Decline in the strength of genetic controls on aspen environmental responses from seasonal to century‐long phenomena

Abstract: Understanding intra‐specific variation in climate sensitivity could improve the prediction of tree responses to climate change. We attempted to identify the degree of genetic control of tree phenology and growth of trembling aspen (Populus tremuloides Mchx.) in a natural stand of this species in northwestern Quebec. We mapped and genotyped 556 aspen trees growing within the plot, using seven nuclear microsatellite loci for clone identification. We selected 13 clones (n of trees per clone >5, in total 350 trees… Show more

“…Genetic trade‐offs exist between phenology and growth (Ding & Brouard, 2022). The heritability of phenology was 20–30% in one common garden study (Ding et al ., 2020), 30–50% in a different common garden study (Kanaga et al ., 2008) and a field study (Drobyshev et al ., 2019), or 50–90% in clonal trials (Gylander et al ., 2012; Ding & Brouard, 2022).…”

Climate lags and genetics determine phenology in quaking aspen (Populus tremuloides)

“…Genetic trade‐offs exist between phenology and growth (Ding & Brouard, 2022). The heritability of phenology was 20–30% in one common garden study (Ding et al ., 2020), 30–50% in a different common garden study (Kanaga et al ., 2008) and a field study (Drobyshev et al ., 2019), or 50–90% in clonal trials (Gylander et al ., 2012; Ding & Brouard, 2022).…”

Climate lags and genetics determine phenology in quaking aspen (Populus tremuloides)

Frost-Associated Defoliation in Populus tremuloides Causes Repeated Growth Reductions Over 185 years