennially frozen lakes , 1985, Nature.

[55]  A. T. Wilson Evidence from Chemical Diffusion of a Climatic Change in the McMurdo Dry Valleys 1,200 Years Ago , 1964, Nature.

[56]  C. Wentworth A Scale of Grade and Class Terms for Clastic Sediments , 1922, The Journal of Geology.

[57]  R. Scherer,et al.  A revised method for determining the absolute abundance of diatoms , 2014, Journal of Paleolimnology.

[58]  D. Wall,et al.  Extreme streams: flow intermittency as a control on diatom communities in meltwater streams in the McMurdo Dry Valleys, Antarctica 1 , 2012 .

[59]  R. Bindschadler,et al.  Antarctic subglacial aquatic enviroments , 2011 .

[60]  J. Horita Isotopic Evolution of Saline Lakes in the Low-Latitude and Polar Regions , 2009 .

[61]  S. Arcone,et al.  GPR reflection profiles of Clark and Commonwealth Glaciers, Dry Valleys, Antarctica , 2009, Annals of Glaciology.

[62]  Z. Courville,et al.  Experimental determination of snow sublimation rate and stable-isotopic exchange , 2008, Annals of Glaciology.

[63]  J. McConnell,et al.  The SideWinder for powering a hand-coring auger in drilling and lifting , 2007, Annals of Glaciology.