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Decadal-scale variability and warming affect spring timing and forest growth across the western Great Lakes region.

Authors
  • McPartland, Mara Y1, 2
  • 1 Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- und Meeresforschung, Potsdam, Germany. [email protected]. , (Germany)
  • 2 Department of Geography, Environment & Society, University of Minnesota, Minneapolis, MN, USA. [email protected].
Type
Published Article
Journal
International journal of biometeorology
Publication Date
Apr 01, 2024
Volume
68
Issue
4
Pages
701–717
Identifiers
DOI: 10.1007/s00484-023-02616-y
PMID: 38236422
Source
Medline
Keywords
Language
English
License
Unknown

Abstract

The Great Lakes region of North America has warmed by 1-2 °C on average since pre-industrial times, with the most pronounced changes observable during winter and spring. Interannual variability in temperatures remains high, however, due to the influence of ocean-atmosphere circulation patterns that modulate the warming trend across years. Variations in spring temperatures determine growing season length and plant phenology, with implications for whole ecosystem function. Studying how both internal climate variability and the "secular" warming trend interact to produce trends in temperature is necessary to estimate potential ecological responses to future warming scenarios. This study examines how external anthropogenic forcing and decadal-scale variability influence spring temperatures across the western Great Lakes region and estimates the sensitivity of regional forests to temperature using long-term growth records from tree-rings and satellite data. Using a modeling approach designed to test for regime shifts in dynamic time series, this work shows that mid-continent spring climatology was strongly influenced by the 1976/1977 phase change in North Pacific atmospheric circulation, and that regional forests show a strengthening response to spring temperatures during the last half-century. © 2024. The Author(s).

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