# Growing Season Lengthens in a North American Deciduous Woody Community From 1993 to 2021

**Authors:** Carol K. Augspurger, David N. Zaya

PMC · DOI: 10.1002/ece3.71226 · Ecology and Evolution · 2025-05-19

## TL;DR

Over 29 years, the growing season in a North American forest has lengthened due to climate change, with spring events happening earlier and autumn events later.

## Contribution

The study provides long-term evidence of climate-driven changes in phenology and their ecological implications in a deciduous woody community.

## Key findings

- The growing season lengthened by an average of 4.7 days per decade for 88% of species.
- Warmer spring temperatures and higher autumn minimum temperatures were key drivers of phenological changes.
- Canopy trees showed greater autumn delays, while other woody species advanced in spring.

## Abstract

Observations of both spring and autumn phenological events were made annually over 29 years (1993–2021) for 22 taxa of multiple growth forms in a mature deciduous forest remnant near Urbana, Illinois, USA. Temporal trends in event dates, trends in stage durations, and associations with weather variables were analyzed with linear mixed‐effect models. Species were grouped together in analyses based on seasonality.Spring event dates for most species advanced from 1.2 to 3.0 days/decade, while durations of spring stages shortened from 0.3 to 0.6 days/decade.Autumn event dates for most species delayed from 1.2 to 3.3 days/decade, while durations of autumn stages lengthened from 0.8 to 3.8 days/decade.Overall, the duration of the growing season lengthened for 88% of species (mean of 4.7 days/decade), with greater delays in autumn phenology for canopy trees and greater advances in spring phenology for other woody life forms.In spring, warmer mean daily temperatures were associated with advances in dates of phenological events. In autumn, minimum daily temperature in the preceding month(s) had the highest predictive power for seasonal groups, except those with 
Aesculus glabra
.In autumn, most species had both a delay in phenology and a strong weather predictor, minimum daily temperature in September, that increased significantly through 29 years. In spring, some concordance between advancing event dates and warming spring temperatures were evident after removing data from 2018 to 2021 with especially high variability in spring temperatures.This study supports the hypothesis that climate change is showing a pronounced association with a delay in autumn leaf coloration, and less so an advance of spring leaf expansion. These changes can affect ecological processes, including plant productivity and carbon uptake/storage, assembly of communities, interactions between trophic levels, and species ranges and invasions.

Observations of both spring and autumn phenological events were made annually over 29 years (1993–2021) for 22 taxa of multiple growth forms in a mature deciduous forest remnant near Urbana, Illinois, USA. Temporal trends in event dates, trends in stage durations, and associations with weather variables were analyzed with linear mixed‐effect models. Species were grouped together in analyses based on seasonality.

Spring event dates for most species advanced from 1.2 to 3.0 days/decade, while durations of spring stages shortened from 0.3 to 0.6 days/decade.

Autumn event dates for most species delayed from 1.2 to 3.3 days/decade, while durations of autumn stages lengthened from 0.8 to 3.8 days/decade.

Overall, the duration of the growing season lengthened for 88% of species (mean of 4.7 days/decade), with greater delays in autumn phenology for canopy trees and greater advances in spring phenology for other woody life forms.

In spring, warmer mean daily temperatures were associated with advances in dates of phenological events. In autumn, minimum daily temperature in the preceding month(s) had the highest predictive power for seasonal groups, except those with 
Aesculus glabra
.

In autumn, most species had both a delay in phenology and a strong weather predictor, minimum daily temperature in September, that increased significantly through 29 years. In spring, some concordance between advancing event dates and warming spring temperatures were evident after removing data from 2018 to 2021 with especially high variability in spring temperatures.

This study supports the hypothesis that climate change is showing a pronounced association with a delay in autumn leaf coloration, and less so an advance of spring leaf expansion. These changes can affect ecological processes, including plant productivity and carbon uptake/storage, assembly of communities, interactions between trophic levels, and species ranges and invasions.

For a North American deciduous woody community, the study demonstrates that, over 29 years, increased phenological advances in spring and delays in autumn have led to a growing season lengthening of 4.7 days/decade. Warming of spring mean daily temperatures and autumn minimum temperatures predicted these phenological changes, thus supporting the hypothesis that climate change is associated with these changes in phenology. These changes can affect ecological processes, including plant productivity and carbon uptake/storage, assembly of communities, interactions between tropic levels, and species ranges and invasions.

## Linked entities

- **Species:** Aesculus glabra (taxon 322042)

## Full-text entities

- **Chemicals:** carbon (MESH:D002244)
- **Species:** Aesculus glabra (Ohio buckeye, species) [taxon 322042]

## Full text

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## Figures

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## References

124 references — full list in the complete paper: https://tomesphere.com/paper/PMC12086525/full.md

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Source: https://tomesphere.com/paper/PMC12086525