Your search keyword '"Lloyd A. Courtenay"' showing total 68 results

1. Using computational learning for non-melanoma skin cancer and actinic keratosis near-infrared hyperspectral signature classification

Author

Lloyd A. Courtenay, Inés Barbero-García, Saray Martínez-Lastras, Susana Del Pozo, Miriam Corral, and Diego González-Aguilera

Subjects

Squamous cell carcinoma, Basal cell carcinoma, Actinic keratosis, Hyperspectral sensor, Convolutional neural networks, Support vector machines, Medicine (General), R5-920

Abstract

Background: The early detection of Non-Melanoma Skin Cancer (NMSC) is essential to ensure patients receive the most effective treatment. Diagnostic screening tools for NMSC are crucial due to high confusion rates with other types of skin lesions, such as Actinic Keratosis. Nevertheless, current means of diagnosing and screening patients rely on either visual criteria, that are often conditioned by subjectivity and experience, or highly invasive, slow, and costly methods, such as histological diagnoses. From this, the objectives of the present study are to test if classification accuracies improve in the Near-Infrared region of the electromagnetic spectrum, as opposed to previous research in shorter wavelengths. Methods: This study utilizes near-infrared hyperspectral imaging, within the range of 900.6 and 1454.8 nm. Images were captured for a total of 125 patients, including 66 patients with Basal Cell Carcinoma, 42 with cutaneous Squamous Cell Carcinoma, and 17 with Actinic Keratosis, to differentiate between healthy and unhealthy skin lesions. A combination of hybrid convolutional neural networks (for feature extraction) and support vector machine algorithms (as a final activation layer) was employed for analysis. In addition, we test whether transfer learning is feasible from networks trained on shorter wavelengths of the electromagnetic spectrum. Results: The implemented method achieved a general accuracy of over 80 %, with some tasks reaching over 90 %. F1 scores were also found to generally be over the optimal threshold of 0.8. The best results were obtained when detecting Actinic Keratosis, however differentiation between the two types of malignant lesions was often noted to be more difficult. These results demonstrate the potential of near-infrared hyperspectral imaging combined with advanced machine learning techniques in distinguishing NMSC from other skin lesions. Transfer learning was unsuccessful in improving the training of these algorithms. Conclusions: We have shown that the Near-Infrared region of the electromagnetic spectrum is highly useful for the identification and study of non-melanoma type skin lesions. While the results are promising, further research is required to develop more robust algorithms that can minimize the impact of noise in these datasets before clinical application is feasible.

Published

2024

2. Computer vision supports primary access to meat by early Homo 1.84 million years ago

Author

Lucía Cobo-Sánchez, Marcos Pizarro-Monzo, Gabriel Cifuentes-Alcobendas, Blanca Jiménez García, Natalia Abellán Beltrán, Lloyd A. Courtenay, Audax Mabulla, Enrique Baquedano, and Manuel Domínguez-Rodrigo

Subjects

Computer vision, Taphonomy, Tooth marks, Paleoanthropology, Meat-eating, Human evolution, Medicine, Biology (General), QH301-705.5

Abstract

Human carnivory is atypical among primates. Unlike chimpanzees and bonobos, who are known to hunt smaller monkeys and eat them immediately, human foragers often cooperate to kill large animals and transport them to a safe location to be shared. While it is known that meat became an important part of the hominin diet around 2.6–2 Mya, whether intense cooperation and food sharing developed in conjunction with the regular intake of meat remains unresolved. A widespread assumption is that early hominins acquired animal protein through klepto-parasitism at felid kills. This should be testable by detecting felid-specific bone modifications and tooth marks on carcasses consumed by hominins. Here, deep learning (DL) computer vision was used to identify agency through the analysis of tooth pits and scores on bones recovered from the Early Pleistocene site of DS (Bed I, Olduvai Gorge). We present the first objective evidence of primary access to meat by hominins 1.8 Mya by showing that the most common securely detectable bone-modifying fissipeds at the site were hyenas. The absence of felid modifications in most of the carcasses analyzed indicates that hominins were the primary consumers of most animals accumulated at the site, with hyenas intervening at the post-depositional stage. This underscores the role of hominins as a prominent part of the early Pleistocene African carnivore guild. It also stresses the major (and potentially regular) role that meat played in the diet that configured the emergence of early Homo.

