TITLE:
The Graded Inclusion of Algae (Spirulina platensis) or Insect (Hermetia illucens) Meal as a Soybean Meal Substitute in Meat Type Chicken Diets Impacts on Growth, Nutrient Deposition and Dietary Protein Quality Depending on the Extent of Amino Acid Supplementation
AUTHORS:
Carmen Neumann, Susanne Velten, Frank Liebert
KEYWORDS:
Growing Chickens, Amino Acids, N Utilization Model, Growth Performance, Body Analyses, Alternative Proteins, Feed Protein Quality
JOURNAL NAME:
Open Journal of Animal Sciences,
Vol.8 No.2,
April
24,
2018
ABSTRACT: Three consecutive growth
experiments were conducted to evaluate growth performance, whole body analyses and protein quality parameters from chicken diets
with 50%, 75% and 100% substitution of soybean meal (SBM) by Spirulina meal
(SM) or partly defatted Hermetia meal (HM). Each of the experiments was divided into a starter period (1 - 21 d) and a grower period (22 - 34 d). One-day-old male growing
chickens (Ross 308) were randomly allotted to 48 floor pens making use of 6
birds/pen (Exp.1) or 7 birds/pen (Exp. 2, 3), and the experiments included a
control diet (n = 12) and four experimental diets (n = 9). Experiment 1
examined a 50 % replacement of SBM by the alternative proteins under study,
both on a basic and an advanced level of amino acid (AA) fortification to meet
the recommended ideal amino acid ratio (IAAR). In experiment 2, 75% (starter
diet) and 50% (grower diet) replacement of SBM was investigated. Experiment 3
investigated the effects of complete SBM substitution by SM or HM in starter
and grower diets. In the second and third experiment diets with both of the
alternative proteins and the control diet were AA supplemented to meet the
current IAAR. In a further step, the calculated first limiting AA (LAA) was
reduced to 80% of its requirement recommendation to allow for further
evaluation of the individual AA efficiency according to the “Goettingen approach”. Different levels (50%, 75%,
or 100%) of replacing SBM by HM or SM in chicken diets depressed dietary
protein quality (p 0.001)
and zoo-technical parameters (p 0.001)
with only a basic level of AA supplementation. This effect was much more
pronounced in diets with SM. However, with an extended level of dietary AA
supplementation zoo-technical parameters (p 0.001),
crude protein deposition (p 0.001)
and protein quality parameters (p 0.001)
were significantly improved. HM diets with an advanced level of AA tended to
provide higher dietary protein quality and growth performance as compared to
all SBM replacement levels through SM with different levels of AA
supplementation and control diets.