One aspect of producing BSF is the typical approach taken for growing BSF is quite general (i.e., not detail oriented). Young larvae are put in a pan with a specified amount of food with the expectation that after a given amount of time, the larvae will peak in terms of growth and food digestion and then be harvested. As you all know- what we expect and what actually occurs can be quite variable- Biology just does stuff like this (i.e., variation). So, I am often asked how do we develop a more precise approach to producing BSF, while maintaining a high level of precision and accuracy with the model produced? My typical answer is- well, researchers/industry just have not developed such a system yet (that is publicly available). However, studies, such as the one about to be listed might be the next step needed to develop a more precise method for mass production of BSF. Gligorescu, A., S. Toft, H. Hauggaard-Nielsen, J. A. Axelsen, and S. A. Nielsen. 2019. Development, growth and metabolic rate of Hermetia illucens larvae. Journal of Applied Entomology 143: 875-881. The overall conclusions that I reached after reading this article are the following: 1. Prediction of growth patterns of BSF larvae is relatively consistent (as expected) with slow growth initially followed by vertical growth (i.e., think- weight over time) and then a plateau. This overview is not new, but it does illustrate a point. There is a window of maximum growth producers want to identify with their colony. Predicting when that portion of the growth pattern is complete should represent a harvesting time point. By identifying this point in development, producers could reduce their "in pan" production time by 2 days or more. From a production standpoint, reducing development time that amount is quite significant as related to space occupied by pans and resulting production. 2. Heat generation (significant) occurs at a set point in the development cycle. Producers should be aware of this time point- too much heat and the waste will compost and the larvae will stop feeding. A remedy would be to identify that time point, mix the waste, and allow the heat to escape (be aware, such a process also blends the BSF waste with food not consumed which could be an issue). 3. Something not discussed, or I missed it, is along this growth pattern, the larvae will shift from protein accumulation to fat accumulation. If identified, producers could harvest larvae with different nutrient compositions (e.g., high protein/low fat and vice versa). Of course, many of you have already thought about this point I am sure. But, I like to put it out there for others to consider. AuthorJeffery K. Tomberlin, PhD, Enjoying fall weather in Texas
1 Comment
Anton Gligorescu
11/6/2019 03:14:11 am
Dear Jeffery,
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