Genetic variation of ecophysiological traits in red alder (Alnusrubra Bong.)

Abstract

We examined the genetic variation of ecophysiological traits within and among 40 red alder (Alnusrubra Bong.) provenances (two families per provenance) in a common-garden experiment in the summer of 1993. The provenances were representative of the entire species range in British Columbia, Canada. We found significant genetic variation among provenances (P < 0.001) in photosynthetic rate (A), mesophyll conductance (g_m), transpiration rate (E), stomatal conductance (g_sw), stomatal sensitivity to water vapour pressure deficit (SENS_VPD), intercellular to ambient CO₂ concentration ratio (C_i/C_a), and midday xylem water potential (ψ). Photosynthetic water-use efficiency, however, did not differ significantly among provenances. There were no significant differences between families within provenance for any of these variables. A weak but significant geographic trend was detected in ecophysiological traits: ψ, A, g_m, and E increased, and SENS_VPD decreased, from southeast to northwest. Photosynthetic rate, E, g_m, g_sw and ψ were positively related to each other, but negatively correlated with SENS_VPD. C_i/C_a was negatively correlated with g_sw. These correlations indicate that red alder might have undergone genetic differentiation in drought resistance.