Effects of L-arginine and L-citrulline supplementation in reduced protein diets for broilers under normal and cyclic warm temperature.
Study Goal
The researchers aimed to determine whether L-Citrulline supplementation could improve performance in broilers fed a reduced-protein diet under thermoneutral and cyclic warm temperature conditions.
Results Summary
Supplementation of L-Citrulline to a reduced-protein diet decreased feed conversion ratio (FCR) and increased femur ash content, indicating improved efficiency and bone health, though it did not fully compensate for the growth performance deficits caused by reduced protein. No diet-by-temperature interactions were observed.
Population
Ross 308 cockerels (broiler chickens)
Effective Dosage
0.28% Citrulline in diet
Duration
14 days (from day 21 to day 35)
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
reduced protein (RP) diet | decrease | body weight gain (BWG) | birds | - | had lower | #1 |
reduced protein (RP) diet | increase | FCR | birds | - | higher | #2 |
addition of Arg to RP | decrease | FCR | - | - | decreased | #3 |
addition of Cit to RP | decrease | FCR | - | - | decreased | #4 |
exposure to cyclic warm temperature (WT) | decrease | feed intake (FI) | birds | - | had lower | #5 |
exposure to cyclic warm temperature (WT) | decrease | BWG | birds | - | lower | #6 |
exposure to cyclic warm temperature (WT) | no change | FCR | birds | - | similar | #7 |
RP diet | decrease | thigh and drumstick | birds | - | had a lower yield of | #8 |
RP diet | increase | fat pad | birds | - | higher | #9 |
RP diet | decrease | femur ash | birds | - | lower | #10 |
RP diet | decrease | breaking strength | birds | - | lower | #11 |
RP diet | no change | serum uric acid level | birds | - | similar | #12 |
RP diet | increase | nitrogen digestibility | birds | - | higher | #13 |
supplementation of Arg to RP | increase | femur ash | - | - | resulted in increased | #14 |
supplementation of Cit to RP | increase | femur ash | - | - | resulted in increased | #15 |
Heat stress causes significant economic losses in the broiler industry. Dietary supplementation of arginine (Arg) and citrulline (Cit) might increase the performance of broilers raised under warm temperature due to vasodilation effects. This study investigated the effects of L-Arg or L-Cit supplementation in broilers fed a reduced protein wheat-based diet deficient in Arg under thermoneutral (NT) and cyclic warm temperature (WT). Ross 308 cockerels (n = 720) were randomly allocated to 4 dietary treatments with 12 replicates of 15 birds per pen from d 7 to 21. The 4 treatments were: normal protein (NP), i.e., 22.3% and 20.9% crude protein in grower and finisher, respectively; reduced protein (RP), i.e., 2.5% lower protein and deficient in Arg; and RP supplemented with 0.28% Arg (RP-Arg) or 0.28% Cit (RP-Cit). A factorial arrangement of treatments was applied during the finisher phase (21 to 35 d). Factors were: diet (4 diets above); and temperature, NT (24 °C) or cyclic WT (33 ± 1 °C for 6 h per day) with 6 replicate pens per treatment. During 7 to 35 d and 21 to 35 d, the birds fed the RP diet had lower body weight gain (BWG) and higher FCR compared to the NP diet (P < 0.01). The addition of Arg or Cit to RP decreased FCR compared to RP (P < 0.01). During 21 to 35 d, the birds exposed to WT had lower feed intake (FI), lower BWG (P < 0.001) but similar FCR (P > 0.05) compared to birds exposed to NT. Diet by temperature interactions were not observed for performance parameters during the period of WT (P > 0.05). On d 35, the RP-fed birds had a lower yield of thigh and drumstick, higher fat pad, lower femur ash, and breaking strength but similar serum uric acid level and higher nitrogen digestibility on d 21 compared to those offered NP (P < 0.05). Supplementation of Arg or Cit to RP resulted in increased femur ash on d 35 (P < 0.05). Thus, feeding the NP diets is necessary to maintain growth performance in broilers regardless of the temperature conditions.