Near Infrared Spectroscopy for Prediction of Yeast and Mould Counts in Black Soldier Fly Larvae, Feed and Frass: A Proof of Concept.
Shanmugam AlagappanAnran DongDeirdre MikkelsenLouwrens Christiaan HoffmanSandra Milena Olarte MantillaPeter JamesOlympia YargerDaniel CozzolinoPublished in: Sensors (Basel, Switzerland) (2023)
The use of black soldier fly larvae (BSFL) grown on different organic waste streams as a source of feed ingredient is becoming very popular in several regions across the globe. However, information about the easy-to-use methods to monitor the safety of BSFL is a major step limiting the commercialization of this source of protein. This study investigated the ability of near infrared (NIR) spectroscopy combined with chemometrics to predict yeast and mould counts (YMC) in the feed, larvae, and the residual frass. Partial least squares (PLS) regression was employed to predict the YMC in the feed, frass, and BSFL samples analyzed using NIR spectroscopy. The coefficient of determination in cross validation (R 2 CV ) and the standard error in cross validation (SECV) obtained for the prediction of YMC for feed were (R 2 cv: 0.98 and SECV: 0.20), frass (R 2 cv: 0.81 and SECV: 0.90), larvae (R 2 cv: 0.91 and SECV: 0.27), and the combined set (R 2 cv: 0.74 and SECV: 0.82). However, the standard error of prediction (SEP) was considered moderate (range from 0.45 to 1.03). This study suggested that NIR spectroscopy could be utilized in commercial BSFL production facilities to monitor YMC in the feed and assist in the selection of suitable processing methods and control systems for either feed or larvae quality control.
Keyphrases
- drosophila melanogaster
- aedes aegypti
- quality control
- high resolution
- photodynamic therapy
- single molecule
- healthcare
- fluorescence imaging
- drug release
- magnetic resonance imaging
- saccharomyces cerevisiae
- computed tomography
- solid phase extraction
- binding protein
- high speed
- diffusion weighted imaging
- tandem mass spectrometry