MAGNESIUM UPTAKE KINETICS IN LOBLOLLY-PINE SEEDLINGS

Recent studies have suggested that the growth of loblolly pine (Pinus taeda L.) has declined in the southern United States and it has been hypothesized that foliar Mg deficiency may play an important role in the perceived decline. Quantitative nutrient uptake models such as the Barber-Cushman model have been used successfully to investigate nutrient uptake by crop species under a variety of field and experimental conditions and may provide one approach to evaluating this question. However, in order to use this approach it is necessary to develop, for the plant species and nutrient of interest, values for maximal nutrient influx rate at high solution concentrations (I(max)), the solution concentration where net influx is 0.5 I(max) (K(m)), and the nutrient concentration below which influx ceases (C(min)). As a first step in evaluating the potential of such an approach, two sets of experiments using established solution nutrient depletion techniques were used to define these values for loblolly pine seedlings 180, 240, 365, and 425 days in age. Observed I(max) values for Mg range from 7.90E-8 to 1.29E-7-mu-mol cm-2 s-1 with younger seedlings having higher values. Values of K(m) for all seedling ages were quite similar ranging from 8.69 to 8.58E-3-mu-mol cm-3. Most importantly, the results of both experiments indicate that during a growth flush, seedlings will withdraw Mg from solution until the concentration is essentially zero (C(min) = approximately 0). During non-flush periods uptake rates appear to be greatly reduced. Therefore, efforts to model Mg uptake will need to take these differences as well as seedling age influences into consideration.