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finding:caterpillar-to-butterfly-memory-persistence-despite-radical-brain-refactoringCaterpillar-to-butterfly memory persistence despite radical brain refactoring
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extracted_from(2024) · Levin, Michael
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- Gap junctions and bioelectric signals encode body-plan and memory patterns across radical biological transformation.
- Explores how learned behaviors and functional memory survive complete neural restructuring during metamorphosis, testing substrate-independence of identity and continuity.
- Associative memories survive complete larval brain remodeling into adult Lepidoptera
Related by similarity (8)
cosine ≥ 0.65 · no typed edgeEntities in the same semantic neighborhood but without a typed relation to this one — candidates for new edges or unrecognized duplicates.
- Empirical demonstration that memories persist through massive brain and body remodeling during metamorphosis, challenging notions of stable Self-substrate binding.
- Key biological finding supporting the claim that identity can persist through radical physical transformation
- Empirical example where memories remain despite drastic refactoring of brain tissue and body; demonstrates need for creative reinterpretation rather than passive storage.
- Empirical finding from Blackiston et al. 2008, demonstrating memory across radical body change.
- Caterpillars that learn a behavior retain it as adults despite brain being drastically remodelled, showing memory mapping across substrates.