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Power SN, Osburn ED, Barrett JE. Microbial mat activity and soil biogeochemistry across variable phosphorus availability in Taylor Valley, Antarctica. Antarctic Science. 2025. doi:10.1017/S0954102025000094.\par \par Juarez-Rivera M, Mackey TJ, Hawes I, Sumner DY. Morphology and distribution of bubble-supported microbial mats from ice-covered Antarctic lakes. Journal of Geophysical Research: Biogeosciences. 2025;130(3). doi:10.1029/2024JG008516.\par \par Stone MS, Devlin S, Hawes I, et al. McMurdo Dry Valley lake edge ?moats?: The ecological intersection between terrestrial and aquatic polar desert habitat. Antarctic Science. 2024:1 - 17. doi:10.1017/S0954102024000087.\par \par Stone MS, Salvatore MR, Dugan HA, Myers M, Doran PT. Measuring and modelling functional moat area in perennially ice-covered Lake Fryxell, Antarctica. Arctic, Antarctic, and Alpine Research. 2024;56(1). doi:10.1080/15230430.2024.2406626.\par \par Robinson DM. Metagenomic analysis of Antarctic microbial communities. Takacs-Vesbach CD. Department of Biology. 2024;Ph.D.:136. Available at: https://www.proquest.com/docview/3119910585.\par \par Vlah MJ, Rhea S, Bernhardt ES, et al. MacroSheds: A synthesis of long-term biogeochemical, hydroclimatic, and geospatial data from small watershed ecosystem studies. Limnology and Oceanography Letters. 2023;8(3):419 - 452. doi:10.1002/lol2.v8.310.1002/lol2.10325.\par \par Hofsteenge MG, Cullen NJ, Conway JP, Reijmer CH, van den Broeke MR, Katurji M. Meteorological drivers of melt at two nearby glaciers in the McMurdo Dry Valleys of Antarctica. Journal of Glaciology. 2023:1 - 13. doi:10.1017/jog.2023.98.\par \par Dragone NB. Microbial life in challenging environments. Fierer N. Department of Ecology and Evolutionary Biology. 2023;Ph.D. Available at: https://www.proquest.com/docview/2814734209.\par \par Bellagamba AW, Berkelhammer M, Winslow LA, et al. The magnitude and climate sensitivity of isotopic fractionation from ablation of Antarctic Dry Valley lakes. Arctic, Antarctic, and Alpine Research. 2021;53(1):352 - 371. doi:10.1080/15230430.2021.2001899.\par \par Salvatore MR, Levy JS. The McMurdo Dry Valleys of Antarctica: A geological, environmental, and ecological analog to the Martian surface and near surface. Elsevier; 2021. doi:10.1016/B978-0-12-820245-6.00011-2.\par \par Reahl JN, Cantine MD, Wilcots J, Mackey TJ, Bergmann KD. Meta-analysis of Cryogenian through modern quartz microtextures reveals sediment transport histories. Journal of Sedimentary Research. 2021;91(9):929-944. doi:10.2110/jsr.2020.151.\par \par Lumian JE, Jungblut AD, Dillon ML, et al. Metabolic capacity of the Antarctic cyanobacterium \i Phormidium pseudopriestleyi\i0  that sustains oxygenic photosynthesis in the presence of hydrogen sulfide. Genes. 2021;12(3):426. doi:10.3390/genes12030426.\par \par Li W, Dore JE, Steigmeyer AJ, et al. Methane production in the oxygenated water column of a perennially ice?covered Antarctic lake. Limnology and Oceanography. 2020;65(1). doi:10.1002/lno.11257.\par \par Echeverr\'eda S, Hausner MB, Bambach N, Vicu\'f1a S, Su\'e1rez F. Modeling present and future ice covers in two Antarctic lakes. Journal of Glaciology. 2020;66(255). doi:10.1017/jog.2019.78.\par \par Katurji M, Khan B, Sprenger MA, et al. Meteorological connectivity from regions of high biodiversity within the McMurdo Dry Valleys of Antarctica. Journal of Applied Meteorology and Climatology. 2019;58(11):2437 - 2452. doi:10.1175/JAMC-D-18-0336.1.\par \par Robinson DM, Aanderud ZT. Microbial and CO2 responses to water stresses show decreased productivity and diversity through time. Department of Plant and Wildlife Sciences. 