Nitrate uptake kinetics for rooted cuttings of Acer rubrum L.

Red maple (Acer rubrum L.) occurs in a broad spectrum of both woodland and managed landscapes in much of eastern North America. Earlier work has indicated considerable plasticity within the species in water use efficiency, as well as dry mass accumulation and tertiary root extension when grown in a solution in which all N was supplied as NO3-. Nitrogen uptake is largely a function of N supply, soil water availability and root surface area. Therefore, compensatory mechanisms could have evolved among cultivars to compensate for site differences. The objective of this study was to define NO3- uptake parameters for red maple in a hydroponic system through the use of two cultivars known to differ in root production and water use efficiency. Green wood stem cuttings of two red maple cultivars, 'Autumn Flame' and 'Franksred', were rooted and then transferred to solution culture. Using established techniques, three separate experiments were conducted to define ranges of I-max, K-m and C-min values and to determine root mass, length, mean radius and surface area. Estimates of I-max exhibited considerable variation between experiments with means ranging from 1.57E-5 to 5.91E-5 mu mol cm(-2) s(-1). However, cultivar differences in I-max were statistically significant in only one of the three experiments. Means for K-m ranged from 2.04E-1 to 5.23E-1 mu mol cm(-3), while C-min values were consistent at 0.001 mu mol cm(-3) (the limit of analytical detection) across all experiments. While data on variation among red maple cultivars are not conclusive, some evidence exists for genotype differences that may relate to the broad range of site conditions under which red maple is successfully grown.