Plasticité phénotypique et architecture génétique de la croissance et de la densité du bois du pin maritime (Pinus pinaster Ait.)

摘要

Evaluating the impact of climate change on current plantations supposes the evaluation of their phenotypic plasticity and their genotypic diversity within the species, under abiotic pressure. Maritime pine is a perennial species of major economical interest in the french Aquitaine region. Wildly studied genetically and ecophysiologically, maritime pine is a very good biological model to see that type of study to the end. In this thesis, we intend to study various traits related to maritime pine growth under a biotic constraints, according to the following approaches: (1) evalutation of the phenotypic variability and (2)dissection of the genetic architecture of the traits (number, location and effects of QTLs). The comparisonbetween envrionmental and phenotypic data will allow us to appreciate the phenotypic pasticity of individuals. Afterwards, studying the genetic architecture of these traits and its variability according to the genetic background of individuals and environmental conditions will allow us to assess the stability ofdetected QTLs.We used 4 progenies of maritime pines: 3 controlled crosses of parents originated from contrasted ecotypes (Corsica, Landes and Morocco) and 1 controlled cross from a second generation of self-pollination (F2). Micro-cores were extracted from the individuals of the F2 population andmicrodensity profiles were established trough 7 consecutive years. Total height and diameter of eachindividual were measured once a year on the 3 others crosses, from 2010 to 2014. Dynamics of apical budburst was also followed on the same individuals in 2012 and 2013. Finally, dynamics of radial growth were monitored on a sub-sample of 239 individuals (spread in 2 of the 3 controlled crosses) during 3 yearsthanks to a unique device of microdendrometers.At the same time, all individuals (form the 4 crosses) were genotyped with several DNA bioarraysof molecular markers, allowing the building of genetic maps. The confrontation of phenotypic and genotypic data enabled to identify genome are as involved in the genetic architecture behind the traitsand to study their stability according to environmental conditions and the genetic background of individuals.This study showed that bud burst varies from year to year, depending on the conditions oftemperature and of the genetic background of individuals. Same way as growth, bud burst is controlled bymany QTLs of moderate effect, varying according to climatic conditions and the genetic background of individuals. The monitoring of seasonal dynamics of wood formation also showed a QTL x environment interaction revealing that wood density is regulated by different genes or the same set of genes,differentially regulated in response to the climate. The last part of the study puts forwards, for the firsttime, the variability of radius daily fluctuations within a full-sib family and its interaction with environmental variables. [...]