McMurdo LTER Publications

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Dillon ML, Hawes I, Jungblut AD, et al. Environmental control on the distribution of metabolic strategies of benthic microbial mats in Lake Fryxell, Antarctica. PLoS ONE. 2020;15(4):e0231053. doi:10.1371/journal.pone.0231053.

Matys ED, Mackey TJ, Grettenberger C, et al. Environmental controls on bacteriohopanepolyol profiles of benthic microbial mats from Lake Fryxell, Antarctica. Geobiology. 2019. doi:10.1111/gbi.12353.

Matys ED, Mackey TJ, Grettenberger C, et al. Environmental controls on bacteriohopanepolyol profiles of benthic microbial mats from Lake Fryxell, Antarctica. Geobiology. 2019. doi:10.1111/gbi.12353.

Matys ED, Mackey TJ, Grettenberger C, et al. Environmental controls on bacteriohopanepolyol profiles of benthic microbial mats from Lake Fryxell, Antarctica. Geobiology. 2019. doi:10.1111/gbi.12353.

Robeson MS, Costello EK, Freeman KR, et al. Environmental DNA sequencing primers for eutardigrades and bdelloid rotifers. BMC Ecology. 2009;9(1):25. doi:10.1186/1472-6785-9-25.

Burnett L, Moorhead DL, Hawes I, Howard-Williams C. Environmental factors associated with deep chlorophyll maxima in dry valley lakes, South Victoria Land, Antarctica. Arctic, Antarctic, and Alpine Research. 2006;38:179-189. doi:LTER.

Stanish LF, Bagshaw E, McKnight DM, Fountain AG, Tranter M. Environmental factors influencing diatom communities in Antarctic cryoconite holes. Environmental Research Letters. 2013;8(4):045006. doi:10.1088/1748-9326/8/4/045006.

Dolhi JM, Morgan-Kiss RM. Environmental impacts on RubisCO from green algal laboratory isolates to Antarctic lake communities. Department of Microbiology. 2014;Ph.D. Available at: http://rave.ohiolink.edu/etdc/view?acc_num=miami1407056783.

Sokol ER, Barrett JE, Kohler TJ, McKnight DM, Salvatore MR, Stanish LF. Evaluating alternative metacommunity hypotheses for diatoms in the McMurdo Dry Valleys using simulations and remote sensing data. Frontiers in Ecology and Evolution. 2020;8. doi:10.3389/fevo.2020.521668.

Sakaeva A, Sokol ER, Kohler TJ, et al. Evidence for dispersal and habitat controls on pond diatom communities from the McMurdo Sound Region of Antarctica. Polar Biology. 2016. doi:10.1007/s00300-016-1901-6.

Kong W, Dolhi JM, Chiuchiolo A, Priscu JC, Morgan-Kiss RM. Evidence of form II RubisCO ( cbbM) in a perennially ice-covered Antarctic lake. FEMS Microbiology Ecology. 2012;82(2):491 - 500. doi:10.1111/j.1574-6941.2012.01431.x.

Fountain AG, Tranter M, Nylen TH, Lewis KJ, Mueller DR. Evolution of cryoconite holes and their contribution to meltwater runoff from glaciers in the McMurdo Dry Valleys, Antarctica. Journal of Glaciology. 2004;50(168):35-45. doi:10.3189/172756504781830312.

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.

Cozzetto K, McKnight DM, Nylen TH, Fountain AG. Experimental investigations into processes controlling stream and hyporheic temperatures, Fryxell Basin, Antarctica. Advances in Water Resources. 2006;29(2):130-153. doi:LTER.

Doran PT, Myers KF, McKay CP, Bromwich D. Extreme cold (-69.1°C) in the McMurdo Dry Valleys. Antarctic Science. 2023;30:1-4. doi:10.1017/S0954102022000451.

Doran PT, Myers KF, McKay CP, Bromwich D. Extreme cold (-69.1°C) in the McMurdo Dry Valleys. Antarctic Science. 2023;30:1-4. doi:10.1017/S0954102022000451.

Stanish LF, Kohler TJ, Esposito RMM, et al. Extreme streams: flow intermittency as a control on diatom communities in meltwater streams in the McMurdo Dry Valleys, Antarctica. Canadian Journal of Fisheries and Aquatic Sciences. 2012;69(8):1405 - 1419. doi:10.1139/f2012-022.

Priscu JC, Downes MT, McKay CP. Extreme Supersaturation of Nitrous Oxide in a Poorly Ventilated Antarctic Lake. Limnol. Oceanogr. 1996;41(7):1544-1551.

F

O'Rourke A, Zoumplis A, Wilburn P, et al. Following the Astrobiology Roadmap: Origins, Habitability and Future Exploration. In: Astrobiology: Current, Evolving, and Emerging Perspectives. Astrobiology: Current, Evolving, and Emerging Perspectives. Norfolk, United Kingdom: Caister Academic Press; 2020. doi:10.21775/9781912530304.01.

Doran PT, Fritsen CH, McKay CP, Priscu JC, Adams EE. Formation and character of an ancient 19 m ice cover and underlying trapped brine in an. Proceedings of National Academy of Sciences. 2003;100:26-31. doi:10.1073/pnas.222680999.

Kociolek JP, Kopalova K, Hamsher SE, et al. Freshwater diatom biogeography and the genus Luticola: an extreme case of endemism in Antarctica. Polar Biology. 2017;40(6):1185-1196. doi:10.1007/s00300-017-2090-7.

Kohler TJ, Howkins A, Sokol ER, et al. From the Heroic Age to today: What diatoms from Shackleton's Nimrod expedition can tell us about the ecological trajectory of Antarctic ponds. Limnology and Oceanography Letters. 2021. doi:10.1002/lol2.10200.

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W. Lyons B, Mayewski PA. The geochemical evolution of terrestrial waters in the antarctic: the role of rock-water interactions, in Physical and Biogeochemical Processes in Antarctic Lakes. 1993;59:135-143.

W. Lyons B, Welch KA, Neumann K, et al. Geochemical Linkages Among Glaciers, Streams, and Lakes Within the Taylor Valley, 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.; 1998:77-92.

W. Lyons B, Welch KA, Neumann K, et al. Geochemical Linkages Among Glaciers, Streams, and Lakes Within the Taylor Valley, 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.; 1998:77-92.

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