The premise that fish, as a distinct biological group, lack scientific validity stems from cladistics, a method of biological classification based on evolutionary relationships. It argues that a group must include all descendants of a common ancestor to be considered a legitimate clade. Defining ‘fish’ traditionally excludes tetrapods (amphibians, reptiles, birds, and mammals), despite these tetrapods evolving from fish ancestors. Therefore, ‘fish’ becomes a paraphyletic grouping, an artificial category more reflective of shared aquatic lifestyle than shared exclusive ancestry. A traditional understanding of fish might include, for instance, a salmon or a shark, but exclude a cow, even though the cow shares a more recent common ancestor with the salmons ancestor than the salmon does with the shark.
The significance of recognizing the issue with the term fish lies in promoting accurate scientific communication and understanding of evolutionary history. Employing cladistically sound classifications provides a clearer representation of how different species are related and helps avoid misleading implications that arise from artificial groupings. Historically, the classification of life was largely based on observable similarities. However, modern phylogenetics, driven by genetic data, offers a more robust and precise way to reconstruct evolutionary relationships, highlighting the limitations of older classification schemes.
