Uptake and translocation of phosphorus in eelgrass (Zostera marina)

Abstract

The uptake and translocation of phosphorus in eelgrass (Zostera marina L.) was studied in two-compartment chambers using 32P and autoradiography. Eelgrass was able to take up phosphorus both with leaves and rootrhizomes. Only a small amount (less than 4%) of the total amount of phosphorus taken up from either source was translocated within the plants during an incubation time of 120 h. Release of translocated phosphorus from the plant tissues to the surrounding water was not detected. The autoradiographs showed that the translocated phosphorus was localized mainly in the actively growing plant tissues, i.e. the stem and young leaves, and nodes of the rhizomes and young roots. The uptake of phosphorus in leaves and the bidirectional translocation in the plants was significantly lower in the dark. The uptake of phosphorus in rootrhizomes was unaffected by light-conditions. The concentration of phosphate in the water of one compartment did not affect the phosphorus uptake by the plant parts in the opposite compartment. However, the translocation was significantly reduced when both compartments were supplied with identical phosphate concentrations. The results of the present investigation indicate that the quantitative significance of eelgrass in the cycling of phosphorus between sediment and water may have been greatly overestimated in earlier studies. The amount of phosphorus taken up by root-rhizomes and subsequently translocated to leaves is probably insignificant during most of the growing season in comparison to the amount taken up by the leaves from the surrounding water. However the uptake of phosphorus by root-rhizomes may be significant in the nutrition of eelgrass during periods with low phosphate levels in the water.