Carbon-degrading enzyme activities stimulated by increased nutrient availability in arctic tundra soils. PLoS ONE. 2013 ;8(19):e77212..
Comparing trophic level position of invertebrates in fish and fishless lakes in Arctic Alaska. Logan, UT: Utah State University; 2013..
Comparing trophic level position of invertebrates in fish and fishless lakes in Arctic Alaska (POSTER). Student Colloquium. 2013 ..
Controls of benthic nitrogen fixation and primary production from nutrient enrichment of oligotrophic arctic lakes. Ecosystems. 2013 ;16:1150-1564..
Dark formation of hydroxyl radical in arctic soil and surface waters. Environmental Science and Technology. 2013 ;47(22):12860-12867..
Differential physiological responses to environmental change promote woody shrub expansion. Ecology and Evolution [Internet]. 2013 ;3(5):1149-1162. Available from: http://dx.doi.org/10.1002/ece3.525.
Disturbance and productivity as codeterminants of stream food web complexity in the Arctic. Limnology and Oceanography. 2013 ;58:2158-2170..
Diversity, Taxonomic versus Functional. In: Encyclopedia of Biodiversity, 2nd Edition. Vol. 7. 2nd ed. Encyclopedia of Biodiversity, 2nd Edition. Amsterdam, Netherlands: Elsevier Academic Press; 2013. pp. 648-656..
Ecosystem resilience and climate feedbacks in an arctic with fire (Invited Speaker). Grand Valley State University. 2013 ..
Effects of global change on arctic plants and our native prairies (Invited Speaker). Native Plant Society of Texas, Dallas Chapter. 2013 ..
Environmental controls of foliar respiration in arctic tundra plants. New York, NY: Columbia University; 2013..
Feedbacks to Ecosystems and Climate. ( ). Akureyri, Iceland: Arctic Council - Department of Conservatio of Arctic Flora and Fauna; 2013 pp. 628-652..
Geochemical influences on solubility of soil organic carbon in arctic tundra ecosystems. Soil Science Society of America Journal [Internet]. 2013 ;77(2):473-481. Available from: https://www.crops.org/publications/sssaj/abstracts/77/2/473.
Growing season and spatial variations of carbon fluxes of Arctic and boreal ecosystems in Alaska (USA). Ecological Applications. 2013 ;23(8):1798-1816..
Growth responses of Sphagnum hollows to a growing season lengthening manipulation in Alaskan Arctic tundra. Polar Biology [Internet]. 2013 ;36(1):41-50. Available from: http://dx.doi.org/10.1007/s00300-012-1236-x.
Hill slope variations in chlorophyll fluorescence indices and leaf traits in a small arctic watershed. Arctic, Antarctic and Alpine Research. 2013 ;45(1):39-49..
Identification of unrecognized tundra fire events on the north slope of Alaska. Journal of Geophysical Research: Biogeosciences. 2013 ;118:1334-1344..
The impacts of nutrient enrichment and a thermokarst failure on epipelic algae in Arctic lakes of differing morphometry. Providence, RI: Brown University; 2013..
Interactions between canopy structure and leaf trait distribution in arctic shrub communities. Edinburgh, UK: University of Edinburgh; 2013 p. 30..
Lake trout (Salvelinus namaycush) and arctic grayling (Thymallus arcticus) diet, population, and migration dynamics in Arctic ecosystems. New London, CT: Connecticut College; 2013..
Lethal and sub-lethal effects of UV-B radiation exposure on the collembolan Folsomia candida (Willem) in the laboratory. Pedobiologia. 2013 ;56(2):89-95..
Long-term warming restructures arctic tundra without changing net soil carbon storage. Nature. 2013 ;497:615-618..
Microbes in nature are limited by carbon and energy: the starving-survival lifestyle in soil and consequences for estimating microbial rates. Frontiers in Microbiology. 2013 ;4:324..
Novel tri-unsaturated alkenones in arctic lakes: Implications for paleotemperature reconstruction. Providence, RI: Brown University; 2013 p. 38..
Panarctic modeling of net ecosystem exchange of CO2. Philosophical Transactions of Royal Society: Biology. 2013 ;368(1624):20120485..