Phenotypic plasticity in mesic populations of Pinus pinaster improves resistance to xylem embolism (P-50) under severe drought - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Trees - Structure and Function Année : 2011

Phenotypic plasticity in mesic populations of Pinus pinaster improves resistance to xylem embolism (P-50) under severe drought

Résumé

The objectives of the study were to assess the phenotypic variation in the vulnerability to water stress-induced cavitation (estimated by P-50, or the xylem water potential which causes a 50% loss of conductivity) and the trade-offs between P-50 and related hydraulic traits, i.e., stem specific conductivity (K-s), slope of the vulnerability curve (slope), wood density and branch size. Variability was examined for six Pinus pinaster populations covering the latitudinal range of the species and plasticity was tested through two provenance-progeny trial sites (xeric/mesic). As expected, the overall values of P-50, K-s and branch size decreased in the xeric site. Variation in P-50 and K-s among populations was mainly the result of phenotypic plasticity, while wood density was genetically controlled and not affected by the environment. Stress conditions in the xeric site promoted a convergence in P-50 and K-s as a result of the high phenotypic plasticity of the populations from mesic origins. In the mesic site, the ranking of populations for cavitation resistance and hydraulic capacity was consistent with the geographic location of the seed source. Higher resistance to cavitation was related to lower K-s, branch size and slope, mainly at the population level, but also as a general trend across individuals. In a warmer and drier climate, there could be a potential selection of Pinus pinaster populations from mesic origins, which showed a great responsiveness and adjustment to drought conditions (similar or higher P-50 than the populations from dry origins), in addition to a high wood density and growth.

Dates et versions

hal-00964489 , version 1 (24-03-2014)

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Leyre L. Corcuera, Hervé H. Cochard, Eustaquio E. Gil-Pelegrin, Eduardo E. Notivol. Phenotypic plasticity in mesic populations of Pinus pinaster improves resistance to xylem embolism (P-50) under severe drought. Trees - Structure and Function, 2011, 25 (6), pp.1033 - 1042. ⟨10.1007/s00468-011-0578-2⟩. ⟨hal-00964489⟩
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