Your search keyword '"Dental microwear texture analysis"' showing total 30 results

1. Dental microwear texture analysis reveals a likely dietary shift within Late Cretaceous ornithopod dinosaurs.

Author

Kubo, Tai, Kubo, Mugino O., Sakamoto, Manabu, Winkler, Daniela E., Shibata, Masateru, Zheng, Wenjie, Jin, Xingsheng, and You, Hai‐Lu

Subjects

*DINOSAURS, *TOOTH abrasion, *SILICA, *PHYTOLITHS, *ANGIOSPERMS

Abstract

Dinosaurs were the dominant megaherbivores during the Cretaceous when angiosperms, the flowering plants, emerged and diversified. How herbivorous dinosaurs responded to the increasing diversity of angiosperms is largely unknown due to the lack of methods that can reconstruct diet directly from body fossils. We applied dental microwear texture analysis (DMTA), an approach that quantifies microtopography of diet‐induced wear marks on tooth surfaces, to ornithopods, the dinosaur clade that includes taxa with the most sophisticated masticatory system. We found that Late Cretaceous ornithopods have significantly rougher dental microwear texture (DMT) compared to pre‐Late Cretaceous ornithopods, and DMT variation increased in hadrosaurids, a derived Late Cretaceous ornithopod clade. These changes indicate a likely temporal dietary shift towards more abrasive foodstuffs within ornithopods, probably due to the increased ingestion of phytoliths (amorphous silica bodies in plants). Phytoliths are a main source of rough DMT in modern herbivores, along with exogenous dust and grit, and were generally more concentrated in Late Cretaceous angiosperms than in other major plant groups. Our results show that DMTA of the occlusal enamel surface can be used to reconstruct the diets of herbivorous dinosaurs, with a resolution superior to conventional methods. [ABSTRACT FROM AUTHOR]

Published

2023

2. Diet assessment in tropical African populations : the implications of detecting biological signals in current diets to the study of past diets

Author

Correia, Maria Ana, Foley, Robert, and Mirazón Lahr, Marta

Subjects

613.2, stable isotope analysis, dental microwear texture analysis, tropical Africa, diet assessment, archaeological past, modern populations

Abstract

East Africa is central to many aspects of human evolution and diversification. At the same time, diet is a key aspect of the ecology of any population. Therefore, one is often interested in the diets of past populations. To assess human diet in the past, stable isotope ratio and dental microwear analyses are often perceived as the only semi-quantitative and objective techniques. However, there are still many unknowns on how isotopic and microwear signals change in response to dietary variation, because few controlled studies have been carried out in modern populations. To investigate this issue, this study targeted living humans from African ethnic groups (El Molo, Turkana, Luhya, and Luo, from Kenya, and Baka, from Cameroon) that practise a wide range of traditional subsistence strategies (pastoralism, fishing, and agriculture), with the objective of building a framework in which to consider past diet in an East African context. This study analysed human hair (n = 143), nail (n = 83), and breath (n = 186) for δ$^{13}$C and δ$^{15}$N from the six different communities, and dental moulds (n = 150) from five of those communities (no moulds were collected from the Baka), and related the findings to dietary information. Dental microwear analyses had a low success rate because microwear features were obscured by the biofilm produced by mouth bacteria. Nevertheless, a visual analysis of the results suggested that the El Molo have the hardest and the toughest diet among all the groups studied, possibly through the inclusion of abrasives in the diet during food processing. In turn, the isotopic analyses revealed the ways in which agriculturalists and hunter gatherers differ from pastoralists and fishers in their isotopic values, although the variation in δ$^{13}$C and δ$^{15}$N did not distinguish between pastoralists and fishers. The results emphasise recent changes in the diet of these groups, the importance of local factors in isotope values, and the variable sensitivity of isotopes to dietary practices. In conclusion, although each technique could provide complementary data that would contribute to a more inclusive view of diet, dental microwear analyses are not easily applied to modern human groups, due to the difficulty in acquiring comparative in vivo data, and in distinguishing between patterns caused by food items, or food processing techniques.

Published

2018

3. Dental microwear texture analysis correlations in guinea pigs (Cavia porcellus) and sheep (Ovis aries) suggest that dental microwear texture signal consistency is species-specific

Author

Louise Françoise Martin, Daniela Eileen Winkler, Nicole Lauren Ackermans, Jaqueline Müller, Thomas Tütken, Thomas Kaiser, Daryl Codron, Ellen Schulz-Kornas, Jean-Michel Hatt, and Marcus Clauss

Subjects

dental microwear texture analysis, rodent, ruminant, phytolith, quartz abrasive, feeding experiment, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Dental microwear texture (DMT) analysis is used to differentiate abrasive dental wear patterns in many species fed different diets. Because DMT parameters all describe the same surface, they are expected to correlate with each other distinctively. Here, we explore the data range of, and correlations between, DMT parameters to increase the understanding of how this group of proxies records wear within and across species. The analysis was based on subsets of previously published DMT analyses in guinea pigs, sheep, and rabbits fed either a natural whole plant diet (lucerne, grass, bamboo) or pelleted diets with or without added quartz abrasives (guinea pigs and rabbits: up to 45 days, sheep: 17 months). The normalized DMT parameter range (P4: 0.69 ± 0.25; M2: 0.83 ± 0.16) and correlation coefficients (P4: 0.50 ± 0.31; M2: 0.63 ± 0.31) increased along the tooth row in guinea pigs, suggesting that strong correlations may be partially explained by data range. A comparison between sheep and guinea pigs revealed a higher DMT data range in sheep (0.93 ± 0.16; guinea pigs: 0.47 ± 0.29), but this did not translate into more substantial correlation coefficients (sheep: 0.35 ± 0.28; guinea pigs: 0.55 ± 0.32). Adding rabbits to an interspecies comparison of low abrasive dental wear (pelleted lucerne diet), the softer enamel of the hypselodont species showed a smaller data range for DMT parameters (guinea pigs 0.49 ± 0.32, rabbit 0.19 ± 0.18, sheep 0.78 ± 0.22) but again slightly higher correlations coefficients compared to the hypsodont teeth (guinea pigs 0.55 ± 0.31, rabbits 0.56 ± 0.30, sheep 0.42 ± 0.27). The findings suggest that the softer enamel of fast-replaced ever-growing hypselodont cheek teeth shows a greater inherent wear trace consistency, whereas the harder enamel of permanent and non-replaced enamel of hypsodont ruminant teeth records less coherent wear patterns. Because consistent diets were used across taxa, this effect cannot be ascribed to the random overwriting of individual wear traces on the more durable hypsodont teeth. This matches literature reports on reduced DMT pattern consistency on harder materials; possibly, individual wear events become more random in nature on harder material. Given the species-specific differences in enamel characteristics, the findings suggest a certain species-specificity of DMT patterns.

Published

2022

4. Exploring durophagy among modern gray wolves from the Greater Yellowstone Ecosystem with dental microwear texture analysis.

Author

Burtt, Amanda A. and DeSantis, Larisa R. G.

