Adaptive Regeneration Across Scales: Replicators and Interactors from Limbs to Forests

Abstract

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Here we endorse Hull’s replicator/interactor framework as providing the overarching understanding sought by MacCord and Maienschein. We suggest that difficulties in seeing the regeneration of limbs by salamanders and of forest ecosystems after fires as similar evolutionary processes can be overcome in this framework. In generalizing Dawkins’s “selfish gene” perspective, Hull defined natural selection as “a process in which the differential extinction and proliferation of interactors causes the differential perpetuation of the replicators that produced them”. Although genes and bacteria are simultaneously both replicators and interactors, communities and ecosystems are generally only interactors. As reproducers, members of sexual species are intermediate. Within such species, organisms are indeed the interactors whose “differential extinction and proliferation” causes the “differential perpetuation” of replicators (genes). But sexually-reproducing organisms do not individually replicate, persist, or recur as interactors, and in consequence it is only those genes causing an interactor differential that are specifically perpetuated in the long run. Higher-level interactors (multi-species communities and ecosystems) may seldom if ever reproduce, but their recurrence does enable the “differential perpetuation” of replicators specifically responsible for their “differential extinction and proliferation”. In offering answers to the question “What are the replicators specifically responsible for the differential extinction and proliferation of such higher-level entities?” we hope to unify adaptive regeneration across scales, from organisms to ecosystems.

Keywords

• regeneration
• ecology
• evolution
• replicator-interactor
• multi-level selection theory
• microbiomics
• holobionts
• david hull