McMurdo LTER Publications

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Kudalkar PS, Priscu JC. Physiological characteristics of fungi associated with Antarctic environments. Land Resources and Environmental Sciences. 2016;M.S. Available at: https://scholarworks.montana.edu/xmlui/handle/1/9835.
Teufel AG, Morgan-Kiss RM. Physiological and Biochemical Adaptations of Psychrophiles. In: Extremophiles. Extremophiles. Boca Raton: CRC Press; 2018. Available at: https://www.taylorfrancis.com/books/e/9781498774932/chapters/10.1201%2F9781315154695-9.
Herbei R, W. Lyons B, Laybourn-Parry J, Gardner CB, Priscu JC, McKnight DM. Physiochemical properties influencing biomass abundance and primary production in Lake Hoare, Antarctica. Ecological Modelling. 2010. doi:LTER.
Dieser M, Foreman CM, Jaros C, et al. Physicochemical and biological dynamics in a coastal Antarctic lake as it transitions from frozen to open water. Antarctic Science. 2013;25(5):663–675.
Spigel RH, Priscu JC. Physical Limnology of the McMurdo Dry Valleys Lakes, in Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica. Antarctic Research Series. 1998;72:153-187.
Spigel RH, Priscu JC, Obryk MK, Stone WC, Doran PT. The physical limnology of a permanently ice-covered and chemically stratified Antarctic lake using high resolution spatial data from an autonomous underwater vehicle. Limnology and Oceanography. 2018;63(3):1234 - 1252. doi:10.1002/lno.10768.
Fountain AG, W. Lyons B, Burkins MB, et al. Physical controls on the Taylor Valley Ecosystem, Antarctica. BioScience. 1999;49(12):961-972.
Kohler TJ. Physical and chemical controls on the abundance and composition of stream microbial mats from the McMurdo Dry Valleys, Antarctica. McKnight DM. Environmental Studies. 2015;Ph.D.:272. Available at: https://search.proquest.com/docview/1690497718?accountid=14503.
Priscu JC, Neale PJ. Phototactic response of phytoplankton forming discrete layers within the water column of Lake Bonney , Antarctica. Antarctic Journal of the US. 1995;30:301-303.
Fritsen CH, Priscu JC. Photosynthetic characteristics of cyanobacteria in permanent ice covers on lakes in the McMurdo Dry Valleys, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):216-218.
Neale PJ, Priscu JC. The Photosynthetic Apparatus of Phytoplankton from a Perennially Ice-Covered Antarctic Lake: Acclimation to an Extreme Shade Environment. Plant Cell Physiology. 1995;36(2):253-263.
Hüner NPA, Smith DR, Cvetkovska M, et al. Photosynthetic adaptation to polar life: Energy balance, photoprotection and genetic redundancy. Journal of Plant Physiology. 2022;268:153557. doi:10.1016/j.jplph.2021.153557.
Lizotte MP, Priscu JC. Photosynthesis-Irradiance Relationships in Phytoplankton From the Physically Stable Water Column of a Perennially Ice-Covered Lake (Lake Bonney, Antarctica). J. Phycol. 1992;28:179-185.
Priscu JC, Priscu LR, Vincent WF, Howard-Williams C. Photosynthate Distribution by Microplankton in Permanently Ice-Covered Antarctic Desert Lakes. Limnol. Oceanogr. 1987;32(1):260-270.
Priscu JC. Photon Dependence of Inorganic Nitrogen Transport by Phytoplankton in Perennially Ice-Covered Antarctic Lakes. Hydrobiologia. 1989;172:173-182.
Chrismas NAM, Williamson CJ, Yallop ML, Anesio AM, Sánchez-Baracaldo P. Photoecology of the Antarctic cyanobacterium Leptolyngbya sp. BC1307 brought to light through community analysis, comparative genomics and in vitro photophysiology. Molecular Ecology. 2018;27(24):5279 - 5293. doi:10.1111/mec.14953.
Morgan-Kiss RM, Lizotte MP, Kong W, Priscu JC. Photoadaptation to the polar night by phytoplankton in a permanently ice-covered Antarctic lake. Limnology and Oceanography. 2016;61(1). doi:10.1002/lno.10107.
Gudding J. Phosphorus in Taylor Valley, Antarctica: the connection between landscape age and nutrient limitation in aquatic ecosystem components. 2003;M.S. doi:LTER.
Blecker S, Ippolito J, Barrett JE, Wall DH, Virginia RA, Norvell K. Phosphorus fractions in soils of Taylor Valley, Antarctica. Soil Science Society of America Journal. 2006;70:806-815. doi:LTER.
Thompson AR. Phagotrophic protists (protozoa) in Antarctic terrestrial ecosystems: Diversity, distribution, ecology, and best research practices. Polar Biology. 2021;44(8):1467-1484. doi:10.1007/s00300-021-02896-3.
Thompson AR, Roth-Monzón AJ, Aanderud ZT, Adams BJ. Phagotrophic protists and their associates: Evidence for preferential grazing in an abiotically driven soil ecosystem. Microorganisms. 2021;9(8):1555. doi:10.3390/microorganisms9081555.
Tranter M, Fountain AG, Fritsen CH, et al. Perturbation of hydrochemical conditions in natural microcosms entombed within Antarctic ice. Ice and Climate News. 2005;6:22-23.
Barrett JE, Virginia RA, Wall DH. Persistent effects of a discrete climate event on a polar desert ecosystem. Global Change Biology. 2008;14(10):2249-2261. doi:10.1111/j.1365-2486.2008.01641.x.
Fritsen CH, Adams EE, McKay CP, Priscu JC. Permanent Ice Covers of the McMurdo Dry Valleys Lakes, Antarctica: Liquid Water Contents. 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.; 1998:269-280.
Adams EE, Priscu JC, Fritsen CH, R.Smith S, Brackman SL. Permanent Ice Covers of the McMurdo Dry Valley Lakes, Antarctica: Bubble Formation and Metamorphism. 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.; 1998:281-295.

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