Family variation in photosynthesis of 22-year-old black spruce: a test of two models of physiological response to water stress

Abstract

Gas exchange and water potential were measured in 22-year-old black spruce (Piceamariana (Mill.) BSP) trees from four full-sib families on two sites (one drier and one wetter) at the Petawawa National Forestry Institute, Ontario. Based on an observed genotype × environment interaction and earlier work with seedlings, a hypothesis was formed that at high soil moisture availability, no genetic differences in net photosynthesis (P_n) would exist and as soil moisture decreases, genetic differences in P_n would increase. From results of initial research with mature trees we formed an alternative hypothesis that genetic differences in P_n are constantly maintained under an array of soil moisture conditions. The two models were rigorously tested over a range of soil moisture conditions using two physiological measurement crews who switched sites throughout the day. Second-year foliage P_n of mature black spruce was more affected by nonstomatal limitations than by stomatal limitations. Progeny of one female had 12.5% and 7.4% higher P_n than progeny of another female on the dry and wet site, respectively. Genetic variation in P_n was consistent over a range of soil water potential. Thus, the first hypothesis was rejected in favor of the alternative hypothesis. Genetic variation in P_n appeared to be due to differential response to vapor pressure deficit. Suggestions as to how to reconcile the observed genotype × environment interaction in growth with the genetic differences in P_n are discusse.

Citation

Major, John E.; Johnsen, Kurt H. 1996. Family variation in photosynthesis of 22-year-old black spruce: a test of two models of physiological response to water stress. Canadian Journal of Forest Research, Vol. 26(11): 1922-1933. 12 p. 10.1139/x26-217