![\"\"](\"https:\/\/www.europesays.com\/ie\/wp-content\/uploads\/2026\/04\/low-res.webp\" "\\"Scorpions")
SE micrograph of the entire telson (stinger) of the Tanzanian red bark scorpion. Credit: Sam Campbell\/University of Queensland<\/p>\nScorpions are the natural world\u2019s original metalheads. Research from the Smithsonian\u2019s National Museum of Natural History shows that these arachnids add metals like zinc and iron to their stingers and pincers to make them stronger and sharper.<\/p>\n
In this study, 18 species were analyzed to determine how zinc, manganese, and iron are distributed within their built-in weapons, such as stingers and pincers.<\/p>\n
\u201cScorpions are incredible hunters, and while we knew that metals strengthen the weapons in some species\u2019 arsenals, we don\u2019t know if all scorpions\u2019 weapons contain metal, and if so, whether this metal enrichment relates to how they hunt,\u201d said Sam Campbell, a graduate student fellow at the National Museum of Natural History.\u00a0<\/p>\n
\u201cWe decided to use microanalytical techniques to unravel where and how these metals are distributed in the scorpions\u2019 weapons to offer a clue as to how and why metal enrichment has been carried through the scorpion family tree,\u201d Campbell added.\u00a0<\/p>\n
SE micrograph of the entire telson (stinger) of the Tanzanian red bark scorpion. Credit: Sam Campbell\/University of Queensland<\/p>\n
Like their spider and tick cousins, scorpions are eight-legged arachnids. They hunt by snagging insects with their pincers and quickly arching their tails to deliver a venomous sting from the telson.<\/p>\n
Scorpions<\/a> use a specialized weapon system that balances crushing pincers and venomous stingers according to their specific hunting styles and defensive needs. <\/p>\n While some species rely on massive claws to overpower prey, others use aggressive stinging, leading researchers to believe that these behavioral patterns are directly reflected in how metals are distributed to support each weapon.<\/p>\n Tools such as advanced\u00a0electron microscopy<\/a>\u00a0and X-ray analysis helped identify the specific areas that require metal reinforcement to withstand the most pressure.<\/p>\n Surprisingly, it was found that stingers<\/a> use a distinct layering of zinc at the tip, followed by manganese, while pincers are reinforced with zinc and iron specifically along their cutting edges. <\/p>\n \u201cThe microscopic-scale methods we used allowed us to identify individual transition metals in extremely high detail, showing us how nature skillfully engineered these metals in the scorpion\u2019s weapons,\u201d said<\/a> Edward Vicenzi, research scientist at the Museum Conservation Institute and a co-author on the study.<\/p>\n Role of iron <\/p>\n The study\u2019s most surprising twist involves the role of iron.\u00a0<\/p>\n Contrary to expectations, researchers found that iron is more prevalent in long, slender pincers than in thick, crushing ones.\u00a0Slender claws are prone to snapping. Hence, iron likely provides the structural integrity needed to hold struggling prey<\/a> long enough for the venom to take effect.<\/p>\n This discovery shows a clear evolutionary link between a species\u2019 hunting behavior and its specific metal recipe.\u00a0<\/p>\n Using the Smithsonian\u2019s vast collections and advanced microanalytical techniques, the team has created a blueprint for studying metal enrichment across the broader tree of life. <\/p>\n![\"\"](\"https:\/\/www.europesays.com\/ie\/wp-content\/uploads\/2026\/04\/low-res-28.jpeg\" "\\"Scorpions")
Micro X-ray fluorescence microscopy of the metals present the stinger of an emporer scorpion. Credit: E.P. Vicenzi\/Smithsonian Museum Conservation Institute and NIST<\/p>\n