Published

2022

3. Taphonomic and spatial analyses from the Early Pleistocene site of Venta Micena 4 (Orce, Guadix-Baza Basin, southern Spain)

Author

Carmen Luzón, Jose Yravedra, Lloyd A. Courtenay, Juha Saarinen, Hugues-Alexandre Blain, Daniel DeMiguel, Suvi Viranta, Beatriz Azanza, Juan José Rodríguez-Alba, Darío Herranz-Rodrigo, Alexia Serrano-Ramos, Jose A. Solano, Oriol Oms, Jordi Agustí, Mikael Fortelius, and Juan Manuel Jiménez-Arenas

Subjects

Medicine, Science

Abstract

Abstract Venta Micena is an area containing several palaeontological sites marking the beginning of the Calabrian stage (Early Pleistocene). The richness of the fossil accumulation including species of Asian, African and European origin, makes Venta Micena a key site for the the palaeoecological and palaeoenvironmental study of southern Europe during the Early Pleistocene. Thus, research has been focused on Venta Micena 3, which was originally interpreted as a single palaeosurface associated with a marshy context, in which most of the fauna was accumulated by Pachycrocuta brevirostris. Recent excavations have unearthed a new site, Venta Micena 4, located in the same stratigraphic unit (Unit C) and in close proximity to Venta Micena 3. Here we show the first analyses regarding the taphonomic and spatial nature of this new site, defining two stratigraphic boundaries corresponding to two different depositional events. Furthermore, the taphonomic analyses of fossil remains seem to indicate a different accumulative agent than Pachycrocuta, thus adding more complexity to the palaeobiological interpretation of the Venta Micena area. These results contribute to the discussion of traditional interpretations made from Venta Micena 3.

Published

2021

4. Developments in data science solutions for carnivore tooth pit classification

Author

Lloyd A. Courtenay, Darío Herranz-Rodrigo, Diego González-Aguilera, and José Yravedra

Subjects

Medicine, Science

Abstract

Abstract Competition for resources is a key question in the study of our early human evolution. From the first hominin groups, carnivores have played a fundamental role in the ecosystem. From this perspective, understanding the trophic pressure between hominins and carnivores can provide valuable insights into the context in which humans survived, interacted with their surroundings, and consequently evolved. While numerous techniques already exist for the detection of carnivore activity in archaeological and palaeontological sites, many of these techniques present important limitations. The present study builds on a number of advanced data science techniques to confront these issues, defining methods for the identification of the precise agents involved in carcass consumption and manipulation. For the purpose of this study, a large sample of 620 carnivore tooth pits is presented, including samples from bears, hyenas, jaguars, leopards, lions, wolves, foxes and African wild dogs. Using 3D modelling, geometric morphometrics, robust data modelling, and artificial intelligence algorithms, the present study obtains between 88 and 98% accuracy, with balanced overall evaluation metrics across all datasets. From this perspective, and when combined with other sources of taphonomic evidence, these results show that advanced data science techniques can be considered a valuable addition to the taphonomist’s toolkit for the identification of precise carnivore agents via tooth pit morphology.

