The theory of evolution is the overarching unifying theory in
biology. Are there biological facts that the theory of evolution does not need to
explain? Or does the theory of evolution have to explain every fact about
life? According to the theory of evolution every species and every
individual of a species is the result of evolution. That would imply that
every feature of an organism must somehow be explained by the theory of
evolution.
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Aerodynamic forces on a bird (Videler, 2012)
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Even at the time when I was a student and attended evolutionary biology
courses and did lab experiments on evolution, I had the vague idea that
the theory of evolution was incomplete, although at the time I couldn't
say why, or what exactly was missing (here). There is so much to explain, and "A change in gene frequencies over time" and "Differential reproduction of heritable variation" seem
far too simple for the task. Yes, there was a Second and Third
Evolutionary Synthesis, but still a lot was missing. Obviously,
the planetary, geological and cosmological context of evolution is often
missing in the textbooks. Last year I blogged about the fact that evolution textbooks are suffocating: very low
levels of Oxygen! My list of top 20 evolution books (blog) reflects my preoccupation with the question of what is missing.
Furthermore, physicist Rolie Barth pointed out physical factors and
constraints in evolution (blog) [1]. At the other end of the spectrum: is evolution supposed to
explain human behaviour, intelligence, consciousness, psychology,
language, culture, civilization, war? What is the scope of the theory?
Where does it end?
A few days ago I had an interesting discussion with google-AI about the
question:
Are there biological facts that the theory of evolution does not need to
explain? The initial answers seemed incorrect and incomplete. So, I demanded
better answers and google-AI came with surprisingly insightful
answers:
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What evolution does NOT need to explain: The physics of how cells
physically move, stick together, or split. For example, when a sheet of
cells bends into a tube, it follows basic laws of fluid mechanics and
surface tension.
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What evolution DOES need to explain: Why the cells bend into a
tube at that exact moment, in that specific location, to form a spinal
cord. The timing, the instructions, and the genetic switches that trigger
those physical movements are entirely shaped by natural selection.
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What evolution does NOT explain: The electromagnetic forces that
allow a hydrogen bond to form between Adenine and Thymine. That is pure
physics and chemistry.
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What evolution DOES explain: Why a specific three-letter sequence
(like UUU) maps to a specific amino acid (like Phenylalanine), and why
this map is nearly universal across all life.
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Evolution does NOT explain: Why a hydrogen bond forms at all, why
the universe is made of matter instead of antimatter, or the laws of
thermodynamics that govern energy conversion.
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Evolution DOES explain: How life hijacked those inescapable
physical realities and organized them into the intricate, Mendelian,
metabolic, developmental masterpiece we call biology.
Additionally:
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Lipid Bilayers: Amphiphilic lipid molecules
automatically assemble into complex, spherical, semi-permeable cell
membranes when exposed to water,
driven entirely by hydrophobic physical forces.
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Membraneless Organelles: Inside the cell, proteins and RNA's undergo
liquid-liquid phase separation—similar to droplets of oil separating in
water. This thermodynamic behaviour spontaneously forms highly organized,
functional compartments (such as the nucleolus)
without needing an explicit genetic blueprint directing every
coordinate.
These examples can be expanded with:
Microtubules: the self-assembly of microtubules. The proteins themselves are inherited, but
they self-assemble into microtubules.
Biochemistry: See also the primacy of biochemistry as opposed to
genetic determinism [2].
Bio-electricity: "Without bioelectricity, your cells couldn't
communicate, your muscles couldn't move, and your heart wouldn't beat."
[3]:
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The Cellular Battery: Membrane Potential
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Nervous System Communication
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Muscle Contractions (Powering Movement and the Heart)
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Wound Healing and Tissue Regeneration
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Specialized Biological Superpowers (Electroreception,
Electrogenesis)
Quantum effects: photosynthesis.
Mechanical forces: Venus flytrap [4].
Van der Waals forces that hold molecules together (Gecko).
Hydrogen bonds (DNA bases).
Aerodynamics (birds, bats, insects), hydrodynamics
(fishes, dolphins, sharks, blood flow).
Gravity: Effect on body size (scaling laws).
Geomagnetic field: is used by pigeons for navigation
etc.
It seems very reasonable that evolutionary theory doesn't need to explain
physical and chemical phenomena, because it is a biological theory.
Physics and chemistry do explain physical and chemical phenomena. A
biological theory can take them for granted, isn't it?
However, there is a problem. For a
full scientific explanation of the evolution of life on earth,
one cannot do without additional non-biological
explanations. But organisms are undivided wholes. They can't be subdivided into biological, chemical and physical parts.
So, must we conclude that the theory of evolution,
as a biological theory, by definition is incomplete? [5]. Could it
be that the theory only has to explain how biological things have evolved,
and not all the details of how they work precisely? Would it be enough to
demonstrate which genes and which mutations are involved in creating a
specific trait and how it contributes to fitness? Does the theory need to
include aerodynamics to explain the origin and evolution of flight?
Finally, if new scientific discoveries are made on a daily basis, how can
the theory of evolution ever be complete? I am afraid that the question of
the scope and completeness of the theory of evolution is a rather complex
and elusive question. Maybe, several quite different questions. Anyway,
the question is too wide-ranging and too tricky to settle in one blog
post.
Notes
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See also this
blog where Rolie Barth explains that "Protein evolution can draw
from a reservoir of a limited number of physically possible
structures".
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Nick Lane say about the primacy of biochemistry contra genetic
determinism: Genes evolved simply to stabilize and optimize these already
functioning biochemical pathways, rather than starting from scratch to build the cell. Also: The
electrical origins of life!
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According to https://gemini.google.com
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Fast cell wall softening causes Venus flytrap closure, Science, 11 Jun 2026
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Note: Could that be the cause of my gut feelings about the
incompleteness of the theory of evolution half a century ago?
Preliminary Conclusions
17-19 June 2026
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The Theory Of Evolution is a high level abstract paradigm that generates
research strategies to investigate the details of structure and function
of species.
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The Theory Of Evolution can be so compact because all the details are
supplied by the biological subdisciplines, chemistry, physics and so on.
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Another reason why the Theory of Evolution is so compact is that it does
not predict 'the brute facts of life': the existence of Kangaroos,
Penguins, Anteaters, Hummingbirds, Bats, Octopuse, Sundew, Ocean sunfish, Platypus, Eukaryotes,
Sex, Genetic Code, Split genes, the structure of DNA, etc. (historical
contingency).
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The two hardest problems of The Theory Of Evolution are the origin of
life and the origin of consciousness.
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Common descent predicts deep similarities of all life, and indeed this
has been found on the genetic, biochemical, developmental and anatomical
level, although the extent and specifics of similarities cannot be
predicted in advance and often have surprised scientists.
Read more...
