Journal ArticleTesting the Limits: Functional Strengths and Weaknesses of Poacher (Agonidae) ArmorMartinez, L E; Vandenberg, M L (ORCID:0009000923268759); Cohen, K E (ORCID:0000000165565414); Summers, A P; Donatelli, C M<title>Synopsis</title> <p>Dermal armor serves a variety of functions across animal lineages including defense, offense, display, and prehension. Small differences in armor structure, plate size, or overlap may complement large differences in behavior or ecology. We characterized damage to an armored fish—the gray starsnout poacher (Bathyagonus alascanus) to probe whether there are differences in plate function within a single species. We quantified damage to poacher armor and skeleton under different force modes, including crushing, puncture, abrasion, and blunt impact, using micro-computed tomography, scanning electron microscopy, and material testing. Armor in the posterior region of the fish can withstand higher stress during crushing, suggesting they are well protected while fleeing from a crushing predator. It takes more work to puncture the anterior armor, perhaps poachers tend to face an animal threatening a puncturing attack. The dorsal plate spines are often eroded away from abrasion and/or blunt impact; we posit that the spineless ventral plates are smooth because strong sub-tidal currents cause collisions with a rocky substrate that would quickly destroy ventral spines if the plates were so equipped. The imbricated armor of B. alascanus has a diversity of performance against different threats, and this varies with location.</p>IOB2026-01-0110669282Integrative Organismal Biology812517-4843https://doi.org/10.1093/iob/obag0032522148National Science Foundation