Simulating light-saturation curves for photosynthesis and calcification by reef-building corals

Abstract

Light-saturation curves for photosynthesis by reef-building corals have previously been simulated by three functions: the right rectangular hyperbola, a simple exponential function, and the hyperbolic tangent function. Studies of photosynthesis by other organisms have also frequently considered the application of a rectilinear function. This communication analyzes lightsaturation curves for photosynthesis by the Atlantic rose coral Manicina aerolata, the Atlantic staghorn coral Acropora cervicornis, and the Pacific staghorn coral A. formosa. It also analyzes light-saturation curves for calcification by A. cervicornis and A. formosa. This communication demonstrates that the two most accurate functions (as measured by coefficients of determination) are the simple exponential function and the hyperbolic tangent function. The hyperbolic tangent function is preferred because parameter estimates obtained with this function have narrower confidence intervals than those obtained through the application of the simple exponential function. The hyperbolic tangent function can also be used successfully to simulate light-saturation curves for light-enhanced calcification.