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Full-Text Articles in Life Sciences
Can Plant Or Lichen Natural Abundance N-15 Ratios Indicate The Influence Of Oil Sands N Emissions On Bogs?, R. Kelman Wieder, Melanie A. Vile, Dale H. Vitt, Kimberli D. Scott, Bin Xu, James C. Quinn, Cara M. Albright
Can Plant Or Lichen Natural Abundance N-15 Ratios Indicate The Influence Of Oil Sands N Emissions On Bogs?, R. Kelman Wieder, Melanie A. Vile, Dale H. Vitt, Kimberli D. Scott, Bin Xu, James C. Quinn, Cara M. Albright
Public Health Sciences Faculty Publications
Study region: The 140,329 km(2 )Athabasca Oil Sands Administrative Area (OSAA), which contains 8982 km(2) of bogs. Since the late 1970s, N emissions from oil sands development in the OSAA have steadily increased, reaching over 80,000 metric tonnes yr(-1) in 2017.& nbsp;Study focus: If oil sands N emissions have distinct stable isotopic signatures, it may be possible to quantify the extent to which these emissions have affected N cycling in surrounding aquatic, wetland, and terrestrial ecosystems. To assess the potential for 15N as a tracer of oil sands N emissions, we measured natural abundance 15N ratios and tissue N concentrations …
Resolving The Drivers Of Algal Nutrient Limitation From Boreal To Arctic Lakes And Streams, Maria Myrstener, Megan Fork, Ann-Kristin Bergstrom, Isolde Callisto Puts, Demian Hauptmann, Peter D. F. Isles, Ryan M. Burrows, Ryan A. Sponseller
Resolving The Drivers Of Algal Nutrient Limitation From Boreal To Arctic Lakes And Streams, Maria Myrstener, Megan Fork, Ann-Kristin Bergstrom, Isolde Callisto Puts, Demian Hauptmann, Peter D. F. Isles, Ryan M. Burrows, Ryan A. Sponseller
Biology Faculty Publications
Nutrient inputs to northern freshwaters are changing, potentially altering aquatic ecosystem functioning through effects on primary producers. Yet, while primary producer growth is sensitive to nutrient supply, it is also constrained by a suite of other factors, including light and temperature, which may play varying roles across stream and lake habitats. Here, we use bioassay results from 89 lakes and streams spanning northern boreal to Arctic Sweden to test for differences in nutrient limitation status of algal biomass along gradients in colored dissolved organic carbon (DOC), water temperature, and nutrient concentrations, and to ask whether there are distinct patterns and …
Experimental Nitrogen Addition Alters Structure And Function Of A Boreal Poor Fen: Implications For Critical Loads, R. Kelman Wieder, Dale H. Vitt, Melanie A. Vile, Jeremy A. Graham, Jeremy A. Hartsock, Jacqueline M.A. Popma, Hope Fillingim, Melissa House, James C. Quinn, Kimberli D. Scott, Meaghan Petix, Kelly J. Mcmillen
Experimental Nitrogen Addition Alters Structure And Function Of A Boreal Poor Fen: Implications For Critical Loads, R. Kelman Wieder, Dale H. Vitt, Melanie A. Vile, Jeremy A. Graham, Jeremy A. Hartsock, Jacqueline M.A. Popma, Hope Fillingim, Melissa House, James C. Quinn, Kimberli D. Scott, Meaghan Petix, Kelly J. Mcmillen
Public Health Sciences Faculty Publications
Bogs and fens cover 6 and 21%, respectively, of the 140,329 km2 Oil Sands Administrative Area in northern Alberta. Regional background atmospheric N deposition is low (b2 kg N ha−1 yr−1 ), but oil sands development has led to increasing N deposition (as high as 17 kg N ha−1 yr−1 ). To examine responses to N deposition, over five years, we experimentally applied N (as NH4NO3) to a poor fen near Mariana Lake, Alberta, unaffected by oil sands activities, at rates of 0, 5, 10, 15, 20, and 25 kg N ha−1 yr−1 , plus controls (no water or N …