INVESTIGADORES
FERNANDEZ GIMENEZ Analia Veronica
artículos
Título:
Utilization of dietary B-carotene by Pleoticus muelleri (Crustacea, Decapoda) reared under culture conditions.
Autor/es:
DIAZ ANA CRISTINA; FERNANDEZ GIMENEZ, ANALIA VERONICA; VELURTAS, SUSANA MARIA; MENDIARA, SARA NOEMÍ; FENUCCI, JORGE LINO
Revista:
BIOCELL
Editorial:
Inca Editorial Talleres Gráficos
Referencias:
Lugar: Mendoza; Año: 2007 vol. 31 p. 297 - 297
ISSN:
0327-9545
Resumen:
190.
UTILIZATION OF DIETARY ¦Â-CAROTENE BY Pleoticus
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
¦Â-CAROTENE BY Pleoticus
muelleri (CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
CULTURE CONDITIONS
(CRUSTACEA, DECAPODA) REARED UNDER
CULTURE CONDITIONS
D¨ªaz AC, Fern¨¢ndez Gimenez AV, Velurtas SM, Mendiara SN,
Fenucci JL.
Dpto. Cs. Marinas, FCEyN, UNMdP, CONICET, CIC. E-mail:
acdiaz@mdp.edu.ar
Crustaceans cannot synthesize carotenoids de novo, which must
therefore be present in the diet. The objective of this study was
determining the effect of dietary ¦Â-carotene on growth, survival
and digestive enzyme activities of shrimp P. muelleri. Four diets
(37% proteins, 7.5% lipids) contained 0 (C0), 50 (C50), 100 (C100)
and 150 (C150) mg ¦Â-carotene kg-1 diet were tested in four replicates
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
(37% proteins, 7.5% lipids) contained 0 (C0), 50 (C50), 100 (C100)
and 150 (C150) mg ¦Â-carotene kg-1 diet were tested in four replicates
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
(37% proteins, 7.5% lipids) contained 0 (C0), 50 (C50), 100 (C100)
and 150 (C150) mg ¦Â-carotene kg-1 diet were tested in four replicates
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
(37% proteins, 7.5% lipids) contained 0 (C0), 50 (C50), 100 (C100)
and 150 (C150) mg ¦Â-carotene kg-1 diet were tested in four replicates
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
(37% proteins, 7.5% lipids) contained 0 (C0), 50 (C50), 100 (C100)
and 150 (C150) mg ¦Â-carotene kg-1 diet were tested in four replicates
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
groups during 40 days. The juveniles (0.18¡À0.012g body
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic
activity was highest in animals fed with C50 (1.1 abs.366
weight) were obtained from hatchery-raised postlarvae. Total proteolytic