McMurdo LTER Publications
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Bacteria and diatom co-occurrence patterns in microbial mats from polar desert streams. Environmental Microbiology. 2012. doi:10.1111/j.1462-2920.2012.02872.x.
. Bacteria in Subglacial Environments. In: Psychrophiles: from biodiversity to biotechnology. Psychrophiles: from biodiversity to biotechnology. New York: Springer Verlag; 2008:51-71.
. Bacterial community composition of divergent soil habitats from a polar desert. FEMS Microbiology Ecology. 2014;89(2):490-494. doi:10.1111/1574-6941.12306.
. Bacterial Community Structure Along Moisture Gradients in the Parafluvial Sediments of Two Ephemeral Desert Streams. Microbial Ecology. 2011;61(3):543 - 556. doi:10.1007/s00248-010-9782-7.
. Bacterial dissolved organic carbon demand in antarctic dry valley lakes. Limnology and Oceanography. 2001;46(7):1189-1194. doi:10.4319/lo.2001.46.5.1189.
. Bacterial diversity associated with Blood Falls, A subglacial outflow from the Taylor Glacier, Antarctica. Applied and Environmental Microbiology. 2007;73:4029-4039. doi:LTER.
. Bacterial growth in Antarctic lakes: The role of phytoplankton extracellular release. Bacterial growth in Antarctic lakes: The role of phytoplankton extracellular. 1996.
. Bacteriophage in polar inland waters. Extremophiles. 2008;12:167-175. doi:LTER.
. Bacterioplakton dynamics in stratified lakes of the Taylor Valley, Antarctica during the transition to polar night. Land Resources & Environmental Sciences. 2010;M.S.:83. Available at: https://scholarworks.montana.edu/xmlui/handle/1/2477.
. Bacterioplankton dynamics in the McMurdo Dry Valley lakes, Antarctica: Production and biomass loss over four seasons. Microbial Ecology. 1998;36(3):239-250.
. Bacterioplankton productivity in lakes of the Taylor Valley, Antarctica, during the polar night transition. Aquatic Microbial Ecology. 2012;68(1):77 - 90. doi:10.3354/ame01604.
. The balance between photosynthesis and grazing in Antarctic mixotrophic cryptophytes during summer. Freshwater Biology. 2002;47:2060-2070.
. Barium and barite dynamics in Antarctic streams. Geology. 2018;46(9):811 - 814. doi:10.1130/G45048.1.
Barotropic seiches in a perennially ice-covered lake, East Antarctica. Limnology and Oceanography Letters. 2022;7(1):26 - 33. doi:10.1002/lol2.10226.
. Basic Principles in ecosystem functioning. In: Encyclopedia of Biodiversity.Vol 2. Encyclopedia of Biodiversity. Academic Press; 2001:345-352.
. Benthic primary production in two perennially ice-covered Antarctic lakes: comparisons of annual accumulation predicted from photosynthesis models with estimates from internal growth markers. Antarctic Science. 2001;13:18-27.
. Better together? The values, obstacles, opportunities, and prospects for collaborative research in environmental history. Environmental History. 2023;28(2):269 - 299. doi:10.1086/723784.
. Biochemistry of Si in the McMurdo Dry Valley lakes, Antarctica. The International Journal of Astrobiology. 2003;1:737-749.
. Biodiversity above and below the surface of soils and sediments: linkages and implications for global change. Bioscience. 2000;50:1043-1048. doi:10.1641/0006-3568(2000)050[1043:BAABTS]2.0.CO;2.
. The Biodiversity and Biogeochemistry of Cryoconite Holes from McMurdo Dry Valley Glaciers, Antarctica. Arctic, Antarctic, and Alpine Research. 2004;36(1):84-91.
. Biodiversity and Ecosystem Functioning. Bioscience. 1999;(49):107-108. doi:LTER.
. Biodiversity and Ecosystem Functioning in Soil. . Ambio. 1997;26(8):563-570.
. Biodiversity and ecosystem functioning in terrestrial habitats of Antarctica. Antarctic Science. 2005;17(4):523-531. doi:10.1017/S0954102005002944.
. Biodiversity in critical transition zones between terrestrial freshwater and marine soils and sediments: processes, linkages, and management implications. Ecosystems. 2001;4:418-420.
. The biogeochemical evolution of cryoconite holes on glaciers in Taylor Valley, Antarctica. Journal of Geophysical Research. 2007;113:G04S35. doi:LTER.