Growth and longevity of the protogynous parrotfish, Hipposcarus harid, Scarus ferrugineus and Chlorurus sordidus (Teleostei, Scaridae), off the eastern coast of the Red Sea

Abstract

Summary Growth and longevity were studied for three species of the family scaridae, the longnose parrotfish (Hipposcarus harid), rusty parrotfish (Scarus ferrugineus) and bullethead parrotfish (Chlorurus sordidus), sampled at the eastern coast of the Red Sea, off Saudi Arabia. The three species are protogynous hermaphrodites presenting two distinct phases whereby the initial phase includes females and primary males, and the terminal phase is exclusively secondary males transformed from females. Annual marks in the ctenoid scales from the three species were used to develop size-at-age plots. Linear relationships were found between the scale radius and standard length for the three species, and the relationships between body weight (w) and standard length (L) were estimated. Scales of these species increased in size consistently throughout life, even though the somatic growth rate decreased with age. Sex-specific growth effects in the three species were demonstrated. Growth of initial phase females was the lowest, followed by the initial phase males and terminal phase males, the latter showing the fastest growth rates. Thus, transition to the terminal male identity was associated with enhanced growth, resulting in larger terminal males than females of equivalent size. The von Bertalanffy growth formula (VBGF) was estimated for H. harid, S. ferrugineus and C. sordidus (L∞ = 43.92, 27.4 and 23.3; K = 0.067, 0.27 and 0.56; t0 = −6.92, −4.98 and −4.6, respectively). The relationship between growth and reproduction of these species is also discussed.