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Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate

  • J. M. Pearce, M. Khaksari, D. C. Denkenberger
Published in Plants on:
26 April 2019

Summary

Pearce et. al explore the potential of leaf concentrates as a resilient (alternative) food source during sun-blocking global catastrophic risks (GCRs) that would disrupt conventional agriculture, focusing on the edibility of red maple leaves. They identify eight toxins in red maple leaf concentrate, and conclude that these toxins pose minimal risk unless consumed in large quantities, suggesting that red maple leaves could be a viable resilient food option.

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

Abstract

Alternative food supplies could maintain humanity despite sun-blocking global catastrophic risks (GCRs) that eliminate conventional agriculture. A promising alternative food is making leaf concentrate. However, the edibility of tree leaves is largely uncertain. To overcome this challenge, this study provides the methods for obtaining rapid toxics screening of common leaf concentrates. The investigation begins with a non-targeted approach using an ultra-high-resolution hybrid ion trap orbitrap mass spectrometer with electrospray ionization (ESI) coupled to an ultra-high pressure two-dimensional liquid chromatograph system on the most common North American leaf: the red maple. Identified chemicals from this non-targeted approach are then cross-referenced with the OpenFoodTox database to identify toxic chemicals. Identified toxins are then screened for formula validation and evaluated for risk as a food. The results after screening show that red maple leaf concentrate contains at least eight toxic chemicals, which upon analysis do not present substantial risks unless consumed in abundance. This indicates that red maple leaf is still a potential alternative food. The results are discussed in the context of expanding the analysis with open science and using leaf extract from other plants that are not traditionally used as foods to offset current global hunger challenges, and move to a more sustainable food system while also preparing for GCRs.

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