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Yield and Toxin Analysis of Leaf Protein Concentrate from Common North American Coniferous Trees

  • M. Mottaghi, T. K. Meyer, R. J. Tieman, D. C. Denkenberger, J. M. Pearce
Published in Biomass on:
27 May 2023

Summary

Leaf protein concentrate (LPC) shows great potential as a temporary food source in the event of an Abrupt Sunlight Reduction Scenario (ASRS). The study uses high-resolution mass spectrometry and open-source tools to screen for toxins in five common North American coniferous species. Overall, the findings suggest LPC is a promising candidate for resilient food use in such scenarios, with further research needed on the topic.

Abrupt Sunlight Reduction Scenario (ASRS), Leaf Protein Concentrate (LPC)

Abstract

In the event of an abrupt sunlight reduction scenario, there is a time window that occurs between when food stores would likely run out for many countries (~6 months or less) and ~1 year when resilient foods are scaled up. A promising temporary resilient food is leaf protein concentrate (LPC). Although it is possible to extract LPC from tree biomass (e.g., leaves and needles), neither the yields nor the toxicity of the protein concentrates for humans from the most common tree species has been widely investigated. To help fill this knowledge gap, this study uses high-resolution mass spectrometry and an open-source toolchain for non-targeted screening of toxins on five common North American coniferous species: Western Cedar, Douglas Fir, Ponderosa Pine, Western Hemlock, and Lodgepole Pine. The yields for LPC extraction from the conifers ranged from 1% to 7.5%. The toxicity screenings confirm that these trees may contain toxins that can be consumed in small amounts, and additional studies including measuring the quantity of each toxin are needed. The results indicate that LPC is a promising candidate to be used as resilient fo

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