Subjects

*WOLVES, *UNGULATES, *BODY size, *TEXTURES, *ECOSYSTEMS, *CLIMATE change

Abstract

Gray wolf (Canis lupus) dietary behavior can be highly variable; prey species for wolves span a range of ungulates to the consumption of smaller animals. While prey species for wolves are well documented, carcass utilization within and between wolf populations is less understood. This paper examines a modern population of wolves from the Greater Yellowstone Ecosystem (GYE) with dental microwear texture analysis (DMTA) to gauge utilization of bone resources, or durophagy, across biological, physical, social, geographical, and temporal variables. Results indicate gradation in durophagous behavior among GYE wolves does not correlate with sex, intra‐population body size (as inferred from skeletal and soft tissue measurements), pack association, or age class. Together, findings suggest that feeding ecologies for wolves are not specific to these factors. We also found that antemortem tooth breakage rates are not positively correlated with dental microwear textures that infer durophagy. We further compare dental microwear measures with previously published data from Alaskan wolves, who were collected decades before the GYE wolf sample. Results imply elevated carcass exploitation in the contemporary GYE wolf population sample. If minimal inter‐population differences are assumed, data presented here show dietary behaviors of North American gray wolves have changed over the past fifty years, indicating a possible long‐term trend that may be linked to decreased winter severity and climate change. [ABSTRACT FROM AUTHOR]

Published

2022

5. From leaves to seeds? The dietary shift in late Miocene colobine monkeys of southeastern Europe.

Author

Thiery, Ghislain, Gibert, Corentin, Guy, Franck, Lazzari, Vincent, Geraads, Denis, Spassov, Nikolai, and Merceron, Gildas

Subjects

*MIOCENE Epoch, *MONKEYS, *GRANIVORES, *MIXED forests, *TUBERS

Abstract

Extant colobine monkeys are specialized leaf eaters. But during the late Miocene, western Eurasia was home to colobines that were less efficient at chewing leaves than they were at breaking seed shells. To understand the link between folivory and granivory in this lineage, the dietary niche of Mesopithecus delsoni and Mesopithecus pentelicus was investigated in southeastern Europe, where a major environmental change occurred during the late Miocene. We combined dental topographic estimates of chewing efficiency with dental microwear texture analysis of enamel wear facets. Mesopithecus delsoni was more efficient at chewing leaves than M. pentelicus, the dental topography of which matches an opportunistic seed eater. Concurrently, microwear complexity increases in M. pentelicus, especially in the northernmost localities corresponding to present‐day Bulgaria. This is interpreted as a dietary shift toward hard foods such as seeds or tubers, which is consistent with the savanna and open mixed forest biomes that covered Bulgaria during the Tortonian. The fact that M. delsoni was better adapted to folivory and consumed a lower amount of hard foods than M. pentelicus suggests that colobines either adapted to folivory before their dispersal to Europe or evolved adaptations to leaf consumption in multiple occurrences. [ABSTRACT FROM AUTHOR]

Published

2021

6. An eye for a tooth: Thylacosmilus was not a marsupial "saber-tooth predator''.

Author

Janis, Christine M., Figueirido, Borja, DeSantis, Larisa, and Lautenschlager, Stephan

Subjects

FINITE element method, CANIDAE, MARSUPIALS, TEETH, PREDATORY animals, CHEETAH, EYE

Abstract

Background. Saber-toothed mammals, now all extinct, were cats or "cat-like'' forms with enlarged, blade-like upper canines, proposed as specialists in taking large prey. During the last 66 Ma, the saber-tooth ecomorph has evolved convergently at least in five different mammalian lineages across both marsupials and placentals. Indeed, Thylacosmilus atrox, the so-called "marsupial saber-tooth,'' is often considered as a classic example of convergence with placental saber-tooth cats such as Smilodon fatalis. However, despite its superficial similarity to saber-toothed placentals, T. atrox lacks many of the critical anatomical features related to their inferred predatory behavior· that of employing their enlarged canines in a killing head strike. Methods. Here we follow a multi-proxy approach using canonical correspondence analysis of discrete traits, biomechanical models of skull function using Finite Element Analysis, and 3D dental microwear texture analysis of upper and lower postcanine teeth, to investigate the degree of evolutionary convergence between T. atrox and placental saber-tooths, including S. fatalis. Results. Correspondence analysis shows that the craniodental features of T. atrox are divergent from those of placental saber-tooths. Biomechanical analyses indicate a superior ability of T. atrox to placental saber-tooths in pulling back with the canines, with the unique lateral ridge of the canines adding strength to this function. The dental microwear of T. atrox indicates a soft diet, resembling that of the meat-specializing cheetah, but its blunted gross dental wear is not indicative of shearing meat. Conclusions. Our results indicate that despite its impressive canines, the "marsupial saber-tooth'' was not the ecological analogue of placental saber-tooths, and likely did not use its canines to dispatch its prey. This oft-cited example of convergence requires reconsideration, and T. atrox may have had a unique type of ecology among mammals. [ABSTRACT FROM AUTHOR]

Published

2020

7. Dental microwear texture reflects dietary tendencies in extant Lepidosauria despite their limited use of oral food processing.

Author

Winkler, Daniela E., Schulz-Kornas, Ellen, Kaiser, Thomas M., and Tütken, Thomas

Subjects

*FOOD industry, *TETRAPODS, *MASTICATION, *CARNIVOROUS animals, *TOOTH abrasion

Abstract

Lepidosauria show a large diversity in dietary adaptations, both among extant and extinct tetrapods. Unlike mammals, Lepidosauria do not engage in sophisticated mastication of their food and most species have continuous tooth replacement, further reducing the wear of individual teeth. However, dietary tendency estimation of extinct lepidosaurs usually rely on tooth shape and body size, which allows only for broad distinction between faunivores and herbivores. Microscopic wear features on teeth have long been successfully applied to reconstruct the diet of mammals and allow for subtle discrimination of feeding strategies and food abrasiveness. Here, we present, to our knowledge, the first detailed analysis of dental microwear texture on extant lepidosaurs using a combination of 46 surface texture parameters to establish a framework for dietary tendency estimation of fossil reptilian taxa. We measured dental surface textures of 77 specimens, belonging to herbivorous, algaevorous, frugivorous, carnivorous, ovivorous, insectivorous, molluscivorous, as well as omnivorous species. Carnivores show low density and shallow depth of furrows, whereas frugivores are characterized by the highest density of furrows. Molluscivores show the deepest wear features and highest roughness, herbivores have lower surface roughness and shallower furrows compared to insectivores and omnivores, which overlap in all parameters. Our study shows that despite short food– tooth interaction, dental surface texture parameters enable discrimination of several feeding strategies in lepidosaurs. This result opens new research avenues to assess diet in a broad variety of extant and extinct non-mammalian taxa including dinosaurs and early synapsids. 1. [ABSTRACT FROM AUTHOR]

Published

2019

8. Feeding ecology of Eucladoceros ctenoides as a proxy to track regional environmental variations in Europe during the early Pleistocene.

