Gs. Edwards et al., RED SPRUCE AND LOBLOLLY-PINE NUTRITIONAL RESPONSES TO ACIDIC PRECIPITATION AND OZONE, Environmental pollution, 89(1), 1995, pp. 9-15
A multidisciplinary research program called Response of Plants to Inte
racting Stresses (ROPIS) was initiated by the Electric Power Research
Institute in 1986 to develop a general mechanistic theory of plant res
ponse to interacting air pollutants and other stresses. As part of the
program, the individual and combined impacts of acidic precipitation
and elevated O-3 on nutritional responses of red spruce (Picea rubens
Sarg.) and loblolly pine (Pinus taeda L.) were evaluated. Red spruce s
aplings were exposed to charcoal filtered, non-filtered 1.5 times ambi
ent or twice ambient levels of O, in combination with vain pH treatmen
ts of 3.1, 4.1, or 5.1 for 4 years. Similarly, loblolly pine seedlings
were exposed to subambient, ambient or twice ambient O, levels in com
bination with acidic precipitation treatments of pH 3.8 or 5.2 for 3 y
ears. Cation leaching was accelerated in the pH 3.1 vain treatment in
the red spruce study, driven by atmospheric inputs of H+ and SO42- Sub
sequent decreases in soil pH, exchangeable pools of Ca2+ and Mg2+, and
increases in exchangeable Al3+ in the organic horizon were observed.
Calcium and Mg2+ fluxes in throughfall of red spruce were also enhance
d at pH 3.1, and foliar concentrations of Mg2+ were reduced. In contra
st, soil pH and nutrient concentrations as well as foliar leaching in
the loblolly pine study were not significantly affected by either the
pH 3.8 or 5.2 rain treatments. Ozone exposure had no effect on through
fall or soil solution ionic flux for either species. Results indicate
that ambient rainfall acidities are not likely to affect the nutrition
al status of loblolly pine. High elevation red spruce forests, however
, could be impacted by acidic deposition via enhanced soil acidificati
on, leading to Al3+ mobilization and reduced availability of important
base cations as well as increased foliar leaching.