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Sensitivity of Deciduous Forest Phenology to Environmental Drivers: Implications for Climate Change Impacts Across North America

Bijan Seyednasrollah, Adam M. Young, Xiaolu Li, Tom Milliman, Toby R. Ault, Steve Frolking, M. A. Friedl, Andrew D. Richardson

2020Geophysical Research Letters34 citationsDOIOpen Access PDF

Abstract

Abstract Projected changes in temperature and precipitation are expected to influence spring and autumn vegetation phenology and hence the length of the growing season in many ecosystems. However, the sensitivity of green‐up and senescence to climate remains uncertain. We analyzed 488 site years of canopy greenness measurements from deciduous forest broadleaf forests across North America. We found that the sensitivity of green‐up to temperature anomalies increases with increasing mean annual temperature, suggesting lower temperature sensitivity as we move to higher latitudes. Furthermore, autumn senescence is most sensitive to moisture deficits at dry sites, with decreasing sensitivity as mean annual precipitation increases. Future projections suggest North American deciduous forests will experience higher sensitivity to temperature in the next 50 years, with larger changes expected in northern regions than in southern regions. Our study highlights how interactions between long‐term and short‐term changes in the climate system influence green‐up and senescence.

Topics & Concepts

DeciduousPhenologyPrecipitationEnvironmental scienceClimate changeLatitudeClimatologyEcosystemGrowing seasonVegetation (pathology)CanopyAtmospheric sciencesPhysical geographyEcologyGeographyBiologyMeteorologyGeologyPathologyGeodesyMedicinePlant Water Relations and Carbon DynamicsSpecies Distribution and Climate ChangeRemote Sensing in Agriculture
Sensitivity of Deciduous Forest Phenology to Environmental Drivers: Implications for Climate Change Impacts Across North America | Litcius