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The mechanical and sensory signature of plant-based and animal meat

Skyler R. St. Pierre, Ethan C. Darwin, Divya Adil, Magaly C. Aviles, Archer Date, Reese A. Dunne, Yanav Lall, María Parra Vallecillo, Valerie A Pérez Medina, Kevin Linka, Marc E. Levenston, Ellen Kuhl

2024npj Science of Food31 citationsDOIOpen Access PDF

Abstract

Eating less meat is associated with a healthier body and planet. Yet, we remain reluctant to switch to a plant-based diet, largely due to the sensory experience of plant-based meat. Food scientists characterize meat using a double compression test, which only probes one-dimensional behavior. Here we use tension, compression, and shear tests-combined with constitutive neural networks-to automatically discover the behavior of eight plant-based and animal meats across the entire three-dimensional spectrum. We find that plant-based sausage and hotdog, with stiffnesses of 95.9 ± 14.1 kPa and 38.7 ± 3.0 kPa, successfully mimic their animal counterparts, with 63.5 ± 45.7 kPa and 44.3 ± 13.2 kPa, while tofurky is twice as stiff, and tofu is twice as soft. Strikingly, a complementary food tasting survey produces in nearly identical stiffness rankings for all eight products (ρ = 0.833, p = 0.015). Probing the fully three-dimensional signature of meats is critical to understand subtle differences in texture that may result in a different perception of taste. Our data and code are freely available at https://github.com/LivingMatterLab/CANN.

Topics & Concepts

Wine tastingSensory systemSignature (topology)Compression (physics)TasteFood scienceTexture (cosmology)PerceptionComputer scienceArtificial intelligencePattern recognition (psychology)BiologyMathematicsBiological systemPhysicsNeuroscienceThermodynamicsWineGeometryImage (mathematics)Agriculture Sustainability and Environmental ImpactMeat and Animal Product QualityAnimal Behavior and Welfare Studies
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