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Ecological and quantitative genetics of Populus tremuloides in western Canada
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- Author / Creator
- Ding, Chen
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Aspen is a widespread forest tree of high economic and ecological importance in
western Canada. The species has also been subject to tree improvement efforts
over the past two decades to increase productivity of the forested land base.
Successful selection and breeding programs rely on both accurate estimates of the
expected genetic gain from selection for commercial traits as well as correlated
responses of other traits that may be important for fitness. This thesis investigates
geographic patterns of genetic variation observed in a reciprocal transplant
experiment with 43 provenances and five sites across western Canada. In a second
series of experiments, geographically restricted to Alberta, genetic parameters for
growth and adaptive traits are assessed in ten progeny trials containing more than
30,000 trees with known pedigrees.
The reciprocal transplant experiment revealed strong patterns of local
suboptimality, with increases in productivity as a result of experimental longdistance
transfers in northwest direction. For example, provenances moved 1,600
km northwest from Minnesota to central Alberta (a shift of 7° latitude to the
north) produced almost twice the biomass of local sources. Increased growth was
not associated with lower survival rates. Bud break in provenances transferred
northwest generally occurred slightly later than in local sources, suggesting
decreased risk of spring frost injury. Leaf abscission was later in provenances
transferred in northwest direction, but they appeared to be very frost hardy, well
ahead of very rare early fall frost events.
A potential explanation for suboptimality is the longevity of aspen clones, where
populations could be adapted to climates present during post-glacial
recolonization. This hypothesis was explored with habitat reconstructions to the
last glacial maximum, which indicated that western Canadian populations likely
originated from eastern refugia. We conclude that observed suboptimality likely
represents an adaptational lag and benefits in productivity outweigh potential risks
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associated with long-distance northward transfer of aspen planting stock under
both current and projected future climate conditions.
Progeny trials geographically limited to Alberta seed sources and planting sites
revealed high within-population variation in both growth and adaptive traits that
was not strongly associated with climatic or geographic variables. Heritabilities
for growth and adaptive traits were low to moderate, but progeny trials revealed
strong genetic correlations between growth and phenology, with tall trees and
high survival being associated with early budbreak and late leaf abscission, which
mirrors the results from the provenance trial series across western Canada. While
genetic gains in growth traits will be due to expanding the growing season, the
increased risk of frost damage in spring and fall does not appear a critical issue,
particularly under projected climate warming. -
- Subjects / Keywords
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- Graduation date
- Fall 2015
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- Type of Item
- Thesis
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- Degree
- Doctor of Philosophy
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- License
- This thesis is made available by the University of Alberta Libraries with permission of the copyright owner solely for non-commercial purposes. This thesis, or any portion thereof, may not otherwise be copied or reproduced without the written consent of the copyright owner, except to the extent permitted by Canadian copyright law.