McMurdo LTER Publications
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Geomicrobiology of sub-glacial ice above Vostok Station. Science. 1999;286(5447):2141-2144. doi:10.1126/science.286.5447.2141.
. Mercury in aquatic systems in Antarctica. Geophysical Research Letters. 1999;26(15):2235-2238.
Physical controls on the Taylor Valley Ecosystem, Antarctica. BioScience. 1999;49(12):961-972.
. Soil invertebrates. In: Standard Soil Methods for Long Term Ecological Research. Standard Soil Methods for Long Term Ecological Research. New York: Oxford University Press; 1999:349-377. doi:LTER.
. Soil invertebrates. In: Standard Soil Methods for Long Term Ecological Research. Standard Soil Methods for Long Term Ecological Research. New York: Oxford University Press; 1999:349-377. doi:LTER.
. Dynamics of the deep chlorophyll maximum within the lakes of the McMurdo Dry Valleys, Antarctica. 2000;M.S. doi:LTER.
Global biodiversity scenarios for the year 2100. Science. 2000;287:1770-1774. doi:LTER.
Global biodiversity scenarios for the year 2100. Science. 2000;287:1770-1774. doi:LTER.
Global change effects on above and below ground biodiversity in terrestrial ecosystems: interactions and implications for ecosystem functioning. Bioscience. 2000;50:1089-1099. doi:LTER.
Global change effects on above and below ground biodiversity in terrestrial ecosystems: interactions and implications for ecosystem functioning. Bioscience. 2000;50:1089-1099. doi:LTER.
Global change effects on above and below ground biodiversity in terrestrial ecosystems: interactions and implications for ecosystem functioning. Bioscience. 2000;50:1089-1099. doi:LTER.
Interactions between above and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms and feedbacks. BioScience. 2000;50:1049-1061.
Interactions between above and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms and feedbacks. BioScience. 2000;50:1049-1061.
Interactions between above and belowground biodiversity in terrestrial ecosystems: patterns, mechanisms and feedbacks. BioScience. 2000;50:1049-1061.
. Mixotrophy as a survival strategy among planktonic protozoa in Antarctic lakes. In: Antarctic Ecosystems: Models for Wider Ecological Understanding. Antarctic Ecosystems: Models for Wider Ecological Understanding. Caxton Press; 2000.
. Mixotrophy as a survival strategy among planktonic protozoa in Antarctic lakes. In: Antarctic Ecosystems: Models for Wider Ecological Understanding. Antarctic Ecosystems: Models for Wider Ecological Understanding. Caxton Press; 2000.
. Nematodes - Pervading The Earth and Linking All Life. In: Nature and Human Society: The Quest for a Sustainable World. Nature and Human Society: The Quest for a Sustainable World. Committee for the Second Forum on Biodiversity, National Academy of Sciences and National Research Council; 2000:176-191.
. The Origin of Soil Organic Matter in Taylor Valley, Antarctica: A Legacy of Climate Change. Ecology. 2000;81:2377-2391.
. Protozoan growth rates in Antarctic lakes. Polar Biology. 2000;23:445-451.
. Soil Biodiversity and Ecosystem Functioning. In: Biological Resource Management. Connecting Science and Policy. Biological Resource Management. Connecting Science and Policy. Heidelberg: Springer; 2000:283-290.
. 519-529A model for nematode locomotion in soil. Nematology. 2001;3(7):705-716.
. The influence of mixotroph growth on DOM chemistry in Pony Lake, a eutrophic coastal pond in Antarctica. 2001;M.S. doi:LTER.
The influence of soil biodiversity on hydrological pathways and the transfer of materials between terrestrial and aquatic ecosystems. Ecosystems. 2001;4(421-429).