Author

Berlioz, Émilie, Kostopoulos, Dimitris S., Blondel, Cécile, and Merceron, Gildas

Subjects

*PLEISTOCENE Epoch, *BIODIVERSITY, *PALEOBIOLOGY, *VEGETATION & climate, *CLIMATE change

Abstract

The early Pleistocene is represented by a succession of glacial–interglacial cycles characterized by a general tendency towards global cooling, with increasing aridity and seasonality. The large deer Eucladoceros is found in abundance in Europe during this period of faunal dispersions. The dietary plasticity of Eucladoceros and how it can mirror early Pleistocene climatic variations will be explored here using Dental Microwear Texture Analysis. The wide range of dental microwear textures for Eucladoceros reflects a low selectivity and high plasticity in its diet. It is an appropriate proxy to track vegetal resource availability. Oscillations were identified between a browsing and a grazing signal. This study proposes that a browsing signal is associated with a fossil assemblage deposited during an interglacial event characterized by warmer temperatures and deciduous vegetation. A grazing signal more likely indicates a glacial event with cooler temperatures and a developed herbaceous, bushy layer. [ABSTRACT FROM AUTHOR]

Published

2018

9. Feeding strategies of circum-Mediterranean hipparionins during the late Miocene: Exploring dietary preferences related to size through dental microwear analysis

Author

Orlandi Oliveras, Guillem, Köhler, Meike, Clavel, Julien, Scott, Robert S., Mayda, Serdar, Kaya, Tanju, Merceron, Gildas, Orlandi Oliveras, Guillem, Köhler, Meike, Clavel, Julien, Scott, Robert S., Mayda, Serdar, Kaya, Tanju, and Merceron, Gildas

Abstract

The adaptive radiation of hipparionins after their Old World dispersal was linked with a trend towards smaller body sizes. The appearance of the small-sized forms has usually been associated to open environments and grazing diets. A recent approach, moreover, highlights the role of life history modifications related to habitat conditions as triggers of their size shifts. Here, we test the relationship between hipparionin size and diet analyzing the dental microwear textures of different-sized hipparionins from Vallesian and Turolian circum-Mediterranean localities. Our results show that hipparionins were mainly mixed-feeders and that there was no general link between body size and diet. However, we identified broader feeding spectra in western Mediterranean smaller forms and more specialized grazing diets in larger ones, a differentiation not found in the eastern Mediterranean hipparionins. At odds with the notion of more open habitats eastward, we detected a larger browsing component in eastern hipparionin diets. The consumption by extant equids of more woody browse during the dry season leads us to propose a greater seasonality as a possible cause. Considering the arguable role of external abrasives on the microwear, another interpretation might involve the presence of more grit in the eastern opener habitats. Interestingly, we found that sympatric hipparionins tend to have similar feeding habits, which points to the fact that their diets were influenced by the local environment. Our results, then, suggest that the small size of some hipparionins resulted from different selective pressures rather than to a general adaptation to increasing habitat opening.

Published

2022

10. Using Dental Microwear to Understand the Dietary Behavior of Domestic Dogs in Precontact North America

Author

Burtt, Amanda, author and Desantis, Larisa R. G., author

Published

2020

11. Reconstructing the Diet of Kůlna 1 from the Moravian Karst (Czech Republic)

Author

Williams, Frank L’Engle, Schmidt, Christopher W., Droke, Jessica L., Neruda, Petr, Willman, John C., Becam, Gaël, and de Lumley, Marie-Antoinette

Published

2021

12. Feeding strategies of circum‑Mediterranean hipparionins during the late Miocene: Exploring dietary preferences related to size through dental microwear analysis

Author

Guillem Orlandi-Oliveras, Meike Köhler, Julien Clavel, Robert Scott, Serdar Mayda, Tanju Kaya, and Glidas Merceron

Subjects

Life-History, Competition, Evolution, Body-Size, Northern Greece, Fossil, Equidae, Body size, Oceanography, dental microwear texture analysis, Diet, Dental microwear texture analysis, Primigenium Hipparion, Texture Analysis, Paleoecology, diet, body size, Southern Africa, Hipparion

Abstract

The adaptive radiation of hipparionins after their Old World dispersal was linked with a trend towards smaller body sizes. The appearance of the small-sized forms has usually been associated to open environments and grazing diets. A recent approach, moreover, highlights the role of life history modifications related to habitat conditions as triggers of their size shifts. Here, we test the relationship between hipparionin size and diet analyzing the dental microwear textures of different-sized hipparionins from Vallesian and Turolian circum-Mediterranean localities. Our results show that hippari-onins were mainly mixed-feeders and that there was no general link between body size and diet. However, we identified broader feeding spectra in western Mediterranean smaller forms and more specialized grazing diets in larger ones, a differentiation not found in the eastern Mediterranean hipparionins. At odds with the notion of more open habitats eastward, we detected a larger browsing component in eastern hipparionin diets. The consumption by extant equids of more woody browse during the dry season leads us to propose a greater seasonality as a possible cause. Considering the argu-able role of external abrasives on the microwear, another interpretation might involve the presence of more grit in the eastern opener habitats. Interestingly, we found that sympatric hipparionins tend to have similar feeding habits, which points to the fact that their diets were influenced by the local environment. Our results, then, suggest that the small size of some hipparionins resulted from different selective pressures rather than to a general adaptation to increasing habitat opening., MCIN/AEI [PID2020-117118GBI00]; CERCA Program, Generalitat de Catalunya; Wenner-Gren International Collaborative Research Grant; Ege University [TTM/001/2015, TTM/001/2016]; AGAUR [2017 SGR 960]; FI-DGR 2016 grant - AGAUR (Generalitat de Catalunya) [2016FI_B00202]; Erasmus + fellowship; [SYN-THESIS ES-TAF-1846]; [CGL2015-63777], We would like to thank M. Fernandez and X. Aymerich for the molding of the material from the ICP (Institut Catala de Paleontologia Miquel Crusafont) . G.O-O. acknowledges the help received from F. Martin (PALEVOPRIM) during the obtainment of the DMT parameters and the posterior analyses. We further thank to D. Kostopoulos (Aristotle University of Thessaloniki) for his comments on the earlier versions of this manuscript. The editors (Y. Nakamura, A. Bush, and J.X. Samuels) and four reviewers including J. Saarinen are acknowledged for their helpful comments. Moreover, we would like to thank to the authorities of the following museum collections to give access to the related materials: Museo Nacional de Ciencias Naturales (MNCN), ICP museum, Laboratory of Geology and Palaeon-tology at the University of Thessaloniki, Palaeontological Museum Dimitar Kovachev at Asenovgrad, and the Ege University Natural History Museum. Funding for this study was provided by the Grant PID2020-117118GBI00 funded by MCIN/AEI/10.3039/501100011033 (M.K) , the project CGL2015-63777 (M.K) , and the CERCA Program, Generalitat de Catalunya. R.S.S., T.K., S.M., and G.M. were granted through a Wenner-Gren International Collaborative Research Grant (PIs: R.S. Scott and T. Kaya) to collect most of the Vallesian and Turolian equiddental molds from the eastern Mediterranean, and S.M. and T.K. were supported by the Ege University Research Projects TTM/001/2015 and TTM/001/2016. M.K. and G.O-O. were part of a research group recognized without funding by AGAUR (2017 SGR 960) and G.O-O. was supported by a FI-DGR 2016 grant (2016FI_B00202) awarded by AGAUR (Generalitat de Catalunya) and held an Erasmus + fellowship during his stay in the PALEVOPRIM laboratory (CNRS and University of Poitiers). The grant SYN-THESIS ES-TAF-1846 for the stay of J.C. at the MNCN of Madrid is also acknowledged.

