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1. Diffusive vertical heat flux in the Canada Basin of the Arctic Ocean inferred from moored instruments: VERTICAL HEAT FLUX IN THE CANADA BASIN

   https://doi.org/10.1002/2013JC009346  

   Lique, Camille ; Guthrie, John D. ; Steele, Michael ; Proshutinsky, Andrey ; Morison, James H. ; Krishfield, Richard ( January 2014 , Journal of Geophysical Research: Oceans)
2. Zooplankton community structure and dynamics in the Arctic Canada Basin during a period of intense environmental change (2004-2009)

   https://doi.org/10.1002/2013JC009156  

   Hunt, Brian P. ; Nelson, R. John ; Williams, Bill ; McLaughlin, Fiona A. ; Young, Kelly V. ; Brown, Kristina A. ; Vagle, Svein ; Carmack, Eddy C. ( April 2014 , Journal of Geophysical Research: Oceans)
3. Late Neoproterozoic – early Paleozoic basin evolution in the Coal Creek inlier of Yukon, Canada: implications for the tectonic evolution of northwestern Laurentia

   https://doi.org/10.1139/cjes-2020-0132  

   Busch, James F. ; Rooney, Alan D. ; Meyer, Edward E. ; Town, Caleb F. ; Moynihan, David P. ; Strauss, Justin V. ( April 2021 , Canadian Journal of Earth Sciences)

   null (Ed.)

   The age and nature of the Neoproterozoic – early Paleozoic rift–drift transition has been interpreted differently along the length of the North American Cordillera. The Ediacaran “upper” group (herein elevated to the Rackla Group) of the Coal Creek inlier, Yukon, Canada, represents a key succession to reconstruct the sedimentation history of northwestern Laurentia across the Precambrian–Cambrian boundary and elucidate the timing of active tectonism during the protracted breakup of the supercontinent Rodinia. These previously undifferentiated late Neoproterozoic – early Paleozoic map units in the Coal Creek inlier are herein formally defined as the Lone, Cliff Creek, Mount Ina, Last Chance, Shade, and Shell Creek formations. New sedimentological and stratigraphic data from these units is used to reconstruct the depositional setting. In the Last Chance Formation, chemostratigraphic observations indicate a ca. 5‰ δ 13 C carb gradient coincident with the globally recognized ca. 574–567 Ma Shuram carbon isotope excursion. Map and stratigraphic relationships in the overlying Shell Creek Formation provide evidence for latest Ediacaran – middle Cambrian tilting and rift-related sedimentation. This provides evidence for active extension through the Cambrian Miaolingian Series in northwestern Canada, supporting arguments for a multiphase and protracted breakup of Rodinia. 

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4. The 2016–2017 deep-water Canada Basin Acoustic Propagation Experiment (CANAPE): An overview

   https://doi.org/10.1121/1.5067421  

   Worcester, Peter F. ; Dzieciuch, Matthew A. ; Colosi, John A. ; Proshutinsky, Andrey Y. ; Krishfield, Richard A. ; Nash, Jonathan D. ; Kemp, John N. ( September 2018 , The Journal of the Acoustical Society of America)
5. Paleohydrological context for recent floods and droughts in the Fraser River Basin, British Columbia, Canada

   https://doi.org/10.1088/1748-9326/ac3daf  

   Brice, Becky L ; Coulthard, Bethany L ; Homfeld, Inga K ; Dye, Laura A ; Anchukaitis, Kevin J ( December 2021 , Environmental Research Letters)

   Abstract The recent intensification of floods and droughts in the Fraser River Basin (FRB) of British Columbia has had profound cultural, ecological, and economic impacts that are expected to be exacerbated further by anthropogenic climate change. In part due to short instrumental runoff records, the long-term stationarity of hydroclimatic extremes in this major North American watershed remains poorly understood, highlighting the need to use high-resolution paleoenvironmental proxies to inform on past streamflow. Here we use a network of tree-ring proxy records to develop 11 subbasin-scale, complementary flood- and drought-season reconstructions, the first of their kind. The reconstructions explicitly target management-relevant flood and drought seasons within each basin, and are examined in tandem to provide an expanded assessment of extreme events across the FRB with immediate implications for water management. We find that past high flood-season flows have been of greater magnitude and occurred in more consecutive years than during the observational record alone. Early 20th century low flows in the drought season were especially severe in both duration and magnitude in some subbasins relative to recent dry periods. Our Fraser subbasin-scale reconstructions provide long-term benchmarks for the natural flood and drought variability prior to anthropogenic forcing. These reconstructions demonstrate that the instrumental streamflow records upon which current management is based likely underestimate the full natural magnitude, duration, and frequency of extreme seasonal flows in the FRB, as well as the potential severity of future anthropogenically forced events. 

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