摘要
An orthogonal experimental design OA9 (33) was used to evaluate the effects of vitamins (A, B2, and B6) on the growth and digestive ability of the juvenile Chinese soft-shelled turtle, Pelodiscus sinensis (initial weight, 5.9-0.2 g). A total of 135 turtles were divided into 9 groups, which each included 15 individuals. The results revealed that vitamin A (VA) had the strongest impacts on the growth rate and feed utilization among the three vitamins; 35,000 IU kg^-1 VA had optimal effects on the feeding intake and specific growth rate, and 20,000 IU kg^-1 VA had optimal effects on protein digestibility and the feed conversion ratio. Vitamin B2 (VB2) was essential for regulating protein deposition and the energy efficiency for growth of the turtles; 120 mg kg^-1 VB2 resulted in increased protein and energy deposition, and 180 mg kg^-1 VB2 had greater beneficial effects on the growth rate. Vitamin B6 (VB6) had important effects on protein and feed efficiency; however, VB6 at an excessive level (120 mg kg^-1) restricted turtle growth. Based on the above growth results, dietary supplementation ofVA, VB2 and VB6 at levels of 35,000 IU kg^-1, 180 mg kg^-1 and 70 mg kg^-1, respectively, were recommended for the juvenile soft-shelled turtle.
An orthogonal experimental design OA9 (33) was used to evaluate the effects of vitamins (A, B2, and B6) on the growth and digestive ability of the juvenile Chinese soft-shelled turtle, Pelodiscus sinensis (initial weight, 5.9-0.2 g). A total of 135 turtles were divided into 9 groups, which each included 15 individuals. The results revealed that vitamin A (VA) had the strongest impacts on the growth rate and feed utilization among the three vitamins; 35,000 IU kg^-1 VA had optimal effects on the feeding intake and specific growth rate, and 20,000 IU kg^-1 VA had optimal effects on protein digestibility and the feed conversion ratio. Vitamin B2 (VB2) was essential for regulating protein deposition and the energy efficiency for growth of the turtles; 120 mg kg^-1 VB2 resulted in increased protein and energy deposition, and 180 mg kg^-1 VB2 had greater beneficial effects on the growth rate. Vitamin B6 (VB6) had important effects on protein and feed efficiency; however, VB6 at an excessive level (120 mg kg^-1) restricted turtle growth. Based on the above growth results, dietary supplementation ofVA, VB2 and VB6 at levels of 35,000 IU kg^-1, 180 mg kg^-1 and 70 mg kg^-1, respectively, were recommended for the juvenile soft-shelled turtle.
基金
supported by the National Natural Science Foundation of China (Nos.30972261,31172085,31272315 and 41606137)
