On the sensitivity of root and leaf phenology to warming in the Arctic

Temperature is commonly assumed to act as the primary constraint on the timing of plant growth, and strong advances in plant phenology have been seen with recent atmospheric warming. The influence of temperature on the timing of root growth, however, is less clear, and controls on root phenology are...

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Bibliographic Details
Published in:Arctic, Antarctic, and Alpine Research
Main Authors: Laura Radville, Eric Post, David M. Eissenstat
Format: Article in Journal/Newspaper
Language:English
Published: Taylor & Francis Group 2018
Subjects:
phenology
climate change
warming
arctic
root phenology
envir
geo
Arctic
Greenland
Antarctic and Alpine Research
Climate change
Online Access:https://doi.org/10.1080/15230430.2017.1414457
https://doaj.org/article/6a45f9bb65dc474c99b19b4fca238354
Description
Summary:Temperature is commonly assumed to act as the primary constraint on the timing of plant growth, and strong advances in plant phenology have been seen with recent atmospheric warming. The influence of temperature on the timing of root growth, however, is less clear, and controls on root phenology are not well understood. The influence of temperature on above- and belowground phenology is particularly important in the Arctic, where most plant biomass is belowground and warming is occurring at a higher rate than in other ecosystems. We examined the influence of experimental warming on graminoid and shrub communities in the Arctic in southern west Greenland. We found that warming since 2012 did not advance the timing of aboveground seasonal dynamics during two years or belowground seasonal dynamics during three years. We suggest that growing-season temperature may no longer be the primary constraint on plant phenology at this site, and plant phenological responses to future warming at the site may consequently be weaker.

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