2018;M.S. Available at: https://scholarsarchive.byu.edu/etd/6830.\par \par Raymond JA, Morgan-Kiss RM. Multiple ice-binding proteins of probable prokaryotic origin in an Antarctic lake alga, \i Chlamydomonas\i0  sp. ICE-MDV (Chlorophyceae). Valentin K. Journal of Phycology. 2017;53(4). doi:10.1111/jpy.12550.\par \par Bowman JS, Vick-Majors TJ, Morgan-Kiss RM, Takacs-Vesbach CD, Ducklow HW, Priscu JC. Microbial Community Dynamics in Two Polar Extremes: The Lakes of the McMurdo Dry Valleys and the West Antarctic Peninsula Marine Ecosystem. BioScience. 2016;66(10):829 - 847. doi:10.1093/biosci/biw103.\par \par Buelow HN, Winter AS, Van Horn DJ, et al. Microbial Community Responses to Increased Water and Organic Matter in the Arid Soils of the McMurdo Dry Valleys, Antarctica. Frontiers in Microbiology. 2016;7(e23484S2237R25e97876e16410550e61217386e14510884660e19953e2527e661032901141). doi:10.3389/fmicb.2016.01040.\par \par Achberger A, Christner BC, Michaud AB, Priscu JC, Skidmore ML, Vick-Majors TJ. Microbial Community Structure of Subglacial Lake Whillans, West Antarctica. Frontiers in Microbiology. 2016;7. doi:10.3389/fmicb.2016.01457.\par \par Jungblut AD, Hawes I, Mackey TJ, et al. Microbial Mat Communities along an Oxygen Gradient in a Perennially Ice-Covered Antarctic Lake. Stams AJ. Applied and Environmental Microbiology. 2016;82(2):620 - 630. doi:10.1128/AEM.02699-15.\par \par Michaud AB. Microbially mediated biogeochemical cycles in polar ice covered lakes. Priscu JC. Department of Ecology and Environmental Sciences. 2016;Ph.D. Available at: https://scholarworks.montana.edu/xmlui/handle/1/13793.\par \par Acosta DR. Modeling Surface Photosynthetic Active Radiation in Taylor Valley, McMurdo Dry Valleys, Antarctica. Berkelhammer M. Earth and Environmental Sciences. 2016;M.S. Available at: http://indigo.uic.edu/handle/10027/21180.\par \par Obryk MK, Doran PT, Hicks JA, McKay CP, Priscu JC. Modeling the thickness of perennial ice covers on stratified lakes of the Taylor Valley, Antarctica. Journal of Glaciology. 2016;(1):1 - 10. doi:10.1017/jog.2016.69.\par \par Velasco-Castrillon A, McInnes SJ, Schultz MB, et al. Mitochondrial DNA analyses reveal widespread tardigrade diversity in Antarctica. Invertebrate Systematics. 2015;29(6):578. doi:10.1071/IS14019.\par \par Fountain AG, Levy JS, Gooseff MN, Van Horn DJ. The McMurdo Dry Valleys: A landscape on the threshold of change. Geomorphology. 2014;225:25 - 35. doi:10.1016/j.geomorph.2014.03.044.\par \par Ball B, Virginia RA. Microbial biomass and respiration responses to nitrogen fertilization in a polar desert. Polar Biology. 2014. doi:10.1007/s00300-014-1459-0.\par \par Vick-Majors TJ, Priscu JC, Amaral-Zettler LA. Modular community structure suggests metabolic plasticity during the transition to polar night in ice-covered Antarctic lakes. The ISME Journal. 2014. doi:10.1038/ismej.2013.190.\par \par Foreman CM, Cory RM, Morris CE, et al. Microbial growth under humic-free conditions in a supraglacial stream system on the Cotton Glacier, Antarctica. Environmental Research Letters. 2013;8(3):035022. doi:10.1088/1748-9326/8/3/035022.\par \par Berger GW, Doran PT, Thomsen KJ. Micro-hole and multigrain quartz luminescence dating of Paleodeltas at Lake Fryxell, McMurdo Dry Valleys (Antarctica), and relevance for lake history. Quaternary Geochronology. 2013;18:119 - 134. doi:10.1016/j.quageo.2013.04.002.\par \par Ball B, Virginia RA. Meltwater seep patches increase heterogeneity of soil geochemistry and therefore habitat suitability. Geoderma. 2012;189-190:652 - 660. doi:10.1016/j.geoderma.2012.06.028.