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Above- and belowground responses of arctic tundra ecosystems to altered soil nutrients and mammalian herbivory. Ecology [Internet]. 2012 ;93(7):1683-1694. Available from: http://dx.doi.org/10.1890/11-1631.1.
Access pipes for sampling through thick ice. Hydrobiologia. 1992 ;240:267-269..
Advantages of a two band EVI calculated from solar and photosynthetically active radiation fluxes. Agricultural and Forest Meteorology [Internet]. 2009 ;149(9):1560-1563. Available from: http://dx.doi.org/10.1016/j.agrformet.2009.03.016.
Aggregating Fine-Scale Ecological Knowledge to Model Coarser-Scale Attributes of Ecosystems. Ecological Applications. 1992 ;2(1):55-70..
Amino acid cycling in plankton and soil microbes studied with radioisotopes: measured amino acids in soil do not reflect bioavailability. Biogeochemistry [Internet]. 2012 ;107(1-3):339-360. Available from: http://dx.doi.org/10.1007/s10533-010-9556-9.
An approach to understanding hydrologic connectivity on the hillslope and the implications for nutrient transport. Global Biogeochemical Cycles. 2003 ;17(4):1105..
An approach to using snow areal depletion curves inferred from MODIS and its application for land surface modelling in Alaska. Hydrological Processes. 2005 ;19(14):1755-2774..
Arctic and boreal ecosystems of western North America as components of the climate system. Global Change Biology. 2000 ;6:211-223.
Arctic arthropod assemblages in habitats of differing shrub dominance. Ecography [Internet]. 2013 ;36(9):994-1003. Available from: http://dx.doi.org/10.1111/j.1600-0587.2012.00078.x.
Arctic Bosmina morphology and copepod predation. Limnology and Oceanography. 1979 ;24:564-568..
Arctic canopy photosynthetic efficiency enhanced under diffuse light, linked to a reduction in the fraction of the canopy in deep shade. New Phytologist. 2014 ;202(4):1267-1276..
The Arctic freshwater system: changes and impacts. Journal of Geophysical Research: Biogeosciences. 2007 ;112(G4):G04S54.
Arctic lakes and streams as gas conduits to the atmosphere: implications for tundra carbon budgets. Science. 1991 ;251(4991):298-301..
Arctic shrub growth trajectories differ across soil moisture levels. Global Change Biology [Internet]. 2017 ;23(10):4294–4302. Available from: http://doi.wiley.com/10.1111/gcb.13677.
Arctic warming on two continents has consistent negative effects on lichen diversity and mixed effects on bryophyte diversity. Global Change Biology [Internet]. 2012 ;18(3):1096-1107. Available from: http://dx.doi.org/10.1111/j.1365-2486.2011.02570.x.
Arctic zooplankton community structure: exceptions to some general rules. Arctic. 1979 ;32:237-247..
Assessing the spatial variability in peak season CO2 exchange characteristics across the Arctic tundra using a light response curve parameterization. Biogeosciences. 2014 ;11:4897-4912.
At the forefront: evidence of the applicability of using environmental DNA to quantify the abundance of fish populations in natural lentic waters with additional sampling considerations. Canadian Journal of Fisheries and Aquatic Sciences [Internet]. 2017 :1 - 5. Available from: http://www.nrcresearchpress.com/doi/10.1139/cjfas-2017-0114.
Bacterial diversity in an arctic lake: a freshwater SAR11 cluster. Aquatic Microbial Ecology [Internet]. 1996 ;11(3):271-277. Available from: <Go to ISI>://WOS:A1996WD15000008.
Bacterial responses in activity and community composition to photo-oxidation of dissolved organic matter from soil and surface waters. Aquatic Sciences. 2007 ;69:96-107..
Bacterioplankton community shifts in an Arctic lake correlate with seasonal changes in organic matter source. Applied and Environmental Microbiology. 2003 ;69(4):2253-2268..
Below-ground carbon transfer among Betula nana may increase with warming in Arctic tundra. New Phytologist. 2011 ;192(3):689-698..
Benthic community metabolism in deep and shallow Arctic lakes during 13 years of whole-lake fertilization. Limnology and Oceanography. 2015 ;60(5)..
Benthic metabolism of arctic coastal ponds, Barrow, Alaska. Vereinigung Verhandlungen International Limnologie. 1975 ;19:459-465..
Benthos as the basis for arctic lake food webs. Aquatic Ecology. 2003 ;37(4):437-445..