| Abstrakt: |
The objectives were to determine the digestible energy (DE) and metabolizable energy (ME) concentrations in black solider fly (BSF; Hermetia illucens) larvae fed to pigs and to develop prediction equations for energy in BSF larvae. On a dry matter (DM) basis, 4 sources of defatted BSF larva meal contained 4,402 to 5,173 kcal/kg gross energy (GE), 46.5 to 62.0% crude protein (CP), 9.0 to 14.3% ether extract (EE), and 13.7 to 25.3% ash and a source of full-fat BSF larva contained 5,875 kcal/kg GE, 36.5% CP, 38.5% EE, and 16.3% ash. Six barrows with an initial body weight of 73.1 kg (SD = 2.3) were individually housed in metabolism crates. Six diets were assigned to the 6 pigs in a 6 × 7 Latin square design with 7 periods. A basal diet was composed of 97.6% corn as the sole energy source. Five experimental diets were prepared by replacing 25% of corn with BSF larva. Each period consisted of a 4-day adaptation period and a 4-day collection period for feces and urine collection. The DE and ME values in full-fat BSF larva (4,908 and 4,761 kcal/kg DM) were greater (P < 0.05) than those in defatted BSF larva meal (3,791 to 4,269 kcal/kg DM and 3,577 to 3,878 kcal/kg DM). Energy prediction models developed for BSF larva were: GE (kcal/kg DM) = 5,707 + 36.2 × EE - 74.2 × ash (R2 = 0.98); DE (kcal/kg DM) = 4,575 + 29.1 × EE - 47.9 × ash (R2 = 0.99); and ME (kcal/kg DM) = 3,852 + 36.5 × EE - 30.0 × ash (R2 = 0.99) where chemical components are expressed as % DM. Overall, full-fat BSF larva contained greater energy concentrations compared with defatted larva meal and energy concentrations in BSF larva ingredients can be estimated using EE and ash concentrations. [ABSTRACT FROM AUTHOR] |
