McMurdo LTER Publications

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Thompson AR, Powell GS, Adams B. Provisional checklist of terrestrial heterotrophic protists from Antarctica. Antarctic Science. 2019. doi:10.1017/S0954102019000361.
Warnock JP. Provenance of organic matter in Taylor Valley, Antarctica lakes: Scanning Electron Microscopy of sediment. 2008;M.S. doi:LTER.
James MR, Hall JA, Laybourn-Parry J. Protozooplankton and Microzooplankton Ecology in Lakes of the Dry Valleys, Southern Victoria Land. In: Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.Vol 72. Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.; 1998:255-267.
Laybourn-Parry J, Bell ER, Roberts EC. Protozoan growth rates in Antarctic lakes. Polar Biology. 2000;23:445-451.
Bielewicz S, Bell ER, Kong W, Friedberg I, Priscu JC, Morgan-Kiss RM. Protist diversity in a permanently ice-covered Antarctic Lake during the polar night transition. The ISME Journal. 2011;5(9):1559 - 1564. doi:10.1038/ismej.2011.23.
Downes MT, Priscu JC. Profiles of electrode potential and dissolved oxygen in lakes of the McMurdo Dry Valleys. Antarctic Journal of the U.S. 1995;30:305-307.
Geyer KM, Takacs-Vesbach CD, Gooseff MN, Barrett JE. Primary productivity as a control over soil microbial diversity along environmental gradients in a polar desert ecosystem. PeerJ. 2017;5(10):e3377. doi:10.7717/peerj.3377.
Hawes I, Howard-Williams C. Primary Production Processes in Streams of the McMurdo Dry Valleys, Antarctica. In: Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.Vol 72. Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.; 1998:129-140.
Castendyk D, McKnight DM, Welch KA, Niebuhr S, Jaros C. Pressure-driven, shoreline currents in a perennially ice-covered, pro-glacial lake in Antarctica, identified from a LiCl tracer injected into a pro-glacial stream. Hydrological Processes. 2015;29(9):2212 - 2231. doi:10.1002/hyp.v29.910.1002/hyp.10352.
Obryk MK, Doran PT, Priscu JC. Prediction of ice-free conditions for a perennially ice-covered Antarctic lake. Journal of Geophysical Research: Earth Surface. 2019;124(2). doi:10.1029/2018JF004756.
Barrett JE, Virginia RA, Parsons AN, Wall DH. Potential soil organic matter turnover in Taylor Valley, Antarctica. Arctic, Antarctic, and Alpine Research. 2005;37(1):108-117. doi:10.1657/1523-0430(2005)037[0108:PSOMTI]2.0.CO;2.
McKnight DM, Andrews ED. Potential hydrologic and geochemical consequences of the 1992 merging of Lake Chad with Lake Hoare in Taylor Valley. Antarctic Journal of the U.S. 1993;28(5):249-251.
McKnight DM, Cozzetto K, Cullis JDS, et al. Potential for real-time understanding of coupled hydrologic and biogeochemical processes in stream ecosystems: Future integration of telemetered data with process models for glacial meltwater streams. Water Resources Research. 2015;51(8):6725 - 6738. doi:10.1002/2015WR017618.
Ngugi DKamanda, Salcher MM, Andrei A-S, et al. Postglacial adaptations enabled colonization and quasi-clonal dispersal of ammonia-oxidizing archaea in modern European large lakes. Science Advances. 2023;9(5):eadc9392. doi:10.1126/sciadv.adc9392.
Porazinska D, Wall DH, Virginia RA. Population age structure of nematodes in the Antarctic Dry Valleys: perspectives on time, space, and habitat suitability. Arctic,Antarctic, and Alpine Research. 2002;34:159-168.
Chapin FS, McGuire A, Nuttall M, et al. Polar Systems. In: Hassan R, Scholes R, Ash N Millennium Ecosystem Assessment. Current State and Trends: Findings of the Condition and Trends Working Group. Millennium Ecosystem Assessment. Current State and Trends: Findings of the Condition and Trends Working Group. Island Press; 2005:717-743. doi:LTER.
Post E, Alley RB, Christensen TR, et al. The polar regions in a 2°C warmer world. Science Advances. 2019;5(12):eaaw9883. doi:10.1126/sciadv.aaw9883.
Howkins A. The Polar Regions: An Environmental History. Cambridge: Polity; 2015:248. Available at: http://www.wiley.com/WileyCDA/WileyTitle/productCd-0745670806.html.
Laybourn-Parry J. Polar Limnology - the past, the present, and the future. Review in the SCAR VIII International Biology Symposium Proceedings. In: Antarctic Biology in a global context. Antarctic Biology in a global context.; 2003.
McKay CP, Andersen DT, Pollard W, et al. Polar lakes, streams, and springs as analogs for the hydrological cycle on Mars. In: Advances in Astrobiology and Biogeophysics. Advances in Astrobiology and Biogeophysics. Berlin, Heidelberg: Springer Verlag; 2005:219-233. doi:LTER.
Priscu JC, Laybourn-Parry J, Häggblom M. Polar and alpine microbiology in a changing world. FEMS Microbiology Ecology. 2014;89(2):209 - 210. doi:10.1111/fem.2014.89.issue-210.1111/1574-6941.12371.
Febretti A, Richmond K, Gulati S, et al. Poisson Reconstruction of Extreme Submersed Environments: The ENDURANCE Exploration of an Under-Ice Antarctic Lake. (Bebis G, Boyle R, Parvin B, et al.). Berlin, Heidelberg: Springer Berlin Heidelberg; 2012:394 - 403. doi:10.1007/978-3-642-33179-4_38.
Priscu JC. Plankton Dynamics in the McMurdo Dry Valley Lakes During the Transition to Polar Night - A Project Contributing to EBA. SCAR EBA (Evolution and Biodiversity in the Antarctic) Newsletter, October 2008. 2008;2(3). doi:LTER.
Howkins A. Placing the past: The McMurdo Dry Valleys and the problem of geographical specificity in Antarctic history. In: Anthropocene Antarctica: Perspectives from the Humanities, Law and Social Sciences. 1stst ed. Anthropocene Antarctica: Perspectives from the Humanities, Law and Social Sciences. London: Routledge; 2019. doi:10.4324/9780429429705.
Lizotte MP, Priscu JC. Pigment Analysis of the Distribution, Succession, and Fate of Phytoplankton in the McMurdo Dry Valley Lakes of Antarctica. In: Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.Vol 72. Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica.; 1998:229-239.

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