\par \par Thurman J, Parry J, Hill PJ, et al. Microbial dynamics and flagellate grazing during transition to winter in Lakes Hoare and Bonney, Antarctica. FEMS Microbiology Ecology. 2012;82(2):449 - 458. doi:10.1111/j.1574-6941.2012.01423.x.\par \par Murray AE, Kenig F, Fritsen CH, et al. Microbial life at -13 \'a0C in the brine of an ice-sealed Antarctic lake. Proceedings of the National Academy of Sciences. 2012;109(50):20626 - 20631. doi:10.1073/pnas.1208607109.\par \par Bernzott ED, Gooseff MN. Modeling nitrate concentrations in an Antarctic glacial meltwater stream under fluctuating hydrologic conditions and nitrate inputs. Department of Civil & Environmental Engineering. 2012;M.S. Available at: https://etda.libraries.psu.edu/catalog/15316.\par \par Howkins A. MCM IV: Getting Connected.  2011;2013. Available at: http://news.lternet.edu/Article2316.html.\par \par Bokhorst S, Huiskes A, Convey P, et al. Microclimate impacts of passive warming methods in Antarctica: implications for climate change studies. Polar Biology. 2011;34(10):1421 - 1435. doi:10.1007/s00300-011-0997-y.\par \par Adhikari BN, Adams B. Molecular analysis of desiccation survival in Antarctic nematodes. In:  Molecular and Physiological Basis of Nematode Survival. Molecular and Physiological Basis of Nematode Survival. Wallingford: CABI International; 2011:205-232.\par \par Adhikari BN, Adams B. Molecular and physiological basis of nematode survival: Molecular analyses of desiccation survival in Antarctic nematodes. (Perry RN, Wharton DA). Wallingford: CABI; 2011:205 - 232. doi:10.1079/9781845936877.0205.\par \par Wu T, Ayres E, Bardgett RD, Wall DH, Garey JR. Molecular study of worldwide distribution and diversity of soil animals. Proceedings of the National Academy of Sciences. 2011;108(43):17720 - 17725. doi:10.1073/pnas.1103824108.\par \par Cawley K. Microbial interactions with dissolved organic matter in  saline natural waters.  2010. doi:LTER.\par \par Palumbi S, Norse E, Stachowicz J, et al. Managing for ocean biodiversity to sustain marine ecosystem services. FRONTIERS IN ECOLOGY AND THE ENVIRONMENT. 2009;7:204-211. doi:LTER.\par \par Witherow R. The Minor Alkaline Earth Element and Alkali   Metal Behavior in Closed-basin Lakes.  2009. doi:LTER.\par \par Wu T, Ayres E, Li G, Bardgett RD, Wall DH, Garey JR. Molecular profiling of soil animal diversity in natural ecosystems: incongruence of molecular and morphological results. Soil Biology and Biochemistry. 2009;(41):849-857. doi:10.1016/j.soilbio.2009.02.003.\par \par Witherow R, W. Lyons B. Mercury Deposition in a Polar Desert Ecosystem. Environmental Science and Technology. 2008;42:4710-4716. doi:LTER.\par \par Niederberger T, McDonald i, Hacker A, et al. Microbial community composition in soils of Northern Victoria Land, Antarctica. Environmental Microbiology. 2008;10:1713-1724. doi:LTER.\par \par Zeglin LH. Microbial diversity and function at aquatic-  terrestrial interfaces in desert ecosystems. Department of Biology. 2008;Ph.D. doi:LTER.\par \par Hunt H, Treonis AM, Wall DH, Virginia RA. A mathematical model for variation in water-retention curves among sandy soils. Antarctic Science. 2007;19:427-436. doi:LTER.\par \par Moorhead DL. Mesoscale dynamics of ephemeral wetlands in the Antarctic Dry Valleys: Implications to production and distribution of organic matter. Ecosystems. 2007;(10):87-95. doi:LTER.\par \par Foreman CM, Sattler B, Mikucki JA, Porazinska D, Priscu JC. Metabolic activity and diversity of cryoconites in the Taylor Valley, Antarctica. Journal of Geophysical Research. 2007;112. doi:LTER.\par \par Moore J. Microbial Processes in the Moats of Lakes in the Taylor Valley, Antarctica.  