Age and growth of the largemouth perch Percichthys colhuapiensis in the Negro river, Argentine Patagonia

Abstract

Largemouth perch ( Percichthys colhuapiensis) represents one of the most economically important fish species in the Argentine Patagonia. However, little research has been done on the age and growth and population dynamics of this fish, though both studies are essential to properly deal with fisheries forecasts and management. As a contribution to elaborating management programmes for P. colhuapiensis, we evaluated the age and growth of this species in the Negro river via scale and whole otolith reading methods. The sample consisted of 579 specimens ranging in total length (TL) from 90 to 475 mm, captured seasonally from December 1994 to December 1995. The formation of scale annuli (end of winter) and the hyaline zone on otoliths (winter) of adult fish coincided with the beginning of the spawning season (end of winter-beginning of spring). The maximum estimated age was 11 years, which indicates that this is a relatively long-lived species. Otoliths were useful for ageing specimens 1–5 years-old, but above this age whole otoliths yielded lower age estimates than scales. Isometric growth of weight with length was found for total population, juveniles, and separate sexes ( p > 0.25 in all cases). No significant differences between the length–weight relationships of sexes were observed ( p > 0.10). Length at first maturity was significantly higher for males (TL 50 = 271 mm TL; r = 0.88) than for females (TL 50 = 243 mm TL; r = 0.96) ( p < 0.01). Largemouth perch exhibited a consistent pattern of increase in length with age, with a period of fast growth during the first 5 years, and a slow-growing phase during the rest of his life. The growth parameters based on scale data were L∞: 462.1 mm, k = 0.23 and t 0 = −0.94 for total population, L∞: 402.3 mm, k = 0.33 and t 0 = −0.67 for males, and L∞: 548.4 mm, k = 0.15 and t 0 = −1.59 for females, whereas those based on otolith reading were L∞: 537.4 mm, k = 0.17 and t 0 = −1.0 for total population, L∞: 497.6 mm, k = 0.21 and t 0 = −0.79 for males, and L∞: 582.0 mm, k = 0.14 and t 0 = −1.53 for females. Scales are concluded to be the best structure to age P. colhuapiensis because they rendered L∞ values closer to the maximum TL observed, high precision, easiness of collection, low processing time, and the possibility of performing non-destructive monitoring studies.