Litcius/Paper detail

Arctic sea ice retreat fuels boreal forest advance

Roman Dial, Colin Maher, Rebecca E. Hewitt, Amy M. Wockenfuss, R. Wong, Daniel J. Crawford, Madeline G. Zietlow, Patrick F. Sullivan

2024Science30 citationsDOI

Abstract

Climate-induced northward advance of boreal forest is expected to lessen albedo, alter carbon stocks, and replace tundra, but where and when this advance will occur remains largely unknown. Using data from 19 sites across 22 degrees of longitude along the tree line of northern Alaska, we show a stronger temporal correlation of tree ring growth with open water uncovered by retreating Arctic sea ice than with air temperature. Spatially, our results suggest that tree growth, recruitment, and range expansion are causally linked to open water through associated warmer temperatures, deeper snowpacks, and improved nutrient availability. We apply a meta-analysis to 82 circumarctic sites, finding that proportionally more tree lines have advanced where proximal to ongoing sea ice loss. Taken together, these findings underpin how and where changing sea ice conditions facilitate high-latitude forest advance.

Topics & Concepts

TundraTaigaSea iceBorealTree lineArctic ice packEnvironmental scienceArcticDendrochronologyClimatologyClimate changeCryospherePermafrostPhysical geographyAlbedo (alchemy)OceanographyGeologyGeographyForestryArtArt historyPerformance artPaleontologyTree-ring climate responsesClimate change and permafrostCryospheric studies and observations
Arctic sea ice retreat fuels boreal forest advance | Litcius