McMurdo LTER Publications

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W. Lyons B, Laybourn-Parry J, Welch KA, Priscu JC. Antarctic lake systems and climate change. In: Bergstrom DM, Convey P, Huiskes AHL Trends in Antarctic Terrestrial and Limnetic Ecosystems: Antarctica as a Global Indicator. Trends in Antarctic Terrestrial and Limnetic Ecosystems: Antarctica as a Global Indicator. Dordrecht, The Netherlands: S; 2006. doi:LTER.
Priscu JC, Fritsen CH. Antarctic lake-ice microbial consortia: Origin, distribution, and growth physiology. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):223-224.
Hall BL, Denton GH, Fountain AG, Hendy CH, Henderson GM. Antarctic lakes suggest millennial reorganizations of Southern Hemisphere atmospheric and oceanic circulation. Proceedings of the National Academy of Sciences. 2010;107(50):21355 - 21359. doi:10.1073/pnas.1007250107.
Gooseff MN, McKnight DM, Carr MH, Baeseman J. Antarctic McMurdo Dry Valley stream ecosystems as analog to fluvial systems on Mars. In: Doran PT, W. Lyons B, McKnight DM Life in Antarctic Deserts and other Cold Dry Environments. Life in Antarctic Deserts and other Cold Dry Environments. Cambridge: Cambridge University Press; 2010:139 - 159. doi:10.1017/CBO9780511712258.005.
Sumner DY, Hawes I, Mackey TJ, Jungblut AD, Doran PT. Antarctic microbial mats: A modern analog for Archean lacustrine oxygen oases. Geology. 2015:G36966.1. doi:10.1130/G36966.1.
Nielsen UN, Wall DH, Adams B, Virginia RA. Antarctic nematode communities: observed and predicted responses to climate change. Polar Biology. 2011;34(11):1701 - 1711. doi:10.1007/s00300-011-1021-2.
Adhikari BN, Tomasel CM, Li G, Wall DH, Adams B. The Antarctic Nematode Plectus murrayi: An Emerging Model to Study Multiple Stress Survival. Cold Spring Harbor Protocols. 2010;2010(11):pdb.emo142 - pdb.emo142. doi:10.1101/pdb.emo142.
Doran PT, Wharton, Jr. RA, DesMarais DJ, McKay CP. Antarctic paleolake sediments and the search for extinct life on Mars. Journal of Geophysical Research-Planets. 1998;103(E12):28481-28493. doi:10.1029/98JE01713.
Hodgson D, Gibson JAE, Doran PT. Antarctic Paleolimnology. In: Pienitz R, Douglas MSV, Smol JP Long-Term Environmental Change in Arctic and Antarctic Lakes. Long-Term Environmental Change in Arctic and Antarctic Lakes. Kluwer Academic Publishers; 2004.
Cook G, Teufel A, Kalra I, et al. The Antarctic psychrophiles Chlamydomonas spp. UWO241 and ICE-MDV exhibit differential restructuring of photosystem I in response to iron. Photosynthesis Research. 2019;9(2). doi:10.1007/s11120-019-00621-0.
W. Lyons B, Dailey KR, Welch KA, Deuerling KM, Welch S, McKnight DM. Antarctic streams as a potential source of iron for the Southern Ocean: Figure 1. Geology. 2015;43(11):1003 - 1006. doi:10.1130/G36989.1.
Priscu JC, Tulaczyk S, Studinger M, Kenicutt M, Christner BC, Foreman CM. Antarctic subglacial water: origin, evolution, and ecology. In: Polar Lakes and Rivers: Limnology of Arctic and Antarctic Aquatic Ecosystems. Polar Lakes and Rivers: Limnology of Arctic and Antarctic Aquatic Ecosystems. Oxford: Oxford University Press; 2008.
Czechowski P, Sands CJ, Adams B, et al. Antarctic Tardigrada: a first step in understanding molecular operational taxonomic units (MOTUs) and biogeography of cryptic meiofauna. Invertebrate Systematics. 2012;26(6):526. doi:10.1071/IS12034.
Hogg ID, Stevens MI, Wall DH. Antarctic Terrestrial Microbiology : Invertebrates. In: Cowan DA Berlin, Heidelberg: Springer Berlin Heidelberg; 2014:55 - 78. doi:10.1007/978-3-642-45213-0_4.
Gutt J, Adams B, Bracegirdle T, et al. Antarctic Thresholds - Ecosystem Resilience and Adaptation (AnT-ERA), a new SCAR-biology programme. Polarforschung. 2013;82:147-150. Available at: http://epic.awi.de/34238/1/Polarforschung_82-2_147-150.pdf.
George SF, Fierer N, Levy JS, Adams B. Antarctic water tracks: Microbial community responses to variation in soil moisture, pH, and salinity. Frontiers in Microbiology. 2021;12. doi:10.3389/fmicb.2021.616730.
Xue X, Thompson AR, Adams BJ. An Antarctic worm and its soil ecosystem: A review of an emerging research program in ecological genomics. Applied Soil Ecology. 2024;193:105110. doi:10.1016/j.apsoil.2023.105110.
Mayer A. Antarctica during the Pandemic: Scaled-back field season prioritizes infrastructure, precious climate data. BioScience. 2021;71(5):434 - 440. doi:10.1093/biosci/biab031.
Pletzer T, Conway JP, Cullen NJ, Eidhammer T, Katurji M. The application and modification of WRF-Hydro/Glacier to a cold-based Antarctic glacier. Hydrology and Earth System Sciences. 2024;28(3):459 - 478. doi:10.5194/hess-28-459-2024.
Leslie DL, W. Lyons B. The application of stable isotopes, δ11B, δ18O, and δD, in geochemical and hydrological investigations. Geological Sciences. 2013;Ph.D. Available at: http://rave.ohiolink.edu/etdc/view?acc_num=osu1386000037.
McKnight DM, Andrews ED, Spaulding SA, Aiken GR. Aquatic fulvic acids in algal-rich antarctic ponds. Limnology and Oceanography. 1994;39(8):1972-1979.
Doran PT, Adams P, Ecclestone M. Arctic and Antarctic lakes: contrast or continuum?. In: Poles Apart: A Study in Contrasts. Poles Apart: A Study in Contrasts. University of Ottawa Press; 1999:59-68.
Langford ZL, Gooseff MN. Are the Dry Valleys getting wetter? A preliminary assessment of wetness across the McMurdo Dry Valleys landscape. Department of Civil & Environmental Engineering. 2013;M.S. Available at: https://etda.libraries.psu.edu/catalog/17364.
Magalhaes C, Stevens MI, Cary CS, et al. At Limits of Life: Multidisciplinary Insights Reveal Environmental Constraints on Biotic Diversity in Continental Antarctica. de Bello F. PLoS ONE. 2012;7(9):e44578. doi:10.1371/journal.pone.0044578.
Winslow LA, Dugan HA, Buelow HN, et al. Autonomous Year-Round Sampling and Sensing to Explore the Physical and Biological Habitability of Permanently Ice-Covered Antarctic Lakes. Marine Technology Society Journal. 2014;48(5):8 - 17. doi:10.4031/MTSJ.48.5.6.

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