McMurdo LTER Publications
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. Inorganic Nitrogen Uptake and Regeneration in Perennially Ice-Covered Lakes Fryxell and Vanda, Antarctica. Journal of Plankton Research. 1989;11(2):335-351.
Interactions between above and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms and feedbacks. BioScience. 2000;50:1049-1061.
. Lake Vanda: A sentinel for climate change in the McMurdo Sound Region of Antarctica. Global and Planetary Change. 2016;144:213 - 227. doi:10.1016/j.gloplacha.2016.06.007.
. Landscape-scale soil phosphorus variability in the McMurdo Dry Valleys, Antarctica. Antarctic Science. 2017;29(3):252-263. doi:10.1017/S0954102016000742.
. Latitudinal distribution and mitochondrial DNA (COI) variability of Stereotydeus spp. (Acari: Prostigmata) in Victoria Land and the central Transantarctic Mountains. Antarctic Science. 2010;22(06):749 - 756. doi:10.1017/S0954102010000659.
. Linking biodiversity and ecosystem functioning of soils and sediments. Ambio. 1997;26(8):556-562.
Lipid biomarkers from microbial mats on the McMurdo Ice Shelf, Antarctica: Signatures for life in the cryosphere. Frontiers in Microbiology. 2022;13:903621. doi:10.3389/fmicb.2022.90362110.3389/fmicb.2022.903621.s001.
. Local and regional influences over soil microbial metacommunities in the Transantarctic Mountains. Ecosphere. 2013;4(11):art136. doi:10.1890/ES13-00136.1.
Long-term changes in concentration and yield of riverine dissolved silicon from the poles to the tropics. Global Biogeochemical Cycles. 2023. doi:10.1029/2022GB007678.
Long-term ecosystem networks to record change: an international imperative. Antarctic Science. 2011;23(03):209. doi:10.1017/S0954102011000319.
Long-term perspectives on biodiversity-ecosystem function. Bioscience. 2003;(53):89-98.
. Long‐term shifts in feedbacks among glacier surface change, melt generation, and runoff, McMurdo Dry Valleys, Antarctica. Hydrological Processes. 2021. doi:10.1002/hyp.14292.
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.
Managing for ocean biodiversity to sustain marine ecosystem services. FRONTIERS IN ECOLOGY AND THE ENVIRONMENT. 2009;7:204-211. doi:LTER.
. A mathematical model for variation in water-retention curves among sandy soils. Antarctic Science. 2007;19:427-436. doi:LTER.
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.
. McMurdo Dry Valleys Long-Term Ecological Research (LTER): LTER automatic weather network (LAWN). Antarctic Journal of the U.S. 1995;30(5):276-280.
. McMurdo LTER: Developing a geographic information system access system. Antarctic Journal of the U.S. 1994;29(5):246-247.
. McMurdo LTER: Developing a geographic information system database. Antarctic Journal of the U.S. 1994;29(5):244-245.
McMurdo LTER: Inorganic geochemical studies with special reference to calcium carbonate dynamics. Antarctic Journal of the U.S. 1994;29(5):237-239.
. McMurdo LTER: Photosynthesis in an extreme shade habitat: benthic microbial mats from Lake Hoare, Antarctica. Journal of Phycology. 1999;35(3):448-459.
. McMurdo LTER: Photosynthesis in benthic cyanobacterial mats from Lake Hoare, Antarctica. Antarctic Journal of the U.S. 1995;30(5):296-297.
. McMurdo LTER: Progress with the Taylor Valley geographic information system. Antarctic Journal of the U.S. 1995;30(5):297-299.
. 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.
. McMurdo LTER: Streamflow Measurements in Taylor Valley. Antarctic Journal of the United States. 1994;29(5):230-232.