Published

2021

5. A 3D taphonomic model of long bone modification by lions in medium-sized ungulate carcasses

Author

Manuel Domínguez-Rodrigo, Agness Gidna, Enrique Baquedano, Lucía Cobo-Sánchez, Rocio Mora, Lloyd A. Courtenay, Diego Gonzalez-Aguilera, Miguel A. Mate-Gonzalez, and Diego Prieto-Herráez

Subjects

Medicine, Science

Abstract

Abstract Here, we present the first three-dimensional taphonomic analysis of a carnivore-modified assemblage at the anatomical scale of the appendicular skeleton. A sample of ten carcasses composed of two taxa (zebra and wildebeest) consumed by wild lions in the Tarangire National Park (Tanzania) has been used to determine element-specific lion damage patterns. This study presents a novel software for the 3D spatial documentation of bone surface modifications at the anatomical level. Combined with spatial statistics, the present analysis has been able to conclude that despite variable degrees of competition during carcass consumption, lions generate bilateral patterning consisting of substantial damage of proximal ends of stylopodials and zeugopodials, moderate damage of the distal ends of femora and marginal damage of distal ends of humeri and zeugopodials. Of special interest is, specifically, the patterning of tooth marks on shafts according to element, since these are crucial to determine not only the type of carnivore involved in any given bone assemblage, but also the interaction with other agents (namely, hominins, in the past). Lions leave few tooth marks on mid-shaft sections, mostly concentrated on certain sections and orientations of stylopodials and, to a lesser extent, of the proximal tibia. Redundant occurrence of tooth marks on certain bone sections renders them as crucial to attest lion agency in carcass initial consumption. Indirectly, this can also be used to determine whether hominins ever acquired carcasses at lion kills.

Published

2021

6. An Evaluation of Landmark-Based Methods to Explore Tooth Score Morphology: A Case Study on Felids and Hyenids

Author

Mari Carmen Arriaza, Julia Aramendi, Lloyd A. Courtenay, Miguel Ángel Maté-González, Darío Herranz-Rodrigo, Diego González-Aguilera, and José Yravedra

Subjects

geometric morphometrics, tooth scores, taphonomy, semilandmarks, carnivores, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Taphonomic studies aim to identify the modifying agents that intervene in bone assemblages found at archaeopaleontological sites. Carnivores may modify, accumulate, or scavenge skeletal parts inflicting tooth marks, including scores, on the cortical surface. Several works have studied tooth score morphology to discern which carnivore group modified the bone assemblages, achieving different results. In the present study, different methods based on the use of landmarks and semilandmarks have been tested to describe and analyze the score profile cross-sections of spotted and brown hyenas, leopards, and lions. According to our results, the already published seven-landmark method is useful in order to differentiate between carnivore species from different families (e.g., felids and hyenids). Meanwhile, felid species (e.g., leopards and lions) cannot be consistently distinguished using any of the methods tested here. In contrast, hyenid species can be morphologically differentiated. On the other hand, the use of semilandmarks does not generally improve morphological characterization and distinction, but low numbers of landmarks and the inclusion of the score’s deepest point might provide the best results when semi-automatic semilandmark models are preferred to avoid sampling biases.

Published

2023

7. Ikhnos: A Novel Software to Register and Analyze Bone Surface Modifications Based on Three-Dimensional Documentation

Author

Rocío Mora, Julia Aramendi, Lloyd A. Courtenay, Diego González-Aguilera, José Yravedra, Miguel Ángel Maté-González, Diego Prieto-Herráez, José Mª Vázquez-Rodríguez, and Isabel Barja

Subjects

taphonomy, bone surface modifications, breakage patterns, 3D registration and analysis, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The study of bone surface modifications (BSM) is crucial in understanding site formation processes and the identification of the causal agent behind bone assemblages in the fossil record. In that line, many efforts have been made to generate referential models based on feeding experiments and human butchery simulations that can then be used to interpret the patterns observed in archaeological and paleontological sites. Considering these needs, we developed a novel open-access three-dimensional (3D) software called Ikhnos for the study of BSM distribution patterns on limb long bones. This software is comprised of all the necessary tools for the 3D documentation of BSM and bone breakage patterns, as well as the subsequent statistical analysis of this data due to the integration of an exclusive R library, the IkhnosToolBox. Additionally, Ikhnos integrates tools for bone survivorship calculations that could facilitate the estimation of the minimum number of elements (MNE) and minimum number of individuals (MNI). As a demonstration of its precision, here we present a case study analyzing the modifications produced by wild and captive wolf (Canis lupus signatus) populations of the Iberian Peninsula on deer carcasses.

