C. Lassen et al., MACROPHYTE DEVELOPMENT AND RESUSPENSION REGULATE THE PHOTOSYNTHESIS AND PRODUCTION OF BENTHIC MICROALGAE, Hydrobiologia, 350, 1997, pp. 1-11
The effect of macrophyte growth on microbenthic photosynthetic activit
y was studied in two large enclosures situated in a shallow, eutrophic
lake. Macrophytes were allowed to develop stands of 100% coverage in
one enclosure whereas they were harvested at emergence in the other. A
lthough less than 10% of the incident light reached the benthic microp
hytes below the macrophytes at mid-summer, when the macrophytes reache
d their maximum coverage, the seasonal productivity (April-October) of
the microbenthic community was still 355 g C m(-2) corresponding to 6
5% of the productivity in the enclosure without macrophytes. Although
the light attenuation by the macrophytes had a strong negative effect
on microbenthic photosynthesis, the negative effect was partly balance
d by increased water transparency caused by increased grazing on the p
hytoplankton, and the shelter provided by the plants also resulted in
less resuspension. Analysis with microsensors for oxygen and scalar ir
radiance showed that the capacity for photosynthesis was evenly distri
buted throughout the uppermost 3 mm of the sediment and in the approxi
mately 3-mm flocculent layer covering the sediment. Microbenthic photo
synthesis seemed primarily limited by light. The microsensor analysis
also demonstrated how conventional oxygen exchange experiments underes
timate the true photosynthetic rates and indicated that more realistic
rates might be obtained by measuring oxygen exchange if the exchange
is facilitated by vigorous stirring.