The role of dust, grit and phytoliths in tooth wear

Peter W. Lucas; Adam Van Casteren; Khaled Al-Fadhalah; Abdulwahab S. Almusallam; Amanda G. Henry; Shaji Michael; Jörg Watzke; David A. Reed; Thomas G.H. Diekwisch; David S. Strait; Anthony G. Atkins

doi:10.5735/086.051.0215

The role of dust, grit and phytoliths in tooth wear

Peter W. Lucas
, Adam Van Casteren
, Khaled Al-Fadhalah
, Abdulwahab S. Almusallam
, Amanda G. Henry
, Shaji Michael
, Jörg Watzke
, David A. Reed
, Thomas G.H. Diekwisch
, David S. Strait
, Anthony G. Atkins

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

108 Scopus citations

Abstract

The threat of wear to dental enamel from hard particles of silica or silicates may have exerted great selective pressure on mammals. Increasing the hardness of enamel helps to forestall this, but capacity for variation is small because the tissue is almost entirely composed of hydroxyapatite. Hard though it is, enamel also displays considerable toughness, which is important in setting the sharpness of particles (defined as an attack angle) necessary to wear it. Added to the threat from environmental silica(tes) are phytoliths, particles of opaline silica embedded in plant tissues. We show here that phytoliths have very different properties to grit and dust and are unlikely to wear enamel. However, phytoliths would tend to fracture between teeth under similar conditions, so resembling natural agents of wear. In this context, we suggest that phytoliths could represent an example of mimicry, forming an example of a feeding deterrent operating by deceit.

Original language	English
Pages (from-to)	143-152
Number of pages	10
Journal	Annales Zoologici Fennici
Volume	51
Issue number	1-2
DOIs	https://doi.org/10.5735/086.051.0215
State	Published - Apr 2014

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title = "The role of dust, grit and phytoliths in tooth wear",

abstract = "The threat of wear to dental enamel from hard particles of silica or silicates may have exerted great selective pressure on mammals. Increasing the hardness of enamel helps to forestall this, but capacity for variation is small because the tissue is almost entirely composed of hydroxyapatite. Hard though it is, enamel also displays considerable toughness, which is important in setting the sharpness of particles (defined as an attack angle) necessary to wear it. Added to the threat from environmental silica(tes) are phytoliths, particles of opaline silica embedded in plant tissues. We show here that phytoliths have very different properties to grit and dust and are unlikely to wear enamel. However, phytoliths would tend to fracture between teeth under similar conditions, so resembling natural agents of wear. In this context, we suggest that phytoliths could represent an example of mimicry, forming an example of a feeding deterrent operating by deceit.",

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AU - Al-Fadhalah, Khaled

AU - Almusallam, Abdulwahab S.

AU - Henry, Amanda G.

AU - Michael, Shaji

AU - Watzke, Jörg

AU - Reed, David A.

AU - Diekwisch, Thomas G.H.

AU - Strait, David S.

AU - Atkins, Anthony G.

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AB - The threat of wear to dental enamel from hard particles of silica or silicates may have exerted great selective pressure on mammals. Increasing the hardness of enamel helps to forestall this, but capacity for variation is small because the tissue is almost entirely composed of hydroxyapatite. Hard though it is, enamel also displays considerable toughness, which is important in setting the sharpness of particles (defined as an attack angle) necessary to wear it. Added to the threat from environmental silica(tes) are phytoliths, particles of opaline silica embedded in plant tissues. We show here that phytoliths have very different properties to grit and dust and are unlikely to wear enamel. However, phytoliths would tend to fracture between teeth under similar conditions, so resembling natural agents of wear. In this context, we suggest that phytoliths could represent an example of mimicry, forming an example of a feeding deterrent operating by deceit.

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The role of dust, grit and phytoliths in tooth wear

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