金属替代物不适用于评估微磨损形成机制的证据以及微磨损意义的新理论。

Evidence that metallic proxies are unsuitable for assessing the mechanics of microwear formation and a new theory of the meaning of microwear.

作者信息

van Casteren Adam, Lucas Peter W, Strait David S, Michael Shaji, Bierwisch Nick, Schwarzer Norbert, Al-Fadhalah Khaled J, Almusallam Abdulwahab S, Thai Lidia A, Saji Sreeja, Shekeban Ali, Swain Michael V

机构信息

Max Planck Weizmann Center for Integrative Archeology and Anthropology, Max Planck Institute for Evolutionary Anthropology, Deutscher Platz 6, D-04103, Leipzig, Germany.

Smithsonian Tropical Research Institute, Luis Clement Ave., Bldg. 401 Tupper Balboa Ancon, Panama, Republic of Panama.

出版信息

R Soc Open Sci. 2018 May 23;5(5):171699. doi: 10.1098/rsos.171699. eCollection 2018 May.

DOI:10.1098/rsos.171699

PMID:29892367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5990759/

Abstract

Mammalian tooth wear research reveals contrasting patterns seemingly linked to diet: irregularly pitted enamel surfaces, possibly from consuming hard seeds, versus roughly aligned linearly grooved surfaces, associated with eating tough leaves. These patterns are important for assigning diet to fossils, including hominins. However, experiments establishing conditions necessary for such damage challenge this paradigm. Lucas . (Lucas . 2013 , 20120923. (doi:10.1098/rsif.2012.0923)) slid natural objects against enamel, concluding anything less hard than enamel would rub, not abrade, its surface (producing no immediate wear). This category includes all organic plant matter. Particles harder than enamel, with sufficiently angular surfaces, could abrade it immediately, prerequisites that silica/silicate particles alone possess. Xia (Xia, Zheng, Huang, Tian, Chen, Zhou, Ungar, Qian. 2015 , 10 669-10 672. (doi:10.1073/pnas.1509491112)) countered with experiments using brass and aluminium balls. Their bulk hardness was lower than enamel, but the latter was abraded. We examined the ball exteriors to address this discrepancy. The aluminium was surfaced by a thin rough oxide layer harder than enamel. Brass surfaces were smoother, but work hardening during manufacture gave them comparable or higher hardness than enamel. We conclude that Xia .'s results are actually predicted by the mechanical model of Lucas . To explain wear patterns, we present a new model of textural formation, based on particle properties and presence/absence of silica(tes).

摘要

哺乳动物牙齿磨损研究揭示了看似与饮食相关的不同模式

牙釉质表面出现不规则凹坑，可能是由于食用硬种子所致；而表面有大致排列的线性凹槽，则与食用坚韧树叶有关。这些模式对于确定包括古人类在内的化石的饮食结构很重要。然而，确定此类损伤所需条件的实验对这一范式提出了挑战。卢卡斯（Lucas. 2013, 20120923. (doi:10.1098/rsif.2012.0923)）让天然物体与牙釉质摩擦，得出结论：任何比牙釉质软的东西都会摩擦而不是磨损其表面（不会立即产生磨损）。这一类别包括所有有机植物物质。比牙釉质硬且表面有足够棱角的颗粒可以立即磨损它，而只有二氧化硅/硅酸盐颗粒具备这些先决条件。夏（Xia, Zheng, Huang, Tian, Chen, Zhou, Ungar, Qian. 2015, 10 669 - 10 672. (doi:10.1073/pnas.1509491112)）用黄铜球和铝球进行实验予以反驳。它们的整体硬度低于牙釉质，但后者却被磨损了。我们检查了球的外部以解决这一差异。铝球表面有一层比牙釉质硬的薄粗糙氧化层。黄铜球表面更光滑，但制造过程中的加工硬化使其硬度与牙釉质相当或更高。我们得出结论，夏等人的结果实际上可以由卢卡斯的力学模型预测。为了解释磨损模式，我们基于颗粒特性以及二氧化硅（盐）的存在与否，提出了一种新的纹理形成模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7c19/5990759/064f2784f41b/rsos171699-g1.jpg

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金属替代物不适用于评估微磨损形成机制的证据以及微磨损意义的新理论。

Evidence that metallic proxies are unsuitable for assessing the mechanics of microwear formation and a new theory of the meaning of microwear.

作者信息

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出版信息

哺乳动物牙齿磨损研究揭示了看似与饮食相关的不同模式

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