Self-organized patterning of crocodile head scales by compressive folding

Santos-Durán, Gabriel N.; Cooper, Rory L.; Jahanbakhsh, Ebrahim; Timin, Grigorii; Milinkovitch, Michel C.

Self-organized patterning of crocodile head scales by compressive folding

Gabriel N. Santos-Durán, Rory L. Cooper, Ebrahim Jahanbakhsh, Grigorii Timin and Michel C. Milinkovitch ()
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Gabriel N. Santos-Durán: University of Geneva
Rory L. Cooper: University of Geneva
Ebrahim Jahanbakhsh: University of Geneva
Grigorii Timin: University of Geneva
Michel C. Milinkovitch: University of Geneva

Nature, 2025, vol. 637, issue 8045, 375-383

Abstract: Abstract Amniote integumentary appendages constitute a diverse group of micro-organs, including feathers, hair and scales. These structures typically develop as genetically controlled units1, the spatial patterning of which emerges from a self-organized chemical Turing system2,3 with integrated mechanical feedback4,5. The seemingly purely mechanical patterning of polygonal crocodile head scales provides an exception to this paradigm6. However, the nature and origin of the mechanical stress field driving this patterning remain unclear. Here, using precise in ovo intravenous injections of epidermal growth factor protein, we generate Nile crocodile embryos with substantially convoluted head skin, as well as hatchlings with smaller polygonal head scales resembling those of caimans. We then use light-sheet fluorescence microscopy to quantify embryonic tissue-layer geometry, collagen architecture and the spatial distribution of proliferating cells. Using these data, we build a phenomenological three-dimensional mechanical growth model that recapitulates both normal and experimentally modified patterning of crocodile head scales. Our experiments and numerical simulations demonstrate that crocodile head scales self-organize through compressive folding, originating from near-homogeneous skin growth with differential stiffness of the dermis versus the epidermis. Our experiments and theoretical morphospace analyses indicate that variation in embryonic growth and material properties of skin layers provides a simple evolutionary mechanism that produces a diversity of head-scale patterns among crocodilian species.

Date: 2025
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DOI: 10.1038/s41586-024-08268-1

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