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Updated: Jun 30, 2026

Gut Isolation from Zebrafish Larvae for Single-cell RNA Sequencing
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Published on: November 10, 2023

Species as a process.

Olivier Rieppel1

  • 1Department of Geology, The Field Museum, 1400 S Lake Shore Drive, Chicago, IL 60605-2496, USA. orieppel@fieldmuseum.org

Acta Biotheoretica
|September 25, 2008
PubMed
Summary
This summary is machine-generated.

This study proposes that species are dynamic, causally integrated processual systems. These systems are viewed as natural kinds, maintaining identity through evolutionary change via their unique historical origins.

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Area of Science:

  • Evolutionary Biology
  • Philosophy of Science
  • Systematics

Background:

  • Species are fundamental units of evolution, often viewed as spatio-temporally bounded entities.
  • The concept of species as natural kinds is debated, especially concerning their persistence through evolutionary change.
  • The species-individuals thesis posits that species are individuated by their unique evolutionary origins.

Purpose of the Study:

  • To propose a novel understanding of species as processual systems.
  • To reconcile the concept of species as evolving entities with their persistence as natural kinds.
  • To analyze how species maintain identity over evolutionary time.

Main Methods:

  • Philosophical analysis of existing species concepts.
  • Argumentation based on systems theory and natural kind theory.
  • Integration of concepts from evolutionary biology and metaphysics.

Main Results:

  • Species are best understood as open or closed, causally integrated processual systems.
  • These processual systems instantiate an historically conditioned homeostatic property cluster natural kind.
  • This framework explains how species persist as natural kinds despite undergoing evolutionary change.

Conclusions:

  • Species are not static entities but dynamic, evolving processes.
  • Understanding species as processual systems provides a robust framework for natural kind status.
  • The unique evolutionary origin is key to the historical conditioning of species' homeostatic properties.