McMurdo LTER Publications

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Book Chapter
Welch KA, W. Lyons B, McKnight DM, et al. Climate and hydrologic variations and implications for lake and stream ecological response in the McMurdo Dry Valleys, Antarctica. In: Greenland D, Goodin DG, Smith RC Climate Variability and Ecosystem Response at Long Term Ecological Research Sites. Climate Variability and Ecosystem Response at Long Term Ecological Research Sites. Oxford University Press; 2000:174-195.
Hawes I, Sumner DY, Jungblut AD. Complex Structure but Simple Function in Microbial Mats from Antarctic Lakes. In: Hurst CJ The Structure and Function of Aquatic Microbial Communities. The Structure and Function of Aquatic Microbial Communities. Cham: Springer International Publishing; 2019:91 - 120. doi:10.1007/978-3-030-16775-2_4.
Freckman DW, Reichman O. Experimental Approaches to Investigate Belowground Animal Diversity. In: Sala OE, Jackson R, Mooney H, Howarth R Methods in Ecosystem Science. Methods in Ecosystem Science. New York: Springer Verlag; 2000:318-329.
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.
Blair JM, Bohlen PJ, Freckman DW. Soil invertebrates as indicators of soil quality. In: Doran JW, Jones AJ Methods for assessing soil quality. Methods for assessing soil quality. Madison, WI: Soil Science Society of America; 1996.
Wardle D, Brown VK, Behan-Pelletier V, et al. Vulnerability to global change of ecosystem goods and services driven by soil biota. In: Wall DH Sustaining Biodiversity and Ecosystem Services in Soil and Sediments. Sustaining Biodiversity and Ecosystem Services in Soil and Sediments. Island Press; 2004:101-136.
Journal Article
Samarkin VA, Madigan MT, Bowles MW, et al. Abiotic nitrous oxide emission from the hypersaline Don Juan Pond in Antarctica. Nature Geoscience. 2010;3(5):341 - 344. doi:10.1038/ngeo847.
Hall BL, Denton GH, Heath SL, Jackson MS, Koffman TNB. Accumulation and marine forcing of ice dynamics in the western Ross Sea during the last deglaciation. Nature Geoscience. 2015;8(8):625 - 628. doi:10.1038/ngeo2478.
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.
Wadham JL, Tranter M, Skidmore M, et al. Biogeochemical weathering under ice: Size matters. Global Biogeochemical Cycles. 2010;24(3). doi:10.1029/2009GB003688.
Lee CK, Laughlin DC, Bottos EM, et al. Biotic interactions are an unexpected yet critical control on the complexity of an abiotically driven polar ecosystem. Communications Biology. 2019;2(1). doi:10.1038/s42003-018-0274-5.
Lee CK, Laughlin DC, Bottos EM, et al. Biotic interactions are an unexpected yet critical control on the complexity of an abiotically driven polar ecosystem. Communications Biology. 2019;2(1). doi:10.1038/s42003-018-0274-5.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
Cawley KM, McKnight DM, Miller PL, et al. Characterization of fulvic acid fractions of dissolved organic matter during ice-out in a hyper-eutrophic, coastal pond in Antarctica. Environmental Research Letters. 2013;8(4):045015. doi:10.1088/1748-9326/8/4/045015.
Singley JG, Wlostowski A, Bergstrom AJ, et al. Characterizing hyporheic exchange processes using high-frequency electrical conductivity-discharge relationships on subhourly to interannual timescales. Water Resources Research. 2017;53(5):4124 - 4141. doi:10.1002/wrcr.v53.510.1002/2016WR019739.
Barletta RE, Priscu JC, Mader HM, Jones WL, Roe CH. Chemical analysis of ice vein microenvironments: II. Analysis of glacial samples from Greenland and Antarctica. Journal of Glaciology. 2012;58(212):1109 - 1118. doi:10.3189/2012JoG12J112.
Kalra I, Wang X, Cvetkovska M, et al. Chlamydomonas sp. UWO 241 exhibits high cyclic electron flow and rewired metabolism under high salinity. Plant Physiology. 2020. doi:10.1104/pp.19.01280.
Thompson LR, Sanders JG, McDonald D, et al. A communal catalogue reveals Earth’s multiscale microbial diversity. Nature. 2017;551. doi:10.1038/nature24621.

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