Key message Seedling ontogeny exerted a greater influence on physiological activity of Quercus rubra seedlings than genetics; thus, it may be more important to use an appropriate growth index to account for seedling ontogeny in experiments than to control for genetic variation. Context Members of the genus Quercus exhibit semi-determinate growth, resulting in complex and developmentally variable endogenous physiological patterns. The Quercus morphological index (QMI; Hanson et al. Tree Physiol. 2:273-281, 1986) was developed as a tool to relate physiological patterns to morphologically identifiable ontological stages, thereby allowing for treatment or measurement of seedlings at uniform ontological stages rather than strictly by chronology. Aims Although clear physiological patterns relative to seedling ontogeny have been observed using the QMI in pre-transplant half-sibling seedlings, we sought to determine whether physiological patterns remain consistent across genotypes within a species. Methods We examined net photosynthesis, transpiration, leaf chlorophyll concentrations, and chlorophyll fluorescence (F v /F m ) throughout the first flush after transplant for northern red oak (Quercus rubra L.) seedlings from three half-sibling families. Results Neither net photosynthesis nor transpiration rates varied by family, whereas leaf chlorophyll concentrations and F v /F m differed significantly. Despite family differences for magnitudes of some parameters, no interactions between QMI growth stage and family were observed, and patterns of all parameters relative to growth stage were consistent across families. Net photosynthetic rates, transpiration rates, and F v /F m increased during the flush, while leaf chlorophyll concentration decreased, suggesting that chlorophyll synthesis is not a limiting factor during leaf maturation in this species. Conclusion Findings indicate that QMI-based physiological patterns may be at least regionally applicable within a given Quercus species. |
