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A Science Blog About

Black Soldier Fly

Recent Data Indicate Precision Black Soldier Production is Possible

10/18/2019

1 Comment

 
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.

Author

Jeffery K. Tomberlin, PhD, Enjoying fall weather in Texas
Director, EVO Conversion Systems, LLC
​@FliesFacility

1 Comment
Anton Gligorescu
11/6/2019 01:14:11 am

Dear Jeffery,

I would firstly like to thank you for the inspiring work in H. illucens production and for this great blog.

Regarding the discussed paper:

- I agree with you that a maximal growth can be predicted and used for maximizing the production outputs, while avoiding extra costs associated with unnecessary development time.

- Heat generation is clearly something than need to be controlled and as you also discussed, this can impact the feeding behavior of H. illucens larvae, especially during the latest actively feeding larval instars (i.e. 5th and 6th instars).

- Although not directly discussed in this paper and highlighted by you, indeed the larvae will switch from protein accumulation (associated with the higher specific metabolic rate in the early stages of development, in this paper), towards fat accumulation (referred as energy reserves in this paper and associated with the lower specific metabolic rate in the later larval stages). However, since we did not analyze or directly discussed this aspect in the present paper, I will like to take the opportunity to recommend Liu et al 2017. article, since they discuss the switch from protein to fat accumulation as a function of larval development.

Liu X, Chen X, Wang H, Yang Q, ur Rehman K, Li W, et al. (2017) Dynamic changes of nutrient composition throughout the entire life cycle of black soldier fly. PLoS ONE 12(8): https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0182601

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    Individuals with over 25 years research experience with the black soldier fly. We are passionate about the science behind the black soldier fly and its ability to convert waste to protein.


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