McMurdo LTER Publications

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2013
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.
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.
Dieser M, Foreman CM, Jaros C, et al. Physicochemical and biological dynamics in a coastal Antarctic lake as it transitions from frozen to open water. Antarctic Science. 2013;25(5):663–675.
Dieser M, Foreman CM, Jaros C, et al. Physicochemical and biological dynamics in a coastal Antarctic lake as it transitions from frozen to open water. Antarctic Science. 2013;25(5):663–675.
2014
Yuan X, Vick-Majors TJ, Morgan-Kiss RM, Priscu JC, Amaral-Zettler LA. Ciliate diversity, community structure and novel taxa in lakes of the McMurdo Dry Valleys, Antarctica. Biological Bulleting. 2014;227(2):175-190.
Cullis JDS, Stanish LF, McKnight DM. Diel flow pulses drive particulate organic matter transport from microbial mats in a glacial meltwater stream in the McMurdo Dry Valleys. Water Resources Research. 2014;50(1):86-97. doi:10.1002/2013WR014061.
Sakaeva A. Ecology and biogeography of freshwater diatoms in ponds of McMurdo Dry Valleys and parts of the Ross Island. McKnight DM. Environmental Studies Program. 2014;M.S. Available at: https://search.proquest.com/docview/1655818365?accountid=14503.
Dolhi JM, Morgan-Kiss RM. Environmental impacts on RubisCO from green algal laboratory isolates to Antarctic lake communities. Department of Microbiology. 2014;Ph.D. Available at: http://rave.ohiolink.edu/etdc/view?acc_num=miami1407056783.
Doran PT, Kenig F, Knoepfle L, Mikucki JA, W. Lyons B. Radiocarbon abundance and reservoir effects in lakes of the McMurdo Dry Valleys, Antarctica. Limnology and Oceanography. 2014;59(3):811-826.
Convey P, Chown SL, Clarke A, et al. The spatial structure of Antarctic biodiversity. Ecological Monographs. 2014;84(2):203 - 244. doi:10.1890/12-2216.1.
Convey P, Chown SL, Clarke A, et al. The spatial structure of Antarctic biodiversity. Ecological Monographs. 2014;84(2):203 - 244. doi:10.1890/12-2216.1.
Telling J, Anesio AM, Tranter M, et al. Spring thaw ionic pulses boost nutrient availability and microbial growth in entombed Antarctic Dry Valley cryoconite holes. Frontiers in Microbiology. 2014;5. doi:10.3389/fmicb.2014.00694.
2015
Sumner DY, Hawes I, Mackey TJ, Jungblut AD, Doran PT. Antarctic microbial mats: A modern analog for Archean lacustrine oxygen oases. Geology. 2015:G36966.1. doi:10.1130/G36966.1.
W. Lyons B, Dailey KR, Welch KA, Deuerling KM, Welch S, McKnight DM. Antarctic streams as a potential source of iron for the Southern Ocean: Figure 1. Geology. 2015;43(11):1003 - 1006. doi:10.1130/G36989.1.
Yang N, Welch KA, T. Mohajerin J, et al. Comparison of arsenic and molybdenum geochemistry in meromictic lakes of the McMurdo Dry Valleys, Antarctica: Implications for oxyanion-forming trace element behavior in permanently stratified lakes. Chemical Geology. 2015;404:110 - 125. doi:10.1016/j.chemgeo.2015.03.029.
Zhang L, Jungblut AD, Hawes I, Andersen DT, Sumner DY, Mackey TJ. Cyanobacterial diversity in benthic mats of the McMurdo Dry Valley lakes, Antarctica. Polar Biology. 2015;38(8):1097 - 1110. doi:10.1007/s00300-015-1669-0.
Mikucki JA, Auken E, Tulaczyk S, et al. Deep groundwater and potential subsurface habitats beneath an Antarctic dry valley. Nature Communications. 2015;6:6831. doi:10.1038/ncomms7831.
Smith MD, La Pierre KJ, Collins SL, et al. Global environmental change and the nature of aboveground net primary productivity responses: insights from long-term experiments. Oecologia. 2015;177(4):935 - 947. doi:10.1007/s00442-015-3230-9.
Smith MD, La Pierre KJ, Collins SL, et al. Global environmental change and the nature of aboveground net primary productivity responses: insights from long-term experiments. Oecologia. 2015;177(4):935 - 947. doi:10.1007/s00442-015-3230-9.
Kohler TJ, Stanish LF, Crisp S, et al. Long-Term Hydrologic Control of Microbial Mat Abundance in McMurdo Dry Valley Streams, Antarctica. Ecosystems. 2015;18(2):310-327. Available at: http://link.springer.com/article/10.1007%2Fs10021-014-9829-6.
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.
Kohler TJ. Physical and chemical controls on the abundance and composition of stream microbial mats from the McMurdo Dry Valleys, Antarctica. McKnight DM. Environmental Studies. 2015;Ph.D.:272. Available at: https://search.proquest.com/docview/1690497718?accountid=14503.
McKnight DM, Cozzetto K, Cullis JDS, et al. Potential for real-time understanding of coupled hydrologic and biogeochemical processes in stream ecosystems: Future integration of telemetered data with process models for glacial meltwater streams. Water Resources Research. 2015;51(8):6725 - 6738. doi:10.1002/2015WR017618.
Castendyk D, McKnight DM, Welch KA, Niebuhr S, Jaros C. Pressure-driven, shoreline currents in a perennially ice-covered, pro-glacial lake in Antarctica, identified from a LiCl tracer injected into a pro-glacial stream. Hydrological Processes. 2015;29(9):2212 - 2231. doi:10.1002/hyp.v29.910.1002/hyp.10352.
Crisp SW. Quantifying long-term geomorphology of Antarctic streams. McKnight DM. Department of Civil, Environmental, and Architectural Engineering. 2015;MS:185. Available at: https://search.proquest.com/docview/1727444346?accountid=14503.

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