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A multi-scale hydroclimatic analysis of runoff generation in the Athabasca River, western Canada

Peters, Daniel L. ; Atkinson, David ; Monk, Wendy A. ; Tenenbaum, David LU and Baird, Donald J. (2013) In Hydrological Processes 27(13). p.1915-1934
Abstract
A multi-scale hydroclimatic study of runoff generation in the Athabasca River watershed located in western Canada is presented. Mann-Kendall trend detection tests performed on hydrometric data for the lower Athabasca River (LAR) revealed predominantly significant (p<0.05) declines in annual and open-water season median/mean runoff indices over 1958-2009, with the ice-influenced season experiencing significant declines in the median and not the mean. The presence or absence of significant declines in the 25th and 75th runoff percentiles helped explain these results. The only noteworthy result from the mid-point of the watershed was a probable (p<0.10) decline in median open-water runoff, which was not seen over the 1913-2009 period.... (More)
A multi-scale hydroclimatic study of runoff generation in the Athabasca River watershed located in western Canada is presented. Mann-Kendall trend detection tests performed on hydrometric data for the lower Athabasca River (LAR) revealed predominantly significant (p<0.05) declines in annual and open-water season median/mean runoff indices over 1958-2009, with the ice-influenced season experiencing significant declines in the median and not the mean. The presence or absence of significant declines in the 25th and 75th runoff percentiles helped explain these results. The only noteworthy result from the mid-point of the watershed was a probable (p<0.10) decline in median open-water runoff, which was not seen over the 1913-2009 period. Divergent seasonal runoff trends from the headwater zone were seen since 1958 and back to 1913, increasing ice-influenced and declining open-water season runoff trends. Although precipitation was observed to decline over 1958-2009, only the LAR watershed scale annual index emerged as a probable decline. Multiple non-linear regression analysis indicated that variation in precipitation explained >67% of the annual median/mean LAR runoff variability since 1958. A first-order precipitation driven hindcasting model suggested that LAR watershed scale runoff may have increased since 1913, warranting further study. A correlation analysis of climatic teleconnections with median/mean runoff indices revealed that the winter North Pacific American index showed a strong, positive association with open-water runoff. The results from our study demonstrated that potentially inconsistent and/or divergent trend results can be obtained when using different time periods and/or regions of the watershed, emphasizing that extreme caution should be exercised when extrapolating sub-watershed results to the watershed scale, or to adjacent watersheds. Our multi-scale study approach also identified the drainage area between Athabasca and Fort McMurray as a zone that influenced runoff declines observed at the LAR watershed scale since 1958, which warrants further investigation with competent hydrological models. Copyright (c) 2013 John Wiley & Sons Ltd and Her Majesty the Queen in Right of Canada Reproduced with the permission of the Ministry of the Environment. (Less)
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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Athabasca River, Peace-Athabasca Delta, runoff generation, trend, analysis, climate variability, teleconnections
in
Hydrological Processes
volume
27
issue
13
pages
1915 - 1934
publisher
John Wiley & Sons Inc.
external identifiers
  • wos:000320403300009
  • scopus:84879154519
ISSN
1099-1085
DOI
10.1002/hyp.9699
language
English
LU publication?
yes
id
8257463c-f0c5-4be5-9331-cb1b5fafe8c6 (old id 3980146)
date added to LUP
2016-04-01 10:08:11
date last changed
2022-04-19 23:01:51
@article{8257463c-f0c5-4be5-9331-cb1b5fafe8c6,
  abstract     = {{A multi-scale hydroclimatic study of runoff generation in the Athabasca River watershed located in western Canada is presented. Mann-Kendall trend detection tests performed on hydrometric data for the lower Athabasca River (LAR) revealed predominantly significant (p&lt;0.05) declines in annual and open-water season median/mean runoff indices over 1958-2009, with the ice-influenced season experiencing significant declines in the median and not the mean. The presence or absence of significant declines in the 25th and 75th runoff percentiles helped explain these results. The only noteworthy result from the mid-point of the watershed was a probable (p&lt;0.10) decline in median open-water runoff, which was not seen over the 1913-2009 period. Divergent seasonal runoff trends from the headwater zone were seen since 1958 and back to 1913, increasing ice-influenced and declining open-water season runoff trends. Although precipitation was observed to decline over 1958-2009, only the LAR watershed scale annual index emerged as a probable decline. Multiple non-linear regression analysis indicated that variation in precipitation explained &gt;67% of the annual median/mean LAR runoff variability since 1958. A first-order precipitation driven hindcasting model suggested that LAR watershed scale runoff may have increased since 1913, warranting further study. A correlation analysis of climatic teleconnections with median/mean runoff indices revealed that the winter North Pacific American index showed a strong, positive association with open-water runoff. The results from our study demonstrated that potentially inconsistent and/or divergent trend results can be obtained when using different time periods and/or regions of the watershed, emphasizing that extreme caution should be exercised when extrapolating sub-watershed results to the watershed scale, or to adjacent watersheds. Our multi-scale study approach also identified the drainage area between Athabasca and Fort McMurray as a zone that influenced runoff declines observed at the LAR watershed scale since 1958, which warrants further investigation with competent hydrological models. Copyright (c) 2013 John Wiley &amp; Sons Ltd and Her Majesty the Queen in Right of Canada Reproduced with the permission of the Ministry of the Environment.}},
  author       = {{Peters, Daniel L. and Atkinson, David and Monk, Wendy A. and Tenenbaum, David and Baird, Donald J.}},
  issn         = {{1099-1085}},
  keywords     = {{Athabasca River; Peace-Athabasca Delta; runoff generation; trend; analysis; climate variability; teleconnections}},
  language     = {{eng}},
  number       = {{13}},
  pages        = {{1915--1934}},
  publisher    = {{John Wiley & Sons Inc.}},
  series       = {{Hydrological Processes}},
  title        = {{A multi-scale hydroclimatic analysis of runoff generation in the Athabasca River, western Canada}},
  url          = {{http://dx.doi.org/10.1002/hyp.9699}},
  doi          = {{10.1002/hyp.9699}},
  volume       = {{27}},
  year         = {{2013}},
}