Antarctic microbial mats: A modern analog for Archean lacustrine oxygen oases. Geology G36966.1 (2015). doi:10.1130/G36966.1
Antarctic streams as a potential source of iron for the Southern Ocean: Figure 1. Geology 43, 1003 - 1006 (2015).
Chemical Weathering and Mineralogy of McMurdo Dry Valley Streams: Examining the Controls of Current and Future Ephemeral Stream Geochemistry. School of Earth Sciences Undergraduate Theses, 38 (2015).
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 404, 110 - 125 (2015).
Controls on diel soil CO2 flux across moisture gradients in a polar desert. Antarctic Science (2015). doi:10.1017/S0954102015000255
Cyanobacterial diversity in benthic mats of the McMurdo Dry Valley lakes, Antarctica. Polar Biology 38, 1097 - 1110 (2015).
Deep groundwater and potential subsurface habitats beneath an Antarctic dry valley. Nature Communications 6, 6831 (2015).
Experimental formation of pore fluids in McMurdo Dry Valleys soils. Antarctic Science 27, 163 - 171 (2015).
Fostering ecological data sharing: collaborations in the International Long Term Ecological Research Network. Ecosphere 6, (2015).
The genus Luticola D.G.Mann (Bacillariophyta) from the McMurdo Sound Region, Antarctica, with the description of four new species. Phytotaxa 208, 103 (2015).
Global environmental change and the nature of aboveground net primary productivity responses: insights from long-term experiments. Oecologia 177, 935 - 947 (2015).
The impacts of thermokarst activity on a stream in the McMurdo Dry Valleys. Department of Civil and Environmental Engineering M.S., 70 (2015).
Linking management to biodiversity in built ponds using metacommunity simulations. Ecological Modelling 296, 36 - 45 (2015).
Long-Term Hydrologic Control of Microbial Mat Abundance in McMurdo Dry Valley Streams, Antarctica. Ecosystems 18, 310-327 (2015).
Mitochondrial DNA analyses reveal widespread tardigrade diversity in Antarctica. Invertebrate Systematics 29, 578 (2015).
Niche and metabolic principles explain patterns of diversity and distribution: theory and a case study with soil bacterial communities. Proceedings of the Royal Society B: Biological Sciences 282, 2630 (2015).
Patterns and processes of salt efflorescences in the McMurdo region, Antarctica. Artic, Antarctic and Alpine Research (2015). at <http://aaarjournal.org/doi/abs/10.1657/AAAR0014-024>
Physical and chemical controls on the abundance and composition of stream microbial mats from the McMurdo Dry Valleys, Antarctica. Environmental Studies Ph.D., 272 (2015).
The Polar Regions: An Environmental History. 248 (Polity, 2015). at <http://www.wiley.com/WileyCDA/WileyTitle/productCd-0745670806.html>
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 51, 6725 - 6738 (2015).
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 29, 2212 - 2231 (2015).
Quantifying long-term geomorphology of Antarctic streams. Department of Civil, Environmental, and Architectural Engineering MS, 185 (2015).
Reconstructing the evolution of Lake Bonney, Antarctica using dissolved noble gases. Applied Geochemistry 58, 46 - 61 (2015).
Recovery of Antarctic stream epilithon from simulated scouring events. Antarctic Science 27, 341 - 354 (2015).
A roadmap for Antarctic and Southern Ocean science for the next two decades and beyond. Antarctic Science 27, 3 - 18 (2015).