K. Sand-jensen et H. Frost-christensen, Plant growth and photosynthesis in the transition zone between land and stream, AQUATIC BOT, 63(1), 1999, pp. 23-35
Many plant species grow in the transition between land and water in unshade
d lowland streams. Our objective was to determine the importance of exposur
e to air or water on photosynthesis, CO2 conductance and relative growth ra
te in four common amphibious species in streams. Photosynthesis was 2-3 tim
es higher in air than in stream water six-fold supersaturated with CO2, bec
ause diffusive boundary layers constrained CO2 fluxes much more in water th
an in air. Leaves acclimated to life in air or water by increasing CO2 affi
nity during photosynthesis at rate-limiting concentrations due to changes i
n leaf surface conductance and stomatal density. Leaves grown in water had
a 1.8-4.6 times higher CO2 conductance than leaves grown in air, when both
the leaf types were measured under water. Aerial leaves had a 1.3-1.6 times
higher CO2 conductance than aquatic leaves, when both were measured in air
. Growth of amphibious plants was severely constrained by low CO2 availabil
ity in air-equilibrated water, while CO2 enrichment in water to 40-fold sup
ersaturation stimulated plant growth without fully reaching the growth rate
s in air. The widespread CO2 supersaturation of streams facilitates the suc
cessful development of submerged populations of amphibious plants, but terr
estrial populations continue to support faster growth and denser plant stan
ds. (C) 1999 Elsevier Science B.V. All rights reserved.