Published

2022

13. Dietary ecology of fossil Theropithecus: Inferences from dental microwear textures of extant geladas from ecologically diverse sites.

Author

Shapiro, Amy E., Venkataraman, Vivek V., Nguyen, Nga, and Fashing, Peter J.

Subjects

*ANIMAL feeding behavior, *THEROPITHECUS, *ANIMAL ecology, *ECOLOGICAL impact, *BIOLOGICAL extinction, *FOSSIL animals

Abstract

As the only extant graminivorous primate, gelada monkeys ( Theropithecus gelada ) offer unique insights into how hominins and other extinct primates with strong C 4 isotopic signatures may have subsisted on graminoid-rich diets. Fossil Theropithecus species sharing a strong C 4 signal (i.e., Theropithecus brumpti , Theropithecus darti , and Theropithecus oswaldi ) have been reconstructed as predominantly graminivorous and potentially in ecological competition with contemporaneous hominins. However, inferring the breadth and variation of diet in these species (and therefore hominins) has proven problematic. Understanding how ecological variation within extant geladas impacts microwear and isotopic signatures may contribute to reconstructions of diet in fossil Theropithecus . Here, we build on a recent study at an ecologically intact tall grass ecosystem (Guassa, Ethiopia) that expanded the known diversity of gelada diets by demonstrating lower reliance on graminoids, greater consumption of forbs, and greater dietary species richness than previously described at disturbed sites. We used dental microwear texture analysis to explore how dietary variation among extant geladas may inform our understanding of the diets of fossil Theropithecus . First, we compared the dental microwear textures of geladas at Guassa to those of geladas from other sites. The microwear textures of geladas at Guassa exhibited more complexity, less anisotropy, and more variance in anisotropy and heterogeneity, reflecting the greater dietary diversity of Guassa geladas. Comparing microwear texture variables among this expanded gelada sample to those for T. brumpti , T. oswaldi , and T. darti yielded no significant differences. These results raise the intriguing possibility that data on how ecological variation and diet impact dental microwear and (possibly) isotopic signatures in extant geladas can be used to reconstruct the diets of extinct theropiths and, more broadly, hominins with strong C 4 isotopic signatures. We conclude that extant gelada populations offer a powerful analog for inferring dietary variation among predominantly graminivorous fossil primates. [ABSTRACT FROM AUTHOR]

Published

2016

14. Seeds, browse, and tooth wear: a sheep perspective.

Author

Ramdarshan, Anusha, Blondel, Cécile, Brunetière, Noël, Francisco, Arthur, Gautier, Denis, Surault, Jérôme, and Merceron, Gildas

Subjects

*SEEDS, *BROWSE (Animal food), *TOOTH abrasion, *SHEEP feeding, *GRAZING

Abstract

While grazing as a selective factor towards hypsodont dentition on mammals has gained a lot of attention, the importance of fruits and seeds as fallback resources for many browsing ungulates has caught much less attention. Controlled-food experiments, by reducing the dietary range, allow for a direct quantification of the effect of each type of items separately on enamel abrasion. We present the results of a dental microwear texture analysis on 40 ewes clustered into four different controlled diets: clover alone, and then three diets composed of clover together with either barley, corn, or chestnuts. Among the seed-eating groups, only the barley one shows higher complexity than the seed-free group. Canonical discriminant analysis is successful at correctly classifying the majority of clover- and seed-fed ewes. Although this study focuses on diets which all fall within a single dietary category (browse), the groups show variations in dental microwear textures in relation with the presence and the type of seeds. More than a matter of seed size and hardness, a high amount of kernels ingested per day is found to be correlated with high complexity on enamel molar facets. This highlights the high variability of the physical properties of the foods falling under the browsing umbrella. [ABSTRACT FROM AUTHOR]

Published

2016

15. Silicon-based plant defences, tooth wear and voles.

Author

Calandra, Ivan, Zub, Karol, Szafrańska, Paulina A., Zalewski, Andrzej, and Merceron, Gildas

Subjects

*PLANT defenses, *PLANT ecology, *VOLES, *MURIDAE, *PHYTOLITHS

Abstract

Plant-herbivore interactions are hypothesized to drive vole population cycles through the grazing-induced production of phytoliths in leaves. Phytoliths act as mechanical defences because they deter herbivory and lower growth rates in mammals. However, how phytoliths impair herbivore performance is still unknown. Here, we tested whether the amount of phytoliths changes tooth wear patterns. If confirmed, abrasion from phytoliths could play a role in population crashes. We applied dental microwear texture analysis (DMTA) to laboratory and wild voles. Lab voles were fed two pelleted diets with differing amounts of silicon, which produced similar dental textures. This was most probably due to the loss of food mechanical properties through pelletization and/or the small difference in silicon concentration between diets. Wild voles were trapped in Poland during spring and summer, and every year across a population cycle. In spring, voles feed on silica-rich monocotyledons, while in the summer they also include silicadepleted dicotyledons. This was reflected in the results; the amount of silica therefore leaves a traceable record in the dental microwear texture of voles. Furthermore, voles from different phases of population cycles have different microwear textures. We tentatively propose that these differences result from grazing-induced phytolith concentrations. We hypothesize that the high amount of phytoliths in response to intense grazing in peak years may result in malocclusion and other dental abnormalities, which would explain how these silicon-based plant defences help provoke population crashes. DMTA could then be used to reconstruct vole population dynamics using teeth from pellets or palaeontological material. [ABSTRACT FROM AUTHOR]

Published

2016

16. The Ice Age diet of the La Quina 5 Neandertal of southwest France

Author

Frank L'Engle Williams, Christopher W. Schmidt, Amanda G. Henry, Emmanuel Discamps, Jessica L. Droke, Gaël Becam, and Marie-Antoinette de Lumley

Subjects

History and Philosophy of Science, Plant Microremains, Marine Isotope Stage 4, Anthropology, Dental Microwear Texture Analysis, Dental Calculus, Paleoecology

Published

2022

17. The Ice Age diet of the La Quina 5 Neandertal of southwest France.

Author

L'Engle Williams, Frank, Schmidt, Christopher W., Henry, Amanda G., Discamps, Emmanuel, Droke, Jessica L., Becam, Gaël, and de Lumley, Marie-Antoinette

Subjects

*DENTAL calculus, *GLACIAL Epoch, *PALEO diet, *DIET, *FERTILIZERS, *STABLE isotopes

