| Title | Authors | Year | Journal Citation |
| A hydrodynamic antenna: novel lateral line system in the tail of myliobatid stingrays | Chaumel J. et al. | 2025 | Proc. R. Soc. B 292: 20242192. |
| The tuna keel is a mechanosensory structure | Chaumel J. et al. | 2025 | iScience 28, 111578, January 17, 2025 |
| Physics and physiology of fish collective movement | Zhang Y. et al. | 2025 | Newton, Volume 1, Issue 1, 100021 |
Slippery and Smooth Shark Skin: How Mucus Transforms
Surface Texture | Fischer M.J. et al. | 2025 | J Morphol. 2025 Apr;286(4):e70046 |
Are swimming fish dual oscillator systems? A case study using
free-swimming smooth dogfish sharks (Mustelus canis) | White C.F. et al. | 2025 | Journal of Experimental Biology 228, jeb249715 |
| Fish schools in a vertical diamond formation: Effect of vertical spacing on hydrodynamic interactions | Menzer A. et al. | 2025 | Physical Review Fluids 10, 043104 |
| Beyond planar: fish schools adopt ladder formations in 3D | Ko H. et al. | 2025 | Sci Rep 15, 20249 (2025) |
Computational analysis of fish-foil pairing and wake energy
extraction in low-speed flow | Guo J. et al. | 2025 | Bioinspir. Biomim. 20 (2025) 056011 |
The Concord Field Station at Harvard University: foundational
contributions to organismal physiology and biomechanics | Biewener A. et al. | 2025 | Journal of Experimental Biology 228, jeb251226 |
