Goula
Juan
A.
University of Alaska Fairbanks
10/18/2012
1
907
474-5960
403 Salcha Street
Suite 202
PO Box 757560
Fairbanks
AK
99775-7560
US
jagoula@alaska.edu
10/18/2012
1
907
474-5960
403 Salcha Street
Suite 202
PO Box 757560
Fairbanks
AK
99775-7560
US
jagoula@alaska.edu
US
ACCLIMATION AND MIGRATION POTENTIAL OF A BOREAL FOREST TREE, BALSAM POPLAR (POPULUS BALSAMIFERA L.) IN A CHANGING CLIMATE
2012
01/01/2012
Ph.D.
0006
University of Alaska Fairbanks
Biology & Wildlife
E
Kielland
Knut
Ruess
Roger
Johnstone
Jill
Kasischke
Eric
0329
Ecology
0412
Evolution & development
0719
Physiology
Climate Change, DNA Methylation, Local Adaptation, Photoperiod
en
In the North American boreal forest, 21st century climate change is projected to result in longer growing seasons, increased forest productivity, and northward expansions or shifts in species ranges. These projected impacts are largely based on observations across natural temperature gradients, e.g., latitude or altitude, or correlations between current species' distributions and modern climate envelopes. These approaches, although valuable, do not consider biological capacities important in a species' ability to cope with novel environments through physiological or phenological acclimation. Within a single species, adaptation to local environments may cause some populations to respond differently to climate change than others. Acclimation (phenotypic plasticity) is often treated as a separate phenomenon from local adaptation, but the latter may determine the range of acclimation responses or thresholds. To more accurately predict how boreal tree species will respond to a directionally changing climate, it is necessary to experimentally examine the effects of warming on the growth and physiology of individual species and how those effects differ across a species' range.
This research investigated how tree growth responses to increasing temperature are influenced by differences in adaptation and acclimation across the latitudinal range of the North American boreal forest tree, Populus balsamifera L. (balsam poplar). Warming experiments, both in the greenhouse and in the field, indicated that growth of balsam poplar trees from a broad latitudinal gradient responds positively to increased growing temperatures, with increases in height growth ranging from 27-69 % in response to 3-8 °C average warming. Genotypes from southern populations grew consistently taller in both field and greenhouse experiments. The field experiment enabled investigation into the effects of warming and source latitude on balsam poplar phenology; both experimentally warmed and southern individuals grew larger and exhibited longer growing seasons (more days of active growth). Lastly, I describe a theoretical/methodological framework for exploring the role of epigenetics in acclimation (plasticity) and adaptation to changing environments. The results from these experiments are integrated with information on adaptive gradients in balsam poplar to predict both the in situ responses of balsam poplar to increased temperatures, and the potential for northward range shifts in the species.
Goula_uaf_0006E_10000.pdf
2012-10-03 12:46:50
2012-10-18 23:02:09
1
Open Access