McMurdo LTER Publications

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Journal Article
Singley JG, Salvatore MR, Gooseff MN, McKnight DM, Hinckley E-LS. Differentiating physical and biological storage of nitrogen along an intermittent Antarctic stream corridor. Freshwater Science. 2023;42(3). doi:10.1086/725676.
Howkins A, Chignell SM, Gullett P, Fountain AG, Brett M, Preciado E. A digital archive of human activity in the McMurdo Dry Valleys, Antarctica. Earth System Science Data. 2020;12(2). doi:10.5194/essd-12-1117-2020.
McKnight DM, Aiken GR, Andrews ED, Bowles EC, Harnish RA. Dissolved Organic Material in Dry Valley Lakes: A Comparison of Lake Fryxell, Lake Hoare, and Lake Vanda, in Physical and Biogeochemical Processes in Antarctic Lakes. Antarctic Research Series. 1993;59:119-133.
Powers LE, Ho M, Freckman DW, Virginia RA. Distribution, Community Structure, and Microhabitats of Soil Invertebrates along an Elevational Gradient in Taylor Valley. Alpine and Alpine Research. 1998;30(2):133-141.
Harmon ME, Leslie DL, W. Lyons B, Welch KA, McKnight DM. Diurnal chemistry of two contrasting stream types, Taylor Valley, McMurdo Dry Valley Region, Antarctica. Chudaev O, Kharaka Y, Harmon RS, Millot R, Shouakar-Stash O. E3S Web of Conferences. 2019;98. doi:10.1051/e3sconf/20199801020.
Harmon ME, Leslie DL, W. Lyons B, Welch KA, McKnight DM. Diurnal chemistry of two contrasting stream types, Taylor Valley, McMurdo Dry Valley Region, Antarctica. Chudaev O, Kharaka Y, Harmon RS, Millot R, Shouakar-Stash O. E3S Web of Conferences. 2019;98. doi:10.1051/e3sconf/20199801020.
Adams B, Connell L, Convey P, et al. Diversity and distribution of Victoria Land biota. Soil Biology and Biochemistry. 2006;38:3003-3018. doi:10.1016/j.soilbio.2006.04.030.
Dickson JL, Head JW, Levy JS, Marchant DR. Don Juan Pond, Antarctica: Near-surface CaCl2-brine feeding Earth's most saline lake and implications for Mars. Scientific Reports. 2013;3. doi:10.1038/srep01166.
Zhang X, Cvetkovska M, Morgan-Kiss RM, Hüner NPA, Smith DRoy. Draft genome sequence of the Antarctic green alga Chlamydomonas sp. UWO241. iScience. 2021;24(2):102084. doi:10.1016/j.isci.2021.102084.
Hunt HW, Fountain AG, Doran PT, Basagic HJ. A dynamic physical model for soil temperature and water in Taylor Valley, Antarctica. Antarctic Science. 2010;(22):419-434. doi:10.1017/S0954102010000234.
Dragone NB, Henley JB, Holland-Moritz H, et al. Elevational constraints on the composition and genomic attributes of microbial communities in Antarctic soils. Mackelprang R. mSystems. 2022;7(1):e01330-21. doi:10.1128/msystems.01330-21.
Dragone NB, Henley JB, Holland-Moritz H, et al. Elevational constraints on the composition and genomic attributes of microbial communities in Antarctic soils. Mackelprang R. mSystems. 2022;7(1):e01330-21. doi:10.1128/msystems.01330-21.
Dragone NB, Henley JB, Holland-Moritz H, et al. Elevational constraints on the composition and genomic attributes of microbial communities in Antarctic soils. Mackelprang R. mSystems. 2022;7(1):e01330-21. doi:10.1128/msystems.01330-21.
Dillon ML, Hawes I, Jungblut AD, et al. Energetic and environmental constraints on the community structure of benthic microbial mats in Lake Fryxell, Antarctica. FEMS Microbiology Ecology. 2020;96(2). doi:10.1093/femsec/fiz207.
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.
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.
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.
Hawes I, Giles H, Doran PT. Estimating photosynthetic activity in microbial mats in an ice-covered Antarctic lake using automated oxygen microelectode profiling and variable chlorophyll fluorescence. Limnology and Oceanography. 2014;59(3):674-688. doi:10.4319/lo.2014.59.3.0674.
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.
Dragone NB, Diaz MA, Hogg ID, et al. Exploring the boundaries of microbial habitability in soil. Journal of Geophysical Research: Biogeosciences. 2021;126(6). doi:10.1029/2020JG006052.
Carey M, Garone P, Howkins A, et al. Forum: Climate Change and Environmental History. Environmental History. 2014;19(2):281 - 364. doi:10.1093/envhis/emu004.
Vanderbilt KL, Lin C-C, Lu S-S, et al. Fostering ecological data sharing: collaborations in the International Long Term Ecological Research Network. Ecosphere. 2015;6(10). doi:10.1890/ES14-00281.1.
Edwards H, Wynn-Williams D, Ellis-Evans J, et al. Fourier-transform raman spectroscopic studies of organic and inorganic chemical components in stromatolitic cores from Antarctic lake sediments. International Journal of Astrobiology. 2003;1:325-331.
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.

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