2007;M.S. doi:LTER.\par \par Howard-Williams C, Peterson D, W. Lyons B, Cattaneo-Vietti R, Gordon S. Measuring ecosystem response in a rapidly changing environment: the  Latitudinal Gradient Project. Antarctic Science. 2006;10(4). doi:LTER.\par \par Karnovic M, Carey AE, Bair SE, van der Veen C. Mathematical Modeling of a Hydrocarbon Spill on the Ice Cover of Lake Fryxell, Antarctica. Geological Sciences. 2005;M.S.:114.\par \par Witherow R. Mercury Concentrations in Snow and the Modern Mercury Flux to Taylor Valley, Antarctica.  2005;M.S. doi:LTER.\par \par Mikucki JA. Microbial Ecology of an Antarctic Subglacial Environment.  2005;Ph.D. doi:LTER.\par \par Roberts EC, Priscu JC, Laybourn-Parry J. Microplankton dynamics in a perennially ice-covered Antarctic lake-Lake Hoare. Freshwater Biology. 2004;27:238-249.\par \par Leonard K, Fountain AG. Map-based methods for estimating glacier equilibrium-line altitudes. Journal of Glaciology. 2003;49:329-336. doi:LTER.\par \par Hunt H, Wall DH. Modeling the effects of loss of soil biodiversity on  ecosystem function. Global Change Biology. 2002;8:32-49.\par \par W. Lyons B, Welch KA, Priscu JC, et al. The McMurdo Dry Valleys Long-Term Ecological Research Program: new understanding of the biogeochemistry of the  Dry Valley lakes: a review. Polar Geography. 2001;25:202-217.\par \par Bishop JL, Lougear A, Newton J, et al. Mineralogical and geochemical analyses of Antarctic lake sediments: A study of reflectanceand Mossbauer spectroscopy and C, N and S isotopes with applications for remote sensing on Mars. Geochimica et Cosmochimica Acta. 2001;65(17):2875-2897.\par \par Gooseff MN. Modeling hyporheic exchange influences on biogeochemical processes in dry valley streams, Antarctica. Institute of Arctic and Alpine Research. 2001;Ph.D.\par \par Laybourn-Parry J, Roberts EC, Bell ER. Mixotrophy as a survival strategy among planktonic protozoa in Antarctic lakes. In: Howard-Williams C, Davidson W, Broady P Antarctic Ecosystems: Models for Wider Ecological Understanding. Antarctic Ecosystems: Models for Wider Ecological Understanding. Caxton Press; 2000.\par \par Wharton, Jr. RA, Doran PT. McMurdo Dry Valley Lakes: Impacts of Research Activities.  1999. doi:LTER.\par \par Hawes I, Schwarz A-M. McMurdo LTER: Photosynthesis in an extreme shade habitat: benthic microbial mats from Lake Hoare, Antarctica. Journal of Phycology. 1999;35(3):448-459.\par \par W. Lyons B, Welch KA, Bonzongo J-C. Mercury in aquatic systems in Antarctica. Geophysical Research Letters. 1999;26(15):2235-2238.\par \par Roberts EC, Laybourn-Parry J. Mixotrophic cryptophytes and their predators in the Dry Valley lakes of Antarctica. Freshwater Biology. 1999;41(4):737-745. doi:10.1046/j.1365-2427.1999.00401.x.\par \par Moorhead DL, Priscu JC. The McMurdo Dry Valley Ecosystem: Organization, Controls, and Linkages, in Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica. Antarctic Research Series. 1998;72:351-363.\par \par Jennings-Mays SE, Wharton, Jr. RA. McMurdo Dry Valleys Long-Term Ecological Research (LTER): An overview of 1995-1996 research activities. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):187-188.\par \par Kepner RL, Wharton, Jr. RA. McMurdo Dry Valleys LTER: Characterization of protozoan communities in lakes Hoare and Fryxell using artificial substrates. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):201-202.\par \par W. Lyons B, Welch KA, Tyler SW, Sharma P. McMurdo Dry Valleys LTER:  Density-driven mixing in Lake Hoare?. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):205.