Department of Agricultural Sciences, Texas State University, San Marcos, TX 78666, USA.
Department of Animal Science, Texas A&M University, College Station, TX 77843, USA.
J Anim Sci. 2024 Jan 3;102. doi: 10.1093/jas/skae168.
As the insect-rearing industry scales in the United States and other developed nations, it has the potential to create multiple product streams (e.g., oil and protein-rich biomass) for existing markets. Black soldier fly larvae (BSFL; Hermetia illucens) has been identified as a potential livestock feed because it is not expected to compete in the human food sector and its production has a lesser environmental footprint than that of conventional feeds. Existing research on BSFL as feed focuses on full-fat BSFL for poultry and aquaculture. Therefore, the objective of our experiment was to evaluate the viability of defatted BSFL as an alternative protein source for beef cattle consuming forage. Procedures were approved by Texas State University IACUC (#7726). Two experiments were conducted using ruminally cannulated beef steers fed low-quality forage in 5 × 5 Latin squares. Experiment 1 assessed consumption of BSFL as a protein supplement and included five 5-d periods with 3-d for washout and 2-d for measurement of supplement intake and preference. There were five treatments delivered in addition to the basal forage: 100% soybean meal (SBM); 75% SBM/25% BSFL; 50% SBM/50% BSFL; 25% SBM/75% BSFL; and 100% BSFL. Supplement and forage intake did not differ between treatments (P ≥ 0.45) nor was there a treatment × day interaction (P ≥ 0.45). Experiment 2 evaluated the effect of BSFL supplementation on forage (5.3% crude protein) intake and digestion and included five 14-d periods with 8-d for treatment adaptation, 5-d for measurement of intake and digestion, and 1-d for determination of ruminal fermentation. There were four treatments of supplemental BSFL provided at graded N levels: 0, 50, 100, or 150 mg N/kg BW and one level of SBM at 100 mg N/kg BW. Increasing provision of BSFL linearly increased forage organic matter (OM) intake (P = 0.04), total OM intake (P < 0.01), total digestible OM intake (P < 0.01), dry matter digestibility (P = 0.01), and OM digestibility (P = 0.02). There were no significant differences (P ≥ 0.17) in intake or digestibility between levels of BSFL and SBM. Ultimately, defatted BSFL has potential to replace conventional feeds as a protein supplement without sacrificing forage utilization.
随着昆虫养殖产业在美国和其他发达国家的规模扩大,它有可能为现有市场创造多种产品流(例如,富含油和蛋白质的生物质)。黑蝇幼虫(BSFL;Hermetia illucens)已被确定为一种潜在的牲畜饲料,因为它预计不会与人类食品领域竞争,并且其生产对环境的影响小于传统饲料。现有的关于 BSFL 作为饲料的研究主要集中在全脂 BSFL 对家禽和水产养殖的应用。因此,我们实验的目的是评估脱脂 BSFL 作为替代蛋白源用于反刍动物采食草料的可行性。该实验程序得到了德克萨斯州立大学 IACUC(#7726)的批准。本实验使用瘤胃瘘管的肉牛进行了两个实验,这些肉牛采食低质量的草料。实验 1 评估了 BSFL 作为蛋白质补充剂的可接受性,其中包括五个为期 5 天的周期,其中 3 天为冲洗期,2 天用于测量补充剂的摄入量和偏好。在基础草料之外,还提供了五种处理方法:100%豆粕(SBM);75% SBM/25% BSFL;50% SBM/50% BSFL;25% SBM/75% BSFL;100% BSFL。处理之间的补充剂和草料摄入量没有差异(P≥0.45),也没有处理与天数的交互作用(P≥0.45)。实验 2 评估了 BSFL 补充剂对草料(5.3%粗蛋白)摄入量和消化的影响,其中包括五个为期 14 天的周期,其中 8 天用于适应处理期,5 天用于测量摄入量和消化,1 天用于确定瘤胃发酵。提供了四种不同水平的补充 BSFL:0、50、100 或 150mg N/kg BW,以及 100mg N/kg BW 的 SBM 水平。BSFL 的线性增加提供量增加了草料有机物(OM)的摄入量(P=0.04)、总 OM 摄入量(P<0.01)、总可消化 OM 摄入量(P<0.01)、干物质消化率(P=0.01)和 OM 消化率(P=0.02)。BSFL 和 SBM 之间的摄入量或消化率没有显著差异(P≥0.17)。最终,脱脂 BSFL 有可能在不牺牲草料利用率的情况下替代传统饲料作为蛋白质补充剂。
