Abstract
Screening of novel feedstuffs, that too for data-deficient (nutritionally) animals, is somewhat ambiguous or problematic. Through systematic meta-analyses, the present study formulated most up-to-date crayfish nutritional standards, against which a recyclable waste (biofloc biomass, BM) from intensive aquaculture systems was assessed as a novel protein source. Growth trajectory dependencies and thermal growth coefficient qualifying for good growth in crayfish (TGC 0.5–0.64 units) were benchmarked. Using these standards and a 7-week growth trial, BM's suitability as a novel protein source for red swamp crayfish Procambarus clarkii was evaluated through its graded inclusions in a commercial feed. Results suggest that BM can elevate growth at 33–66% inclusion in existing feed formulations. Beyond 66% inclusion, BM can deteriorate growth in crayfish due to high ash content (exceeding physiological limit > 14%), arginine deficiency (~ 14–20% lower than an optimum requirement), and insufficient non-protein energy: protein ratio (3.7 cal mg−1). Arginine is perhaps the most critical amino acid in dietary protein for crayfish, and deficient in BM. Although no critical bioaccumulation levels of heavy metals were breached by feeding 100% BM to crayfish, a mineral and heavy metal (Hg) stress seemed plausible. Crayfish raised solely on biofloc may not realize full growth potential.
Highlights
IntroductionThat too for data-deficient (nutritionally) animals, is somewhat ambiguous or problematic
Screening of novel feedstuffs, that too for data-deficient animals, is somewhat ambiguous or problematic
biofloc technology systems (BFT) are a modern, intensive aquaculture system that evolved from the classic ‘activated-sludge based sewage bioremediation’ in wastewater treatment plants
Summary
That too for data-deficient (nutritionally) animals, is somewhat ambiguous or problematic. Growth trajectory dependencies and thermal growth coefficient qualifying for good growth in crayfish (TGC 0.5–0.64 units) were benchmarked Using these standards and a 7-week growth trial, BM’s suitability as a novel protein source for red swamp crayfish Procambarus clarkii was evaluated through its graded inclusions in a commercial feed. Abbreviations BM Biofloc meal (biomass) BFT Biofloc technology aquaculture system TGC Thermal growth coefficient EAA Essential amino acid IR Interquartile range GAM Generalized additive model LWG Live-weight gain CP Crude protein CL Crude lipid. Few commercial floc meals are generically marketed under ‘single-cell protein (SCP)’ or ‘microbial protein’ category—Profloc (Nutrinsic), FeedKind (Calysta), and Novacq/OBM (Ridley, Maritech) with pricing (as of 2018) between 1.1–3.3 USD k g−117,18 One of these is listed in IAFFD (international aquaculture feed formulation database), with complete nutrient spectrum data, including essential amino a cids[20]. The first two objectives (a and b) were rather a methodological and necessary step (placed in supplementary material) to the second part of our research related to the use of biofloc meal for crayfish (objectives c to e)
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