Abstract

The La Quina 5 Neandertal individual, dated to late Marine Isotope Stage (MIS) 4 or early MIS 3, lived during a particularly cold and arid Ice Age interval, hunting mostly reindeer in open steppe habitats. Stable isotopes indicate the importance of hunted resources for Neandertals, although evidence of plant use also has been discovered. To address the plant food signature in the diet of La Quina 5, we marshal multiple methods, including dental microwear texture analysis (DMTA) and plant microremains analysis. For the DMTA, La Quina 5 is compared to Neandertals from MIS 5 – MIS 3, including Malarnaud, Spy I, Kůlna 1, Švédův stůl 1, and several individuals from Hortus cave (n = 5), Krapina (n = 19) and Vindija (n = 4), as well as human foragers, farmers and pastoralists (n = 150). La Quina 5 presents a low value for anisotropy implying the use of heterogeneous masticatory regimes like those characterizing foragers of the Americas. La Quina 5 also has a low complexity value indicating a plant-poor diet, and may have relied significantly on hunted resources perhaps necessary in the cold glacial interval of lower temperatures during Heinrich Stadial 6. Nevertheless, plant microremains are preserved in the dental calculus, including starch grains from grass seeds and plant underground storage organs, demonstrating the importance of plant foods in Paleolithic diets even if temporally or spatially dispersed. [ABSTRACT FROM AUTHOR]

Published

2022

18. Non-occlusal dental microwear texture analysis of a titanosauriform sauropod dinosaur from the Upper Cretaceous (Turonian) Tamagawa Formation, northeastern Japan.

Author

Sakaki, Homare, Winkler, Daniela E., Kubo, Tai, Hirayama, Ren, Uno, Hikaru, Miyata, Shinya, Endo, Hideki, Sasaki, Kazuhisa, Takisawa, Toshio, and Kubo, Mugino O.

Abstract

Sauropod teeth from the Tamagawa Formation of Kuji Group, northeastern Japan, were described and diet of the Kuji sauropod was inferred by dental microwear texture analysis (DMTA). The morphology and slenderness index (SI) of Kuji sauropod teeth indicate they belong to a titanosauriform somphospondyli sauropod and thus confirm the existence of a titanosauriform sauropod at the coastal area of East Asia during the late Turonian. Dental microwear texture (DMT) of the Kuji sauropod is compared with extant lepidosaurs with known dietary preferences, indicating a higher degree of oral food processing in the Kuji sauropod than in extant lepidosaurs. The Kuji sauropod fed on materials less resistant and softer than molluscan shells or exoskeletons of insects and likely relied on plant materials. Considering what is known about the paleoflora of the Tamagawa Formation, the most likely diet was ferns and gymnosperms. These initial results encourage future applications of DMTA to various sauropods, which could help to reveal the evolution of their feeding ecology and whether the increase of SI is associated with dietary change. [Display omitted] • Somphospondyli sauropod teeth were found from the Tamagawa Formation, Japan. • Dental microwear texture analysis was applied first time for sauropod dinosaurs. • The Kuji sauropod ate materials softer than molluscan shells or insect exoskeletons. • The Kuji sauropod probably masticated more intensely than extant lepidosaurs. [ABSTRACT FROM AUTHOR]

Published

2022

19. An eye for a tooth: Thylacosmilus was not a marsupial 'saber-tooth predator'

Author

Christine M. Janis, Larisa R.G. DeSantis, Stephan Lautenschlager, and Borja Figueirido

Subjects

0106 biological sciences, 010506 paleontology, Vertebrate palaeontology, Evolution, Finite Element Analysis, lcsh:Medicine, Canonical correspondence analysis, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Predation, vertebrate palaeontology, stomatognathic system, Thylacosmilus, Convergent evolution, medicine, Vertebrate paleontology, Predator, 0105 earth and related environmental sciences, Marsupial, biology, General Neuroscience, lcsh:R, Finite element analysis, Paleontology, Fossil, Saber-tooth ecomorphology, General Medicine, biology.organism_classification, Evolutionary Studies, Skull, stomatognathic diseases, medicine.anatomical_structure, Computational modelling, Evolutionary biology, Palaeobiology, Dental microwear texture analysis, General Agricultural and Biological Sciences, Smilodon fatalis

Abstract

Background Saber-toothed mammals, now all extinct, were cats or “cat-like” forms with enlarged, blade-like upper canines, proposed as specialists in taking large prey. During the last 66 Ma, the saber-tooth ecomorph has evolved convergently at least in five different mammalian lineages across both marsupials and placentals. Indeed, Thylacosmilus atrox, the so-called “marsupial saber-tooth,” is often considered as a classic example of convergence with placental saber-tooth cats such as Smilodon fatalis. However, despite its superficial similarity to saber-toothed placentals, T. atrox lacks many of the critical anatomical features related to their inferred predatory behavior—that of employing their enlarged canines in a killing head strike. Methods Here we follow a multi-proxy approach using canonical correspondence analysis of discrete traits, biomechanical models of skull function using Finite Element Analysis, and 3D dental microwear texture analysis of upper and lower postcanine teeth, to investigate the degree of evolutionary convergence between T. atrox and placental saber-tooths, including S. fatalis. Results Correspondence analysis shows that the craniodental features of T. atrox are divergent from those of placental saber-tooths. Biomechanical analyses indicate a superior ability of T. atrox to placental saber-tooths in pulling back with the canines, with the unique lateral ridge of the canines adding strength to this function. The dental microwear of T. atrox indicates a soft diet, resembling that of the meat-specializing cheetah, but its blunted gross dental wear is not indicative of shearing meat. Conclusions Our results indicate that despite its impressive canines, the “marsupial saber-tooth” was not the ecological analogue of placental saber-tooths, and likely did not use its canines to dispatch its prey. This oft-cited example of convergence requires reconsideration, and T. atrox may have had a unique type of ecology among mammals.

Published

2020

20. Feeding ecology of Eucladoceros ctenoides as a proxy to track regional environmental variations in Europe during the early Pleistocene

Author

Gildas Merceron, Cécile Blondel, Emilie Berlioz, Dimitris S. Kostopoulos, and Universidad de Cantabria

Subjects

0106 biological sciences, 010506 paleontology, Early Pleistocene, Plasticité alimentaire, Ecological succession, Paleoenvironments, 010603 evolutionary biology, 01 natural sciences, Eucladoceros, Glacial period, 0105 earth and related environmental sciences, Villafranchian, Cervidae, biology, Ecology, Climatic oscillations, General Engineering, Paléoenvironnements, Oscillations climatiques, biology.organism_classification, Arid, Analyse de la texture de la micro-usure dentaire, Deciduous, Feeding plasticity, Dental microwear texture analysis, Interglacial, Villafranchien, Global cooling, Geology