Published

2022

8. Application of artificially intelligent systems for the identification of discrete fossiliferous levels

Author

David M. Martín-Perea, Lloyd A. Courtenay, M. Soledad Domingo, and Jorge Morales

Subjects

Machine Learning, Archaeological site, Palaeontological site, Spatial data, Archaeostratigraphy, Palaeostratigraphy, Medicine, Biology (General), QH301-705.5

Abstract

The separation of discrete fossiliferous levels within an archaeological or paleontological site with no clear stratigraphic horizons has historically been carried out using qualitative approaches, relying on two-dimensional transversal and longitudinal projection planes. Analyses of this type, however, can often be conditioned by subjectivity based on the perspective of the analyst. This study presents a novel use of Machine Learning algorithms for pattern recognition techniques in the automated separation and identification of fossiliferous levels. This approach can be divided into three main steps including: (1) unsupervised Machine Learning for density based clustering (2) expert-in-the-loop Collaborative Intelligence Learning for the integration of geological data followed by (3) supervised learning for the final fine-tuning of fossiliferous level models. For evaluation of these techniques, this method was tested in two Late Miocene sites of the Batallones Butte paleontological complex (Madrid, Spain). Here we show Machine Learning analyses to be a valuable tool for the processing of spatial data in an efficient and quantitative manner, successfully identifying the presence of discrete fossiliferous levels in both Batallones-3 and Batallones-10. Three discrete fossiliferous levels have been identified in Batallones-3, whereas another three have been differentiated in Batallones-10.

Published

2020

9. 3D Insights into the Effects of Captivity on Wolf Mastication and Their Tooth Marks; Implications in Ecological Studies of Both the Past and Present

Author

Lloyd A. Courtenay, Darío Herranz-Rodrigo, José Yravedra, José Mª Vázquez-Rodríguez, Rosa Huguet, Isabel Barja, Miguel Ángel Maté-González, Maximiliano Fernández Fernández, Ángel-Luis Muñoz-Nieto, and Diego González-Aguilera

Subjects

wild wolves, captive wolves, tooth marks, geometric morphometrics, 3D modeling, advanced statistics, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Human populations have been known to develop complex relationships with large carnivore species throughout time, with evidence of both competition and collaboration to obtain resources throughout the Pleistocene. From this perspective, many archaeological and palaeontological sites present evidence of carnivore modifications to bone. In response to this, specialists in the study of microscopic bone surface modifications have resorted to the use of 3D modeling and data science techniques for the inspection of these elements, reaching novel limits for the discerning of carnivore agencies. The present research analyzes the tooth mark variability produced by multiple Iberian wolf individuals, with the aim of studying how captivity may affect the nature of tooth marks left on bone. In addition to this, four different populations of both wild and captive Iberian wolves are also compared for a more in-depth comparison of intra-species variability. This research statistically shows that large canid tooth pits are the least affected by captivity, while tooth scores appear more superficial when produced by captive wolves. The superficial nature of captive wolf tooth scores is additionally seen to correlate with other metric features, thus influencing overall mark morphologies. In light of this, the present study opens a new dialogue on the reasons behind this, advising caution when using tooth scores for carnivore identification and contemplating how elements such as stress may be affecting the wolves under study.

Published

2021

10. New Geometric Morphometric Insights in Digital Taphonomy: Analyses into the Sexual Dimorphism of Felids through Their Tooth Pits

Author

Darío Herranz-Rodrigo, Silvia J. Tardáguila-Giacomozzi, Lloyd A. Courtenay, Juan-José Rodríguez-Alba, Antonio Garrucho, Jesús Recuero, and José Yravedra

Subjects

neotaphonomy, sexual dimorphism, actualistic studies, geometric morphometrics, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Recent studies using geometric morphometrics for taphonomy have yielded interesting results, opening new horizons of research in both archaeological and paleontological sites. Here we present the analysis of tooth pits left by male and female individuals of two different carnivore species (Panthera tigris and Panthera pardus) in order to see if sexual dimorphism influences the morphology of tooth pit marks. In the process, 3D-scanning and applied statistics were used. Based on samples derived from two individuals of different sexes, the present results indicate sexual dimorphism in these felid species to not be a conditioning factor of tooth pit morphology.

