Guillaume de Lafontaine
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Explore the profile of Guillaume de Lafontaine including associated specialties, affiliations and a list of published articles.
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15
Citations
181
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Recent Articles
1.
Robert E, Lenz P, Bergeron Y, de Lafontaine G, Bouriaud O, Isabel N, et al.
Glob Chang Biol
. 2024 Jun;
30(6):e17347.
PMID: 38822663
Climate change (CC) necessitates reforestation/afforestation programs to mitigate its impacts and maximize carbon sequestration. But comprehending how tree growth, a proxy for fitness and resilience, responds to CC is critical...
2.
Pelletier E, de Lafontaine G
Am J Bot
. 2022 Dec;
110(2):e16111.
PMID: 36462149
Premise: Understanding mechanisms fostering long-term persistence of marginal populations should provide key insights about species resilience facing climate change. Cone serotiny is a key adaptive trait in Pinus banksiana (jack...
3.
Du F, Wang T, Wang Y, Ueno S, de Lafontaine G
Evol Appl
. 2020 Oct;
13(9):2377-2391.
PMID: 33005228
Long-lived tree species are genetically differentiated and locally adapted with respect to fitness-related traits, but the genetic basis of local adaptation remains largely unresolved. Recent advances in population genetics and...
4.
Napier J, de Lafontaine G, Hu F
Ecol Evol
. 2020 Sep;
10(17):9271-9282.
PMID: 32953060
Predicted increases in drought and heat stress will likely induce shifts in species bioclimatic envelopes. Genetic variants adapted to water limitation may prove pivotal for species response under scenarios of...
5.
Napier J, Fernandez M, de Lafontaine G, Hu F
Ecol Evol
. 2020 Feb;
10(3):1692-1702.
PMID: 32076544
(eastern larch, tamarack) is a transcontinental North American conifer with a prominent disjunction in the Yukon isolating the Alaskan distribution from the rest of its range. We investigate whether in...
6.
Napier J, de Lafontaine G, Chipman M
Trends Ecol Evol
. 2020 Jan;
35(4):293-295.
PMID: 31959418
While the interplay between migration and adaptation dictates species response to climate change, technological limitations have obfuscated explicit tests on past adaptive responses. However, a surge in technology-driven advances in...
7.
de Lafontaine G, Napier J, Petit R, Hu F
Ecology
. 2018 May;
99(7):1530-1546.
PMID: 29729183
Persistence of natural populations during periods of climate change is likely to depend on migration (range shifts) or adaptation. These responses were traditionally considered discrete processes and conceptually divided into...
8.
de Lafontaine G, Bousquet J
Ecol Evol
. 2017 Jun;
7(11):3883-3893.
PMID: 28616185
Assessing directional bias in interspecific gene flow might be important in determining the evolutionary trajectory of closely related species pairs. Using a set of 300 single nucleotide polymorphisms (SNPs) having...
9.
de Lafontaine G, Prunier J, Gerardi S, Bousquet J
Mol Ecol
. 2015 Sep;
24(20):5229-47.
PMID: 26346701
The genic species concept implies that while most of the genome can be exchanged somewhat freely between species through introgression, some genomic regions remain impermeable to interspecific gene flow. Hence,...
10.
Cinget B, de Lafontaine G, Gerardi S, Bousquet J
Mol Ecol
. 2015 Apr;
24(11):2856-70.
PMID: 25865063
Secondary contact between closely related taxa routinely occurs during postglacial migrations. After initial contact, the location of hybrid zones may shift geographically or remain spatially stable over time in response...