McMurdo LTER Publications

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A
Adams GA, Wall DH. 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.
Alagona P, Carey M, Howkins A. 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.
B
Bagshaw E, Tranter M, Fountain AG, Welch KA, Basagic HJ, W. Lyons B. The biogeochemical evolution of cryoconite holes on glaciers in Taylor Valley, Antarctica. Journal of Geophysical Research. 2007;113:G04S35. doi:LTER.
Bagshaw E. The Biogeochemistry of Cryoconite Holes on Glaciers in Taylor Valley, Antarctica. 2008. doi:LTER.
Barrett JE, Virginia RA. Biogeochemistry, terrestrial. In: Riffenburgh B Encyclopedia of the Antarctic Vol 1.Vol 1. Encyclopedia of the Antarctic Vol 1. New York: Routledge Press; 2006:154-155. doi:LTER.
Barrett JE, Virginia RA, W. Lyons B, et al. Biogeochemical stoichiometry of Antarctic Dry Valley ecosystems. Journal of Geophysical Research. 2007;112:G01010+12. doi:10.1029/2005JG000141.
Brussaard L, Behan-Pelletier V, Bignell DE, Brown VK. Biodiversity and Ecosystem Functioning in Soil. Didden W, Folgarait P, Fragoso C, Freckman DW. Ambio. 1997;26(8):563-570.
C
Castendyk D, Dugan HA, Gallagher HA, et al. Barotropic seiches in a perennially ice-covered lake, East Antarctica. Limnology and Oceanography Letters. 2022;7(1):26 - 33. doi:10.1002/lol2.10226.
Christner BC, Skidmore M, Priscu JC, Tranter M, Foreman CM. Bacteria in Subglacial Environments. In: Psychrophiles: from biodiversity to biotechnology. Psychrophiles: from biodiversity to biotechnology. New York: Springer Verlag; 2008:51-71.
Collins GE, Young MR, Convey P, et al. Biogeography and genetic diversity of terrestrial mites in the Ross Sea region, Antarctica. Genes. 2023;14(3):606. doi:10.3390/genes14030606.
D
Dornelas M, Antão LH, Moyes F, et al. BioTIME: A database of biodiversity time series for the Anthropocene. Global Ecology and Biogeography. 2018;27(7):760-786. doi:10.1111/geb.12729.
G
Garza-Girón R, Tulaczyk SM. Brief communication: Significant biases in ERA5 output for the McMurdo Dry Valleys region, Antarctica. The Cryosphere. 2024;18(3):1207 - 1213. doi:10.5194/tc-18-1207-2024.
Geyer KM, Altrichter AE, Takacs-Vesbach CD, Gooseff MN, Barrett JE. 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.
H
Hawes I, Moorhead DL, Sutherland J, Schmeling J, Schwartz A. 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.
Heindel RC, W. Lyons B, Welch S, Spickard AM, Virginia RA. Biogeochemical weathering of soil apatite grains in the McMurdo Dry Valleys, Antarctica. Geoderma. 2018;320:136-145. doi:10.1016/j.geoderma.2018.01.027.
Hogg I, Wall DH, Cary CS, et al. Biotic interactions in Antarctic terrestrial ecosystems: Are they a factor?. Soil Biology and Biochemistry. 2006;38(10):3035-3040. doi:10.1016/j.soilbio.2006.04.026.
L
Lee CK, Laughlin DC, Bottos EM, et al. Biotic interactions are an unexpected yet critical control on the complexity of an abiotically driven polar ecosystem. Communications Biology. 2019;2(1). doi:10.1038/s42003-018-0274-5.
Leslie DL, W. Lyons B, Warner N, et al. Boron isotopic geochemistry of the McMurdo Dry Valley lakes, Antarctica. Chemical Geology. 2014;386:152 - 164. doi:10.1016/j.chemgeo.2014.08.016.
W. Lyons B, Finlay J. Biogeochemical processes in high-latitude lakes and rivers. In: Vincent WF, Laybourn-Parry J Polar Lakes and Rivers: Limnology of Arctic and Antarctic Aquatic Ecosystems. Polar Lakes and Rivers: Limnology of Arctic and Antarctic Aquatic Ecosystems. Oxford: Oxford University Press; 2008. doi:LTER.
M
Marshall W, Laybourn-Parry J. The balance between photosynthesis and grazing in Antarctic mixotrophic cryptophytes during summer. Freshwater Biology. 2002;47:2060-2070.
Mass AQ, McKnight DM. Biogeochemistry, contaminant transport, and atmospheric exchange in glacial cryoconite meltwater of the McMurdo Dry Valleys, Antarctica. Department of Civil, Environmental, and Architectural Engineering. 2018;Ph.D.:245. Available at: https://search.proquest.com/docview/2048314678.
Mikucki JA, Priscu JC. Bacterial diversity associated with Blood Falls, A subglacial outflow from the Taylor Glacier, Antarctica. Applied and Environmental Microbiology. 2007;73:4029-4039. doi:LTER.
Moody C, Villar S, Edwards H, Hodgson D, Doran PT, Bishop JL. Biogeological Raman spectroscopic studies of Antarctic lacustrine sediments. Spectrochimica Acta Part a-Molecular and Biomolecular Spectroscopy. 2005;61(2413-2417).
P
Porazinska D, Fountain AG, Nylen TH, Tranter M, Virginia RA, Wall DH. The Biodiversity and Biogeochemistry of Cryoconite Holes from McMurdo Dry Valley Glaciers, Antarctica. Arctic, Antarctic, and Alpine Research. 2004;36(1):84-91.
Priscu JC. Book Review: Physical and biogeochemical processes in Antarctic lakes. Limnology and Oceanography. 1993;39(6):1499-1500.

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