MicroWeaR

Mastication of dietary items with different mechanical properties leaves distinctive microscopic marks on the surface of tooth enamel. The inspection of such marks (dental microwear analysis) is informative about the dietary habitus in fossil as well as in modern species. Dental microwear analysis r...

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Bibliographic Details
Authors: Strani, Flavia|||0000-0003-4566-3644, Profico, Antonio|||0000-0003-2884-7118, Manzi, Giorgio, Pushkina, Diana|||0000-0003-4574-8365, Raia, Pasquale|||0000-0002-4593-8006, Sardella, Raffaele|||0000-0002-9752-6281, DeMiguel, Daniel|||0000-0001-6138-7227
Format: article
Publication Date:2018
Country:España
Institution:Universitat Autònoma de Barcelona
Repository:Dipòsit Digital de Documents de la UAB
Language:English
OAI Identifier:oai:ddd.uab.cat:219885
Online Access:https://ddd.uab.cat/record/219885
https://dx.doi.org/urn:doi:10.1002/ece3.4222
Access Level:Open access
Keyword:Diet reconstruction
Open-source software
Paleoecology
R package
Tooth microwear
Description
Summary:Mastication of dietary items with different mechanical properties leaves distinctive microscopic marks on the surface of tooth enamel. The inspection of such marks (dental microwear analysis) is informative about the dietary habitus in fossil as well as in modern species. Dental microwear analysis relies on the morphology, abundance, direction, and distribution of these microscopic marks. We present a new freely available software implementation, MicroWeaR, that, compared to traditional dental microwear tools, allows more rapid, observer error free, and inexpensive quantification and classification of all the microscopic marks (also including for the first time different subtypes of scars). Classification parameters and graphical rendering of the output are fully settable by the user. MicroWeaR includes functions to (a) sample the marks, (b) classify features into categories as pits or scratches and then into their respective subcategories (large pits, coarse scratches, etc.), (c) generate an output table with summary information, and (d) obtain a visual surface-map where marks are highlighted. We provide a tutorial to reproduce the steps required to perform microwear analysis and to test tool functionalities. Then, we present two case studies to illustrate how MicroWeaR works. The first regards a Miocene great ape obtained from through environmental scanning electron microscope, and other a Pleistocene cervid acquired by a stereomicroscope.