Differentiation in phenology among and within natural populations of a South American Nothofagus revealed by a two-year evaluation in a common garden trial

DUBOSCQ-CARRA, V.G.; ARIAS-RIOS, J.A.; EL MUJTAR, V.A.; MARCHELLI, P.; PASTORINO, M.J.

FOREST ECOLOGY AND MANAGEMENT

ELSEVIER SCIENCE BV

Año: 2020 vol. 460

0378-1127

Phenological traits are crucial for understanding adaptation to climate change due to their genetic control andassociation with abiotic factors. However, few data on phenology patterns are available for South AmericanNothofagus species, in particular for Nothofagus alpina, a key species of the temperate forests of Patagonia.Therefore, our aim was to analyze the variation among and within natural populations of N. alpina in twophenological traits (bud burst and foliar senescence), in growing season length and in relative growth height. Weregistered phenology in 65 open pollinated families of eight Argentinean natural populations installed in acommon garden trial. Apical buds and foliar senescence were observed every three days in 6-year-old plants andagain three years later in the same plants (N = 373). Day of the year until bud burst (DOY) and until thebeginning (DOY10) and the end (DOY90) of foliar senescence were measured. Height was measured twice in ayear in order to calculate the annual growth in both seasons. Growing degree days (GDD) and chilling hours (CH)until bud burst were also calculated, with two possible basal temperatures (5 °C and 7 °C) to evaluate their role inDOY. Significant differences among populations and years in DOY and growing season length were found using alinear mixed model (LMM), with the family factor explaining around 30% and 12% of the total variance respectively.The LMM for foliar senescence (DOY10 and DOY90) and the relative growth height (RGH) showedsignificant differences between years but not among populations. The family factor was significant for foliarsenescence, although it only explained a small part of the total variance (DOY10: 4%; DOY90: 2%) and was notsignificant for relative growth height. A tight relationship between GDD and CH with DOY was found, and LMMshowed significant differences among populations and years for both variables. The correlation between thealtitude of natural populations and the mean DOY and GDD was high and positive. Our results reveal (i) thegenetic control of bud burst and foliar senescence, and phenotypic plasticity of all analyzed traits, (ii) that GDDand CH are implicated in the DOY, and (iii) that altitude is probably conditioning thermal requirement of budburst. This information suggests good perspectives to face the climate change scenario and highlight the importanceof selecting appropriate populations and families for domestication and breeding of N. alpina at particularsites.