\par \par Courtright EM, Freckman DW, Virginia RA, W. Thomas K. McMurdo Dry Valleys LTER: Genetic diversity of soil nematodes in the McMurdo Dry Valleys of Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):203-204.\par \par Doran PT, Wharton, Jr. RA, Schmok JP. McMurdo Dry Valleys LTER: Geophysical determination of bathymetry and morphology of Taylor Valley lakes. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):198-200.\par \par Dore JE, Priscu JC. McMurdo Dry Valleys LTER: Phosphorus deficiency and alkaline phosphatase activity in lakes of Taylor Valley, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):206-208.\par \par Dana GL, Wharton, Jr. RA, Fountain AG. McMurdo Dry Valleys LTER: Solar radiation on glaciers in Taylor Valley, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):191-193.\par \par Fountain AG, Lewis KJ, Dana GL. McMurdo Dry Valleys LTER: Spatial variation of glacier mass balance in Taylor Valley, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):194-195.\par \par Moorhead DL, McKnight DM. McMurdo Dry Valleys LTER:  Stream discharge as a function of ambient temperature and incoming shortwave radiation in Taylor Valley, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):196-197.\par \par Lewis KJ, Fountain AG, Langevin P. McMurdo Dry Valleys LTER: The role of terminus cliff melt in streamflow, Taylor Valley, Antarctica. Antarctic Journal of the United States - 1996 Review Issue (NSF 98-28). 1998;31(2):189-190.\par \par Vandal GM, Mason RP, McKnight DM, Fitzgerald W. Mercury speciation and distribution in a polar desert lake (Lake Hoare, Antarctica) and two glacial meltwater streams. Science of the Total Environment. 1998;213(1-3):229-237.\par \par Paerl HW, Priscu JC. Microbial phototrophic, heterotrophic, and diazotrophic activities associated with aggregates in the permanent ice cover of Lake Bonney, Antarctica. Microbial Ecology. 1998;36(3):221-230.\par \par Moorhead DL, McKnight DM, Tate CM. Modeling Nitrogen Transformations in Dry Valley Streams, Antarctica, in Ecosystem Processes in a Polar Desert: The McMurdo Dry Valleys, Antarctica. Antarctic Research Series. 1998;72:141-151.\par \par The measurement of reactive silicate in saline-hypersaline lakes:  examples of the problem. International Journal of Salt Lake Research. 1997.\par \par Laybourn-Parry J. The microbial loop in Antarctic lakes. In:  Ecosystem Processes in Antarctic Ice-free Landscapes. Ecosystem Processes in Antarctic Ice-free Landscapes. Rotterdam: Balkema Press; 1997:231-240.\par \par Laybourn-Parry J, James MR, McKnight DM, Priscu JC, Spaulding SA, Shiel R. The microbial plankton of Lake Fryxell, southern Victoria Land, Antarctica during the summers of 1992 and 1994. Polar Biology. 1997;17:54-61.\par \par Moore JC, De Ruiter PC, H. Hunt W, Coleman DC, Freckman DW. Microcosms and Soil Ecology:  Critical Linkages Between Field Studies and Modelling Food Webs. Ecology. 1996;77(3):694-705.\par \par Wharton, Jr. RA. McMurdo Dry Valleys Long-Term Ecological Research (LTER): An overview of 1994-1995 research activities. Antarctic Journal of the U.S. 1995;30(5):275-276.\par \par Doran PT, Dana GL, Hastings JTowner, Wharton, Jr. RA. McMurdo Dry Valleys Long-Term Ecological Research (LTER): LTER automatic weather network (LAWN). Antarctic Journal of the U.S. 1995;30(5):276-280.\par \par McKnight DM, Tate CM. McMurdo LTER: Algal mat distribution in glacial meltwater streams in Taylor Valley, southern Victoria Land, Antarctica. Antarctic Journal of the United States. 1995;30(5):287-289.\par \par Welch KA, W. Lyons B. McMurdo LTER: Comparative limnology of the Taylor Valley lakes: The major solutes. Antarctic Journal of the U.S. 1995;30(5):292-293.