Patterns of phosphorus supply and utilization in Lake Washington and Findley Lake1,2

Abstract

Patterns of phosphorus supply and utilization were investigated for 2 years. In Lake Washington, the phytoplankton bloom began in February or early March, reaching peaks of 2,165 (1974) and 1,885 mg C·m⁻²·d⁻¹ (1975). Most of the P utilized was from phosphate accumulated in the water, resulting in depletions of soluble reactive phosphorus in the euphotic zone of 260‐12 mg PO₄‐P·m⁻². Zooplankton excretion supplied phosphate during the later stages of the bloom and in summer. In Findley Lake, the blooms were of shorter duration and reached maxima of 400–711 mg C·m⁻²·d⁻¹. Phosphate was supplied from fluvial inputs and zooplankton excretion, with little accumulation (10–50 mg PO₄‐P·m⁻²). Comparison of the measured rate constants for turnover (k_i) with the constants expected for photosynthesis (k_e) showed P flux patterns. In Lake Washington, k_i varied from k_e (0.05·h⁻¹). Only after phosphate depletion did the usual pattern of rapid uptake and release occur. Nutrient addition and isotope partitioning experiments suggested that the divergence of k_i and k_e reflected a stressed physiological condition of the algae that prevented incorporation and promoted compensatory rapid turnover of phosphate.