通过模拟牙釉质磨损来重建化石动物的饮食和进食行为：一种微观力学方法。

Simulation of enamel wear for reconstruction of diet and feeding behavior in fossil animals: A micromechanics approach.

作者信息

Constantino Paul J, Borrero-Lopez Oscar, Pajares Antonia, Lawn Brian R

机构信息

Department of Biology, Saint Michael's College, Colchester, VT, USA.

Departamento de Ingeniería Mecánica, Energética y de los Materiales, Universidad de Extremadura, Badajoz, Spain.

出版信息

Bioessays. 2016 Jan;38(1):89-99. doi: 10.1002/bies.201500094. Epub 2015 Dec 8.

DOI:10.1002/bies.201500094

PMID:26643447

Abstract

The deformation and wear events that underlie microwear and macrowear signals commonly used for dietary reconstruction in fossil animals can be replicated and quantified by controlled laboratory tests on extracted tooth specimens in conjunction with fundamental micromechanics analysis. Key variables governing wear relations include angularity, stiffness (modulus), and size of the contacting particle, along with material properties of enamel. Both axial and sliding contacts can result in the removal of tooth enamel. The degree of removal, characterized by a "wear coefficient," varies strongly with particle content at the occlusal interface. Conditions leading to a transition from mild to severe wear are discussed. Measurements of wear traces can provide information about contact force and particle shape. The potential utility of the micromechanics methodology as an adjunct for investigating tooth durability and reconstructing diet is explored.

摘要

在化石动物饮食重建中常用的微磨损和宏观磨损信号所基于的变形和磨损事件，可以通过对提取的牙齿标本进行受控实验室测试并结合基本微力学分析来复制和量化。控制磨损关系的关键变量包括接触颗粒的棱角、硬度（模量）和尺寸，以及牙釉质的材料特性。轴向和滑动接触都会导致牙釉质的去除。以“磨损系数”为特征的去除程度，在咬合界面处随颗粒含量而有很大变化。讨论了导致从轻度磨损转变为重度磨损的条件。磨损痕迹的测量可以提供有关接触力和颗粒形状的信息。探讨了微力学方法作为研究牙齿耐久性和重建饮食辅助手段的潜在效用。

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通过模拟牙釉质磨损来重建化石动物的饮食和进食行为：一种微观力学方法。

Simulation of enamel wear for reconstruction of diet and feeding behavior in fossil animals: A micromechanics approach.

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