Published

2021

11. Towards a Combined Use of Geophysics and Remote Sensing Techniques for the Characterization of a Singular Building: 'El Torreón' (the Tower) at Ulaca Oppidum (Solosancho, Ávila, Spain)

Author

Miguel Ángel Maté-González, Cristina Sáez Blázquez, Pedro Carrasco García, Jesús Rodríguez-Hernández, Jesús Fernández Hernández, Javier Vallés Iriso, Yolanda Torres, Libertad Troitiño Torralba, Lloyd A. Courtenay, Diego González-Aguilera, Serafín López-Cuervo, Julián Aguirre de Mata, Jesús Velasco Gómez, Marco Piras, Andrea di Filippo, José Yravedra, Maximiliano Fernández Fernández, Teresa Chapa, Gonzalo Ruiz Zapatero, and Jesús R. Álvarez-Sanchís

Subjects

oppidum, vettones, remote sensing techniques, geophysical approaches, Chemical technology, TP1-1185

Abstract

This research focuses on the study of the ruins of a large building known as “El Torreón” (the Tower), belonging to the Ulaca oppidum (Solosancho, Province of Ávila, Spain). Different remote sensing and geophysical approaches have been used to fulfil this objective, providing a better understanding of the building’s functionality in this town, which belongs to the Late Iron Age (ca. 300–50 BCE). In this sense, the outer limits of the ruins have been identified using photogrammetry and convergent drone flights. An additional drone flight was conducted in the surrounding area to find additional data that could be used for more global interpretations. Magnetometry was used to analyze the underground bedrock structure and ground penetrating radar (GPR) was employed to evaluate the internal layout of the ruins. The combination of these digital methodologies (surface and underground) has provided a new perspective for the improved interpretation of “El Torreón” and its characteristics. Research of this type presents additional guidelines for better understanding of the role of this structure with regards to other buildings in the Ulaca oppidum. The results of these studies will additionally allow archaeologists to better plan future interventions while presenting new data that can be used for the interpretation of this archaeological complex on a larger scale.

Published

2021

12. Geometric Morphometric Data Augmentation Using Generative Computational Learning Algorithms

Author

Lloyd A. Courtenay and Diego González-Aguilera

Subjects

archaeological data science, artificial intelligence, unsupervised learning, generative adversarial networks, robust statistics, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The fossil record is notorious for being incomplete and distorted, frequently conditioning the type of knowledge that can be extracted from it. In many cases, this often leads to issues when performing complex statistical analyses, such as classification tasks, predictive modelling, and variance analyses, such as those used in Geometric Morphometrics. Here different Generative Adversarial Network architectures are experimented with, testing the effects of sample size and domain dimensionality on model performance. For model evaluation, robust statistical methods were used. Each of the algorithms were observed to produce realistic data. Generative Adversarial Networks using different loss functions produced multidimensional synthetic data significantly equivalent to the original training data. Conditional Generative Adversarial Networks were not as successful. The methods proposed are likely to reduce the impact of sample size and bias on a number of statistical learning applications. While Generative Adversarial Networks are not the solution to all sample-size related issues, combined with other pre-processing steps these limitations may be overcome. This presents a valuable means of augmenting geometric morphometric datasets for greater predictive visualization.

