Red Orbit "A new study led by Lance Lesack, a Simon Fraser University geographer and Faculty of Environment professor, has discovered unexpected climate-driven changes in the mighty Mackenzie River’s ice breakup." via Lance Lesack, Simon Fraser University
'This discovery may help resolve the complex puzzle underlying why ice is disappearing more rapidly than expected.
'Lesack is the lead author on Local spring warming drives earlier river-ice breakup in a large Arctic delta. Published recently in Geophysical Research Letters, the study has co-authors at Wilfrid Laurier University, the University of Alberta and Memorial University.
'Its goal was to understand how warming global temperatures and the
intensifying Arctic hydrological cycle associated with them may be
driving increasing water discharges and more rapid ice breakup in the
Arctic’s great rivers.
'But the researchers stumbled upon an unexpected phenomenon while
trying to figure out why the Mackenzie River’s annual ice breakup has
been shortening even though its water discharge isn’t increasing, as in
'Just slightly warmer springs with unexpected snowfall declines —
rather than warmer winters or increasing river discharge, as previously
suspected — can drive earlier-than-expected ice breakup in great Arctic
'The Mackenzie exemplifies this unexpected phenomenon. The researchers
discovered this by accessing records dating back to 1958 of the river’s
water levels, snow depths, air temperatures and times of ice breakup.
'This finding is significant, as Arctic snow and ice systems are
important climate-system components that affect the Earth’s ability to
reflect solar radiation.'