Nature Communications (Jul 2024)

Accelerating glacier volume loss on Juneau Icefield driven by hypsometry and melt-accelerating feedbacks

  • Bethan Davies,
  • Robert McNabb,
  • Jacob Bendle,
  • Jonathan Carrivick,
  • Jeremy Ely,
  • Tom Holt,
  • Bradley Markle,
  • Christopher McNeil,
  • Lindsey Nicholson,
  • Mauri Pelto

DOI
https://doi.org/10.1038/s41467-024-49269-y
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 19

Abstract

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Abstract Globally, glaciers and icefields contribute significantly to sea level rise. Here we show that ice loss from Juneau Icefield, a plateau icefield in Alaska, accelerated after 2005 AD. Rates of area shrinkage were 5 times faster from 2015–2019 than from 1979–1990. Glacier volume loss remained fairly consistent (0.65–1.01 km3 a−1) from 1770–1979 AD, rising to 3.08–3.72 km3 a−1 from 1979–2010, and then doubling after 2010 AD, reaching 5.91 ± 0.80 km3 a−1 (2010–2020). Thinning has become pervasive across the icefield plateau since 2005, accompanied by glacier recession and fragmentation. Rising equilibrium line altitudes and increasing ablation across the plateau has driven a series of hypsometrically controlled melt-accelerating feedbacks and resulted in the observed acceleration in mass loss. As glacier thinning on the plateau continues, a mass balance-elevation feedback is likely to inhibit future glacier regrowth, potentially pushing glaciers beyond a dynamic tipping point.