A Comprehensive Biogeochemical Assessment of Climate‐Threatened Glacial River Headwaters on the Eastern Slopes of the Canadian Rocky Mountains

Author:

Serbu J. A.1ORCID,St. Louis V. L.1ORCID,Emmerton C. A.12ORCID,Tank S. E.1ORCID,Criscitiello A. S.3ORCID,Silins U.4ORCID,Bhatia M. P.3ORCID,Cavaco M. A.3ORCID,Christenson C.4,Cooke C. A.23ORCID,Drapeau H. F.13ORCID,Enns S. J. A.1,Flett J. E.1,Holland K. M.3ORCID,Lavallee‐Whiffen J.1,Ma M.1,Muir C. E.1,Poesch M.4ORCID,Shin J.35ORCID

Affiliation:

1. Department of Biological Sciences University of Alberta Edmonton AB Canada

2. Environment and Protected Areas Government of Alberta Edmonton AB Canada

3. Department of Earth and Atmospheric Sciences University of Alberta Edmonton AB Canada

4. Department of Renewable Resources University of Alberta Edmonton AB Canada

5. Division of Glacial Environment Research Korea Polar Research Institute (KOPRI) Incheon Republic of Korea

Abstract

AbstractClimate change is driving the loss of alpine glaciers globally, yet investigations about the water quality of rivers stemming from them are few. Here we provide an overview assessment of a biogeochemical data set containing 200+ parameters that we collected between 2019 and 2021 from the headwaters of three such rivers (Sunwapta‐Athabasca, North Saskatchewan, and Bow) which originate from the glacierized eastern slopes of the Canadian Rocky Mountains. We used regional hydrometric data sets to accurately model discharge at our 14 sampling sites. We created a Local Meteoric Water Line (LMWL) using riverine water isotope signatures and compared it to collected regional rain, snow, and glacial ice signatures. Principal component analyses of river physicochemical measures revealed distance from glacier explained more data variability than other spatiotemporal factors (i.e., season, year, or river). Discharge, chemical concentrations, and watershed areas were then used to model site‐specific open water season yields for 25 parameters. Chemical yields followed what would generally be expected along river continuums from glacierized to montane altitudinal life zones, with landscape characteristics driving chemical sources and sinks. For instance, particulate chemical yields were generally highest near source glaciers with proglacial lakes acting as settling ponds, whereas most dissolved yields varied by parameter and site. As these headwaters continue to evolve with glacier mass loss, the data set and analyses presented here can be used as a contemporary baseline to mark future change against. Further, following this initial assessment of our data set, we encourage others to mine it for additional biogeochemical studies.

Funder

Alberta Conservation Association

National Geographic Society

Publisher

American Geophysical Union (AGU)

Subject

Paleontology,Atmospheric Science,Soil Science,Water Science and Technology,Ecology,Aquatic Science,Forestry

Reference125 articles.

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