\par \par Hawes I, Schwarz A-M. McMurdo LTER: Photosynthesis in benthic cyanobacterial mats from Lake Hoare, Antarctica. Antarctic Journal of the U.S. 1995;30(5):296-297.\par \par Hastings JTowner. McMurdo LTER: Progress with the Taylor Valley geographic information system. Antarctic Journal of the U.S. 1995;30(5):297-299.\par \par Edwards RL, Priscu JC. McMurdo LTER: Relationships between vertical nutrient flux and phytoplankton biomass and productivity in lakes of the Taylor Valley, Antarctica. Antarctic Journal of the U.S. 1995;30(5):294-295.\par \par Powers LE, Freckman DW, Ho M, Virginia RA. McMurdo LTER: Soil properties associated with nematode distribution along an elevational transect in Taylor Valley, Antarctica. Antarctic Journal of the U.S. 1995;30(5):282-283.\par \par Alger AS, Spaulding SA, Shupe GH, McKnight DM. McMurdo LTER: Species composition and spatial distribution of algal mats in Green Creek, Taylor Valley, Antarctica. Antarctic Journal of the U. S. 1995;30(5):289-291.\par \par Lewis KJ, Dana GL, Tyler SW, Fountain AG. McMurdo LTER: The surface-energy balance of the Canada Glacier, Taylor Valley. Antarctic Journal of the United States. 1995;30(5):280-282.\par \par Wharton, Jr. RA. McMurdo Dry Valleys LTER:  An overview of 1993-1994 research activities. Antarctic Journal of the U.S. 1994;29(5):224-226.\par \par Hastings JTowner, Butt AZ. McMurdo LTER: Developing a geographic information system access system. Antarctic Journal of the U.S. 1994;29(5):246-247.\par \par Butt AZ, Hastings JTowner. McMurdo LTER: Developing a geographic information system database. Antarctic Journal of the U.S. 1994;29(5):244-245.\par \par Fountain AG, Vaughn BH, Dana GL. McMurdo LTER: Glacier mass balances of Taylor Valley, Antarctica. Antarctic Journal of the U.S. 1994;29(5):226-228.\par \par Welch KA, W. Lyons B, Priscu JC, et al. McMurdo LTER: Inorganic geochemical studies with special reference to calcium carbonate dynamics. Antarctic Journal of the U.S. 1994;29(5):237-239.\par \par Doran PT, Wharton, Jr. RA, Spaulding SA, Foster JS. McMurdo LTER: Paleolimnology of Taylor Valley, Antarctica. Antarctic Journal of the United States. 1994;29(5):234-237. doi:LTER.\par \par Priscu JC. McMurdo LTER: Phytoplankton nutrient deficiency in lakes of the Taylor Valley, Antarctica. Antarctic Journal of the U.S. 1994;29(5):239-241.\par \par Moorhead DL, Wharton, Jr. RA. McMurdo LTER: Primary production model of benthic microbial mats in Lake Hoare, Antarctica. Antarctic Journal of the U.S. 1994;29(5):241-243.\par \par McKnight DM, House HR, Von Gerard P. McMurdo LTER: Streamflow Measurements in Taylor Valley. Antarctic Journal of the United States. 1994;29(5):230-232.\par \par Dana GL, Tate CM, Dewey SL. McMurdo LTER: Using narrow band spectroradiometry to assess algal and moss communities in a dry valley stream. Antarctic Journal of the U.S. 1994;29(5):232-234.\par \par Powers LE, Freckman DW, Ho M, Virginia RA. McMurdo LTER:Soil and nematode distribution along an elevational gradient in Taylor Valley, Antarctica. Antarctic Journal of the U.S. 1994;29(5):228-229.\par \par Wing KT, Priscu JC. Microbial communities in the permanent ice cap of Lake Bonney, Antarctica:  Relationships among chlorophyll-a , gravel, and nutrients. Antarctic Journal of the U.S. 1993;28(5):247-249.\par \par Smith JJ, Priscu JC. Microbial respiration potential in Lake Bonney using a novel tetrazolium-reduction method. Antarctic Journal of the U.S. 1993;28(5):244-245.\par \par Wharton, Jr. RA. McMurdo Dry Valleys: A cold desert ecosystem.; 1991. Available at: https://mcm.lternet.edu/sites/default/files/MCM_1991_Report.pdf.\par \par }