Abstract

The early Pleistocene is represented by a succession of glacial-interglacial cycles character-ized by a general tendency towards global cooling, with increasing aridity and seasonality.The large deer Eucladoceros is found in abundance in Europe during this period of faunaldispersions. The dietary plasticity of Eucladoceros and how it can mirror early Pleistoceneclimatic variations will be explored here using Dental Microwear Texture Analysis. Thewide range of dental microwear textures for Eucladoceros reflects a low selectivity and highplasticity in its diet. It is an appropriate proxy to track vegetal resource availability. Oscil-lations were identified between a browsing and a grazing signal. This study proposes thata browsing signal is associated with a fossil assemblage deposited during an interglacialevent characterized by warmer temperatures and deciduous vegetation. A grazing signalmore likely indicates a glacial event with cooler temperatures and a developed herbaceous,bushy layer. Le Pléistocène inférieur correspond à une succession de cycles glaciaires-interglaciairescaractérisée par une tendance générale au refroidissement global, avec une aridité et unesaisonnalité croissantes. Le cervidé de grande taille Eucladoceros est abondant en Europedurant cette période de dispersions fauniques. Grâce à l'analyse de texture de la micro-usuredentaire, nous explorons la plasticité alimentaire d'Eucladoceros et la manière dont celle-ci reflète les variations climatiques du Pléistocène inférieur. La large gamme de texturesde micro-usure dentaire d'Eucladoceros reflète sa faible sélectivité et sa forte plasticité ali-mentaire. De fait, il constitue un outil approprié pour aborder la disponibilité en ressources végétales dans le milieu. Nous identifions des oscillations entre un signal brouteur et unsignal paisseur. Nous proposons qu'un signal brouteur soit associé à un assemblage fossiledéposé lors d'un évènement interglaciaire caractérisé par des températures plus chaudeset une végétation décidue, tandis qu'un signal paisseur correspondrait plutôt à un évène-ment glaciaire, avec des températures plus froides et la présence d?une strate herbacée etarbustive développée. This project was supported by the “Agence nationale dela recherche” (ANR TRIDENT: grant number: ANR-13-JSV7-0008-01; PI.: Gildas Merceron).

Published

2018

21. Why should traceology learn from dental microwear, and vice-versa?

Author

Ivan Calandra, Antonella Pedergnana, João Marreiros, and Walter Gneisinger

Subjects

010506 paleontology, Artifact (archaeology), Archeology, Teeth, 060102 archaeology, Paleontology, 06 humanities and the arts, 01 natural sciences, Data science, Field (computer science), Confocal microscopy, Dental microwear texture analysis, Quantitative surface texture analysis, 0601 history and archaeology, Psychology, Artifacts, 0105 earth and related environmental sciences

Abstract

Dental and artifact microwear analyses have a lot in common regarding the questions they address, their developmental history and their issues. However, few paleontologists and archeologists are aware of this, and even those who are, do not take into account most of the methodological insights from the other field. In this focus article, we briefly review the main developmental steps of both methods, highlight how similar their histories are and how combining methodological developments can improve both research fields. In both cases, the traditional analyses have been strongly criticized mainly because of their subjectivity and their lack of repeatability and reproducibility. Quantitative surface texture analyses have been proposed in response, resulting in dental microwear texture analysis (DMTA) and quantitative artifact microwear analysis (QAMA). DMTA is however a more mature method than QAMA and is well supported within the paleontological community. In this paper, focused on the methodological framework of both fields, we address this topic by arguing that traceologists could borrow a lot from DMTA; this would allow QAMA to become an established method much more quickly. Dental microwear analysts can also learn from traceology, especially regarding sample preparation, experimentation and residue analysis. We hope that this focus article will stimulate more awareness, exchange and collaboration between paleontologists and archeologists, and especially between dental and artifact microwear analysts. Paleontology, archeology and the field of surface analysis as a whole would all benefit from such cooperation. info:eu-repo/semantics/publishedVersion

Published

2019

22. Overcoming sampling issues in dental tribology: Insights from an experimentation on sheep

Author

Denis Gautier, Anusha Ramdarshan, Cécile Blondel, Jérôme Surault, Gildas Merceron, Institut International de Paléoprimatologie, Paléontologie Humaine : Evolution et Paléoenvironnement (IPHEP), Centre National de la Recherche Scientifique (CNRS)-Université de Poitiers, and Centre Interrégional d'Information et de Recherche en Production Ovine, Site Expérimental du Mourier

Subjects

sheep, 010506 paleontology, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, Management science, business.industry, Sampling (statistics), controlled-food-testing, representativity, Tribology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Biotechnology, stomatognathic diseases, Geography, stomatognathic system, Dental microwear texture analysis, mammals, diet, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, business, 0105 earth and related environmental sciences

Abstract

International audience; Dental microwear has been used in paleoecology for nearly half a century. The advent of technologies in the past decade has allowed for enamel surfaces to be scanned in 3D, and thus for microwear textures to be characterized as a whole. Although dental microwear texture analysis is widely used, few studies have tackled the issue of sample representativity, or the variability of the microwear signal along a facet or a tooth row. How much information can we accurately extract from a fossil sample when tooth wear is considered? Can we accurately make inferences on a whole species based on fossil samples primarily comprised of isolated teeth? These matters remain to be characterized in a controlled setting. In this study, we tackle this issue from the ground up. A large-scale controlled food trial conducted on domestic sheep provides the framework in which to test these fundamental questions. Our results highlight that analyzing a 200 × 200 µm surface allows for better differentiation between dietary categories, as opposed to analyzing smaller surfaces. Comparisons of facets from upper and lower molars reveal significant variations depending on the contribution to either the buccal or the lingual shearing phase I during the chewing cycle. Investigating the microwear signal along the tooth row does not reveal any significant variation between molars belonging to a same tooth row. However, when simulating three fossil samples composed of isolated upper or lower molars from M1 to M3 from the three sets of ewes, our study does highlight poor results in discriminating dietary categories.

Published

2017

23. Exploring the dietary plasticity of Eucladoceros ctenoides: what does its occurrence in the fossil record mean?

Author

Berlioz, Emilie, Kostopoulos, Dimitris, Blondel, Cécile, Merceron, Gildas, and Berlioz, Emilie

Subjects

feeding ecology, Cervidae, paleo-environmental reconstructions, Dental Microwear Texture Analysis, [SDU.STU.PG] Sciences of the Universe [physics]/Earth Sciences/Paleontology, early Pleistocene

Abstract

Cervidae are often used as paleoenvironmental proxies during the early Pleistocene as they are particularly abundant and diversified during this period of Homo dispersal in Europe. This family has been used for long in the framework of environmental reconstructions, and the presence of deer in a fossillocality is traditionally interpreted as witnessing a significant tree cover in the habitat. Among cervids, the large deer Eucladoceros ctenoides is present through the whole Europe during the Villafranchian (3.5-1.1/1.0My) and presents a body mass similar to that of extant European Cervus elaphus. We explore for the first time the dietary plasticity of this emblematic extinct deer, through the analysis of dental microwear textures of 145 Eucladoceros ctenoides from seven early Pleistocene European localities. Considering the large body mass of Eucladoceros we expected this taxon to present a significant dietary plasticity. Being the extant European deer with the higher dietary plasticity, we compared our results with two modern red deer populations. Red deer from the Polish primeval forest of Białowieża are engaged in browsing while their Spanish counterparts from Lugar Nuevo are much more engaged in grazing. The dental microwear texture results mirror the feeding preferences of the fossil deer: either dicot foliage,seeds or tough and abrasive monocots. The wide range of variation of its dental microwear signal illustrates the diversity of the food categories this taxon is able to consume and therefore its important dietary plasticity. These results are not surprising when compared with the plasticity in dietary habits of modern Red deer. However, there are at odds with traditional paleoenvironmental interpretations. In our study, we show that the occurrence of Eucladoceros ctenoides in itself as a proxy for paleoenvironmental reconstructions is flawed. The dental microwear textures of this deer, rather than its occurrence, constitutes an adequate paleo-habitat proxy.

