The stomatopod dactyl club: A formidable damage-tolerant biological hammer

James C. Weaver; Garrett W. Milliron; Ali Miserez; Kenneth Evans-Lutterodt; Steven Herrera; Isaias Gallana; William J. Mershon; Brook Swanson; Pablo Zavattieri; Elaine DiMasi; David Kisailus

doi:10.1126/science.1218764

The stomatopod dactyl club: A formidable damage-tolerant biological hammer

James C. Weaver, Garrett W. Milliron, Ali Miserez, Kenneth Evans-Lutterodt, Steven Herrera, Isaias Gallana, William J. Mershon, Brook Swanson, Pablo Zavattieri, Elaine DiMasi, David Kisailus^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

761 Citations (Scopus)

Abstract

Nature has evolved efficient strategies to synthesize complex mineralized structures that exhibit exceptional damage tolerance. One such example is found in the hypermineralized hammer-like dactyl clubs of the stomatopods, a group of highly aggressive marine crustaceans. The dactyl clubs from one species, Odontodactylus scyllarus, exhibit an impressive set of characteristics adapted for surviving high-velocity impacts on the heavily mineralized prey on which they feed. Consisting of a multiphase composite of oriented crystalline hydroxyapatite and amorphous calcium phosphate and carbonate, in conjunction with a highly expanded helicoidal organization of the fibrillar chitinous organic matrix, these structures display several effective lines of defense against catastrophic failure during repetitive high-energy loading events.

Original language	English
Pages (from-to)	1275-1280
Number of pages	6
Journal	Science
Volume	336
Issue number	6086
DOIs	https://doi.org/10.1126/science.1218764
Publication status	Published - Jun 8 2012
Externally published	Yes

ASJC Scopus Subject Areas

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1126/science.1218764

Cite this

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abstract = "Nature has evolved efficient strategies to synthesize complex mineralized structures that exhibit exceptional damage tolerance. One such example is found in the hypermineralized hammer-like dactyl clubs of the stomatopods, a group of highly aggressive marine crustaceans. The dactyl clubs from one species, Odontodactylus scyllarus, exhibit an impressive set of characteristics adapted for surviving high-velocity impacts on the heavily mineralized prey on which they feed. Consisting of a multiphase composite of oriented crystalline hydroxyapatite and amorphous calcium phosphate and carbonate, in conjunction with a highly expanded helicoidal organization of the fibrillar chitinous organic matrix, these structures display several effective lines of defense against catastrophic failure during repetitive high-energy loading events.",

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AU - Weaver, James C.

AU - Milliron, Garrett W.

AU - Miserez, Ali

AU - Evans-Lutterodt, Kenneth

AU - Herrera, Steven

AU - Gallana, Isaias

AU - Mershon, William J.

AU - Swanson, Brook

AU - Zavattieri, Pablo

AU - DiMasi, Elaine

AU - Kisailus, David

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AB - Nature has evolved efficient strategies to synthesize complex mineralized structures that exhibit exceptional damage tolerance. One such example is found in the hypermineralized hammer-like dactyl clubs of the stomatopods, a group of highly aggressive marine crustaceans. The dactyl clubs from one species, Odontodactylus scyllarus, exhibit an impressive set of characteristics adapted for surviving high-velocity impacts on the heavily mineralized prey on which they feed. Consisting of a multiphase composite of oriented crystalline hydroxyapatite and amorphous calcium phosphate and carbonate, in conjunction with a highly expanded helicoidal organization of the fibrillar chitinous organic matrix, these structures display several effective lines of defense against catastrophic failure during repetitive high-energy loading events.

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The stomatopod dactyl club: A formidable damage-tolerant biological hammer

Abstract

ASJC Scopus Subject Areas

UN SDGs

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