For decades, ecologists have differed over a longstanding mystery: Will a longer, climate-induced growing season ultimately help coniferous forests to grow or hurt them? A new CU Boulder study may help researchers find a more definitive answer.
As climate warming has lengthened growing seasons, two scenarios seem plausible: If forest growth increases as a result of milder temperatures during more of the year, the additional tree cover could help remove carbon dioxide emissions from the atmosphere at a faster rate. Conversely, if growth decreases as a result of decreased moisture or increased heat-related stress, carbon absorption would decline and climate warming could accelerate even beyond current levels.
Despite a large number of studies on the topic, no standard for measuring the beginning, middle and end of a growing season has emerged, leading to divergingāand at times, wildly oppositeāconclusions.
āNobody can say for certain what a growing season āis,ā due to all the variation in how forest behave and how the start and end of the growing season is characterized,ā said David Barnard, lead author of the study and a former postdoctoral researcher with the Boulder Creek Critical Zone Observatory at theĢż. āEven in winter, forests in warmer areas can still be growing. Thereās less of a distinct on/off switch.ā
The new CU Boulder study,ĢżĢżin the journalĢżScientific Reports, examined data from eleven western sites in the AmeriFlux and Long-Term Ecological Research networks, a set of monitoring stations supported by the Department of Energy and National Science Foundation. These long-term research sites measure, among other things, the exchange of carbon dioxide between forests and the atmosphere.Ģż
āIāve been thinking about this question since grad school when I was working on Niwot Ridge and couldnāt find standard guidelines for how to calculate growing season length,ā said John Knowles, co-lead author of the study and a former CU Boulder graduate student now a researcher at the University of Arizona.
By applying different methods for characterizing growing season length to past studies, the researchers found that many previous datasets could be made to yield a positive (forest growth) or negative (forest decline) outlook depending on which single methodology was appliedāan ambiguity that complicates efforts to quantify climate change effects at scales ranging from individual forests to continents and the globe.
āThis work shows how the result of any given study may be subject to methodological bias, especially in colder, more northerly ecosystems where climate is changing the fastest,ā added Barnard, now a researcher with theĢż.
The study provides recommendations and best practices for calculating growing season length by using an ensemble approach, combining multiple study methods and taking an average to come up with a more robust conclusion.
āIt may still be years before itās clear whether a longer growing season is good, bad or somewhere in-between for forests,ā Barnard said.
Notwithstanding, Knowles adds that this work āwill immediately help to the characterize the uncertainty associated with how longer growing seasons are likely to impact forest carbon emissions in the future.ā
āEvery forest behaves differently,ā Barnard said. āThere is still a good bit of uncertainty about what increasing growing seasons will do for forest growth, but we do know that they are crucial to understanding the global carbon cycle.ā
Co-authors of the new research include Holly Barnard and Noah Molotch of CU Boulder; Michael Goulden of the University of California Irvine; Jia Hu of the University of Arizona and Marcy Litvak of the University of New Mexico. The National Science Foundation and the U.S. Department of Energy provided funding for the study.Ģż