Published

2017

24. Dental microwear as a behavioral proxy for distinguishing between canids at the Upper Paleolithic (Gravettian) site of Předmostí, Czech Republic.

Author

Prassack, Kari A., DuBois, Josephine, Lázničková-Galetová, Martina, Germonpré, Mietje, and Ungar, Peter S.

Subjects

*HUMAN settlements, *CANIDAE, *DENTAL calculus, *DOG shows, *PROXY, *WOLVES

Abstract

Morphological and genetic evidence put dog domestication during the Paleolithic, sometime between 40,000 and 15,000 years ago, with identification of the earliest dogs debated. We predict that these earliest dogs (referred to herein as protodogs), while potentially difficult to distinguish morphologically from wolves, experienced behavioral shifts, including changes in diet. Specifically, protodogs may have consumed more bone and other less desirable scraps within human settlement areas. Here we apply Dental Microwear Texture Analysis (DMTA) to canids from the Gravettian site of Předmostí (approx. 28,500 BP), which were previously assigned to the Paleolithic dog or Pleistocene wolf morphotypes. We test whether these groups separate out significantly by diet-related variation in microwear patterning. Results are consistent with differences in dietary breadth, with the Paleolithic dog morphotype showing evidence of greater durophagy than those assigned to the wolf morphotype. This supports the presence of two morphologically and behaviorally distinct canid types at this middle Upper Paleolithic site. Our primary goal here was to test whether these two morphotypes expressed notable differences in dietary behavior. However, in the context of a major Gravettian settlement, this may also support evidence of early stage dog domestication. Dental microwear is a behavioral signal that may appear generations before morphological changes are established in a population. It shows promise for distinguishing protodogs from wolves in the Pleistocene and domesticated dogs from wolves elsewhere in the archaeological record. • Dogs are the earliest known example of a human domesticated species. • Dog domestication dates to sometime in the middle or upper Paleolithic. • Předmostí (28,500 BP) canids were parsed into dogs and wolves based on morphology. • We predict that dog and wolf diet at Předmostí would have also differed. • Dental microwear suggests higher bone consumption by the dog morphotype. [ABSTRACT FROM AUTHOR]

Published

2020

25. Seeds, browse, and tooth wear: a sheep perspective

Author

Arthur Francisco, Denis Gautier, Anusha Ramdarshan, Cécile Blondel, Noël Brunetière, Jérôme Surault, and Gildas Merceron

Subjects

0106 biological sciences, Molar, Abrasion (dental), 010506 paleontology, Biology, 010603 evolutionary biology, 01 natural sciences, dental microwear texture analysis, Animal science, Controlled diets, Botany, Grazing, medicine, Controlled‐food trials, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Original Research, Ecology, Enamel paint, Dentition, food and beverages, enamel, medicine.disease, Tooth wear, ruminants, visual_art, Hypsodont, visual_art.visual_art_medium, diet

Abstract

While grazing as a selective factor towards hypsodont dentition on mammals has gained a lot of attention, the importance of fruits and seeds as fallback resources for many browsing ungulates has caught much less attention. Controlled‐food experiments, by reducing the dietary range, allow for a direct quantification of the effect of each type of items separately on enamel abrasion. We present the results of a dental microwear texture analysis on 40 ewes clustered into four different controlled diets: clover alone, and then three diets composed of clover together with either barley, corn, or chestnuts. Among the seed‐eating groups, only the barley one shows higher complexity than the seed‐free group. Canonical discriminant analysis is successful at correctly classifying the majority of clover‐ and seed‐fed ewes. Although this study focuses on diets which all fall within a single dietary category (browse), the groups show variations in dental microwear textures in relation with the presence and the type of seeds. More than a matter of seed size and hardness, a high amount of kernels ingested per day is found to be correlated with high complexity on enamel molar facets. This highlights the high variability of the physical properties of the foods falling under the browsing umbrella.

Published

2016

26. Textural analysis to track the history of large herbivores

Author

Hofman-Kamińska, Emilia, Merceron, Gildas, Ramdarshan, Anusha, Berlioz, Emilie, Kowalczyk, Rafał, and Berlioz, Emilie

Subjects

European bison, moose, red deer, [SDU.STU.PG] Sciences of the Universe [physics]/Earth Sciences/Paleontology, aurochs, feeding patterns, dental microwear texture analysis

Abstract

Geographic and habitat distributions of large mammals most frequently do not reflect optimal conditions, but rather reflect the effects of restoration programs. An example is the European bison (Bison bonasus). This endangered species, which were extinct in the wild at the beginning of 20 th century, was reintroduced in Central and Eastern Europe mostly in forests – habitats, which were lately identified as non-optimal (Kerley et al. 2012, Bocherens et al. 2015). Our study aims to explore the dietary habits of bison and other large herbivores in Europe before the spread of agriculture during the Holocene, which considerably modified the landscapes.Dental microwear texture analysis (DMTA, Scott et al. 2006) provides information on feeding habits and allows for tracking variation in the diet of herbivores in changing environmental conditions. Therefore, this is an appropriate tool to evaluate how human management has influenced the ecology of wild herbivores (Merceron et al. 2014). We explored here the feeding patterns of the European bison and three other large herbivores: moose (Alces alces), red deer (Cervus elaphus) and extinct aurochs (Bos primigenius) originated from Neolithic Swiss settlements (6,000 - 5,000 years old), in the time before farming exerted significantly on the landscapes. Selected Swiss material was the oldest Holocene collection of preserved teeth with sufficient number of specimens from species with different feeding strategies. As a reference we used well studied modernspecies of ungulates from Białowieża Forest (Poland) characterized by known foraging patterns (Merceron et al. 2014). Forty-eight individuals of Mid-Holocene herbivores representing four different species: bison (N = 21), moose (N = 2), red deer (N = 11) and aurochs (N = 14) andthirty-six specimens of modern red deer (N = 15), bison (N = 15) and moose (N = 6) composed the data set for DMTA. The molds of shearing dental facets were made with a polyvinylsiloxane material (Regular Body Microsystem, Coltene President) and scanned using a confocal DCM8 Leica Microsystems surface profilometer equipped with a ×100 lens (NA = 0.90; working distance = 0.9 mm). Data were analysed with Toothfrax and SFrax software following procedures and settings provided by Scott et al. (2006). We analysed three textural parameters: complexity (Asfc), anisotropy (epLsar) and heterogeneity (of complexity; Hasfc81). Results showed significant differences in both Asfc and Hasfc81 betweenprehistoric European bison and aurochs. The diet of bison in the past has comprised of more grasses than the diet of aurochs. Additionally, the diet of bison was the least variable among the studied ungulates (low values of Hasfc81). Diet of red deer likely includes more woody material (Fig. 1). Comparison of parameters for prehistoric and modern ungulates showed that diet of red deer and moose did not change over time, while the diet of modern bison from Białowieża differed significantly from the diet of prehistoric bison. Modern bison are more engaged in browsing and their diet is more variable than during the Neolithic. This confirms suboptimal or marginal character of forest for this species today (Kerley et al. 2012, Bocherens et al. 2015). DMTA proved to be a method which allows obtaining knowledge about the prehistoric diet of herbivore species. To track the past ecology of modern species before the spread of agriculture and deforestation in Europe, independent proxies such as DMTA should be generalised to guide programs of reintroduction of endangered species such as the European bison in Europe.

