Steady-state bioassay approach applied to phosphorus-limited continuous cultures: A growth study of the marine chlorophyte Dunaliella salina

Authors

Scott R. Grant, School of Ocean and Earth Science and Technology
Paul K. Bienfang, School of Ocean and Earth Science and Technology
Edward A. Laws, Louisiana State University

Document Type

Article

Publication Date

1-24-2013

Abstract

Phosphorus-limited growth and phosphate uptake kinetics of the marine phytoplankter Dunaliella salina were studied using continuous-culture techniques. Determination of residual phosphate concentrations in the cultures were made using a steady-state bioassay approach in which short-term phosphate uptake rates as measured by ³³P-radiotracer were balanced with the turnover of phosphorus in the culture. This allowed the determination of low-nanomolar ambient phosphate concentrations (8-95 nmol P L^-1) at seven unique specific growth rates, which agreed closely with an alternative kinetics bioassay phosphate determination. The relationship of specific growth rate to ambient phosphate concentration for the D. salina cultures was well-described by the Monod growth equation with μmax = 1.8 d^-1 and Kμ = 28 nmol P L^-1. Phosphate uptake kinetics were evaluated at three growth rates and adhered to Michaelis-Menten kinetics, with evidence of growth-rate-dependent variability of uptake affinities (1.9-3.0 L μmol^-1 h^-1) and half-saturation constants (1.85-3.8 μmol P L^-1). Maximum uptake rates were constant across growth rates when measured in either carbon-specific (220 μmol P mol C^-1 min^-1), volume-specific (7 amol P μm^-3 min^-1), cell-specific (1 fmol P cell²¹ min^-1), or phosphorus-specific units (7 h^-1). This represents a phosphate uptake rate capacity between 200-fold and 600-fold greater than the requirements for growth. Finally, we compared the results from our study with previous studies across four phytoplankton species and found that the Monod half-saturation constant for phosphorus-limited growth (Kμ) is well-predicted by the theoretical ratio of the maximum specific growth rate to the phosphorus-specific uptake affinity. © 2013, by the Association for the Sciences of Limnology and Oceanography, Inc.

Publication Source (Journal or Book title)

Limnology and Oceanography

First Page

314

Last Page

324

Recommended Citation

Grant, S., Bienfang, P., & Laws, E. (2013). Steady-state bioassay approach applied to phosphorus-limited continuous cultures: A growth study of the marine chlorophyte Dunaliella salina. Limnology and Oceanography, 58 (1), 314-324. https://doi.org/10.4319/lo.2013.58.1.0314