Published

2016

27. An eye for a tooth: Thylacosmilus was not a marsupial "saber-tooth predator".

Author

M Janis C, Figueirido B, DeSantis L, and Lautenschlager S

Abstract

Background: Saber-toothed mammals, now all extinct, were cats or "cat-like" forms with enlarged, blade-like upper canines, proposed as specialists in taking large prey. During the last 66 Ma, the saber-tooth ecomorph has evolved convergently at least in five different mammalian lineages across both marsupials and placentals. Indeed, Thylacosmilus atrox , the so-called "marsupial saber-tooth," is often considered as a classic example of convergence with placental saber-tooth cats such as Smilodon fatalis . However, despite its superficial similarity to saber-toothed placentals, T. atrox lacks many of the critical anatomical features related to their inferred predatory behavior-that of employing their enlarged canines in a killing head strike., Methods: Here we follow a multi-proxy approach using canonical correspondence analysis of discrete traits, biomechanical models of skull function using Finite Element Analysis, and 3D dental microwear texture analysis of upper and lower postcanine teeth, to investigate the degree of evolutionary convergence between T. atrox and placental saber-tooths, including S. fatalis ., Results: Correspondence analysis shows that the craniodental features of T. atrox are divergent from those of placental saber-tooths. Biomechanical analyses indicate a superior ability of T. atrox to placental saber-tooths in pulling back with the canines, with the unique lateral ridge of the canines adding strength to this function. The dental microwear of T. atrox indicates a soft diet, resembling that of the meat-specializing cheetah, but its blunted gross dental wear is not indicative of shearing meat., Conclusions: Our results indicate that despite its impressive canines, the "marsupial saber-tooth" was not the ecological analogue of placental saber-tooths, and likely did not use its canines to dispatch its prey. This oft-cited example of convergence requires reconsideration, and T. atrox may have had a unique type of ecology among mammals., Competing Interests: The authors declare there are no competing interests., (©2020 Janis et al.)

Published

2020

28. Why should traceology learn from dental microwear, and vice-versa?

Author

Calandra, Ivan, Pedergnana, Antonella, Gneisinger, Walter, and Marreiros, Joao

Subjects

*ANTIQUITIES, *ARCHAEOLOGISTS, *PALEONTOLOGISTS, *CONFOCAL microscopy, *SURFACE texture

Abstract

Dental and artifact microwear analyses have a lot in common regarding the questions they address, their developmental history and their issues. However, few paleontologists and archeologists are aware of this, and even those who are, do not take into account most of the methodological insights from the other field. In this focus article, we briefly review the main developmental steps of both methods, highlight how similar their histories are and how combining methodological developments can improve both research fields. In both cases, the traditional analyses have been strongly criticized mainly because of their subjectivity and their lack of repeatability and reproducibility. Quantitative surface texture analyses have been proposed in response, resulting in dental microwear texture analysis (DMTA) and quantitative artifact microwear analysis (QAMA). DMTA is however a more mature method than QAMA and is well supported within the paleontological community. In this paper, focused on the methodological framework of both fields, we address this topic by arguing that traceologists could borrow a lot from DMTA; this would allow QAMA to become an established method much more quickly. Dental microwear analysts can also learn from traceology, especially regarding sample preparation, experimentation and residue analysis. We hope that this focus article will stimulate more awareness, exchange and collaboration between paleontologists and archeologists, and especially between dental and artifact microwear analysts. Paleontology, archeology and the field of surface analysis as a whole would all benefit from such cooperation. • Dental and artifact microwear analyses apply quantitative surface texture analysis. • There is limited exchange between paleontology and archeology about these methods. • We briefly review the main developmental steps of both methods. • Combining methodological developments can improve both research fields. • We hope to stimulate collaborations between dental and artifact microwear analysts. [ABSTRACT FROM AUTHOR]

Published

2019

29. Untangling the environmental from the dietary: dust does not matter.

Author

Merceron G, Ramdarshan A, Blondel C, Boisserie JR, Brunetiere N, Francisco A, Gautier D, Milhet X, Novello A, and Pret D

Subjects

Animals, Female, Food, Molar, Sheep, Swine, Diet veterinary, Dust, Tooth Wear

Abstract

Both dust and silica phytoliths have been shown to contribute to reducing tooth volume during chewing. However, the way and the extent to which they individually contribute to tooth wear in natural conditions is unknown. There is still debate as to whether dental microwear represents a dietary or an environmental signal, with far-reaching implications on evolutionary mechanisms that promote dental phenotypes, such as molar hypsodonty in ruminants, molar lengthening in suids or enamel thickening in human ancestors. By combining controlled-food trials simulating natural conditions and dental microwear textural analysis on sheep, we show that the presence of dust on food items does not overwhelm the dietary signal. Our dataset explores variations in dental microwear textures between ewes fed on dust-free and dust-laden grass or browse fodders. Browsing diets with a dust supplement simulating Harmattan windswept environments contain more silica than dust-free grazing diets. Yet browsers given a dust supplement differ from dust-free grazers. Regardless of the presence or the absence of dust, sheep with different diets yield significantly different dental microwear textures. Dust appears a less significant determinant of dental microwear signatures than the intrinsic properties of ingested foods, implying that diet plays a critical role in driving the natural selection of dental innovations., (© 2016 The Author(s).)

Published

2016

30. A comparison of archaic and Mississippian subsistence strategies utilizing dental microwear texture analysis

Author

Henson, Tracie L.

Subjects

Forensic science, Bioforensics, Subsistence strategies, Dental microwear texture analysis

Abstract

Throughout the past, bioarchaeologists have been concerned with identifying subsistence strategies of past populations and when subsistence strategies have transitioned from foraging to agriculture practices. Specifically, one area of major concentration has been examining the transition from foraging to agriculture in the southeast of the present day United States. The present study examines the transition of subsistence practices in prehistoric Tennessee utilizing dental microwear texture analysis. This study examined a total of 49 individuals from Archaic and Mississippian sites. These were compared temporally by comparing Archaic microwear signatures to Mississippian microwear signatures, and geographically, through the comparison of each site in relation to its geographic location. Non-parametric Mann-Whitney U tests were utilized to determine if statistical significant differences existed between the Archaic and Mississippian groups analyzed, and to determine if statistical significant differences existed based on geographic location. Due to the small sample size utilized in the study, it must be stated that the results are preliminary and further testing using dental microwear texture analysis needs to be undertaken in order to better understand the results.

Published

2013