Published

2020

13. Testing accuracy in 2D and 3D geometric morphometric methods for cut mark identification and classification

Author

Lloyd A. Courtenay, Miguel Ángel Maté-González, Julia Aramendi, José Yravedra, Diego González-Aguilera, and Manuel Domínguez-Rodrigo

Subjects

Taphonomy, Experimental archaeology, Cut marks, Geometric morphometrics, Microscopy, Medicine, Biology (General), QH301-705.5

Abstract

The analysis of bone surface modifications (BSMs) is a prominent part of paleoanthropological studies, namely taphonomic research. Behavioral interpretations of the fossil record hinge strongly upon correct assessment of BSMs. With the significant impact of microscopic analysis to the study of BSMs, multiple authors have discussed the reliability of these technological improvements for gaining resolution in BSM discrimination. While a certain optimism is present, some important questions are ignored and others overemphasized without appropriate empirical support. This specifically affects the study of cut marks. A diversity of geometric morphometric approaches applied to the study of cut marks have resulted in the coexistence (and competition) of different 2D and 3D methods. The present work builds upon the foundation of experiments presented by Maté-González et al. (2015), Courtenay et al. (2017) and Otárola-Castillo et al. (2018) to contrast for the first time 2D and 3D methods in their resolution of cut mark interpretation and classification. The results presented here show that both approaches are equally valid and that the use of sophisticated 3D methods do not contribute to an improvement in accuracy.

Published

2018

14. A Hybrid Geometric Morphometric Deep Learning Approach for Cut and Trampling Mark Classification

Author

Lloyd A. Courtenay, Rosa Huguet, Diego González-Aguilera, and José Yravedra

Subjects

taphonomy, microscopy, equifinality, archaeological data science, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The concept of equifinality is currently one of the largest issues in taphonomy, frequently leading analysts to erroneously interpret the formation and functionality of archaeological and paleontological sites. An example of this equifinality can be found in the differentiation between anthropic cut marks and other traces on bone produced by natural agents, such as that of sedimentary abrasion and trampling. These issues are a key component in the understanding of early human evolution, yet frequently rely on qualitative features for their identification. Unfortunately, qualitative data is commonly susceptible to subjectivity, producing insecurity in research through analyst experience. The present study intends to confront these issues through a hybrid methodological approach. Here, we combine Geometric Morphometric data, 3D digital microscopy, and Deep Learning Neural Networks to provide a means of empirically classifying taphonomic traces on bone. Results obtained are able to reach over 95% classification, providing a possible means of overcoming taphonomic equifinality in the archaeological and paleontological register.

Published

2019

15. Glacial/interglacial climate variability in southern Spain during the late Early Pleistocene and climate backdrop for early Homo in Europe

Author

Christian Sánchez-Bandera, Ana Fagoaga, Alexia Serrano- Ramos, José Solano-García, Deborah Barsky, Daniel DeMiguel, Juan Ochando, Juha Saarinen, Pedro Piñero, Iván Lozano- Fernández, Lloyd A. Courtenay, Carmen Luzón, Hervé Bocherens, José Yravedra, Mikael Fortelius, Jordi Agustí, José S. Carrión, Oriol Oms, Hugues-Alexandre Blain, and Juan Manuel Jiménez-Arenas

Subjects

Early Pleistocene, Glacial/interglacial variability, Amphibia, Squamata, Early hominins

Abstract

Highlights The oldest human evidence in western Europe is currently documented at 1.4 Ma. Understanding the climatic variability that these hominins encountered is relevant. Paleoclimatic data are provided for an archaeopaleontological sequence. The Early Pleistocene hominins were able to cope with changing climatic conditions. Abstract The oldest evidence of a human presence in western Europe is currently documented at the late Early Pleistocene sites of Barranco León and Fuente Nueva 3 (Guadix-Baza Basin, SE Spain), dated respectively to 1.4 and 1.2 Ma. Understanding the climatic variability that these hominins encountered and coped with is of outstanding importance for placing their activities in an ecological context and understanding their capacity to adapt to changing conditions. Glacial-interglacial variability during this period was considerably less intense than during later phases of the Pleistocene. To date, however, no quantitative estimates are available for this climate variability in Early Pleistocene hominin sites, and no ‘cold’ reconstructions directly associated with the early hominin occupations of Europe have been performed either. Here stratigraphically constrained quantitative climatic reconstructions are provided for the sites of Barranco León and Fuente Nueva 3, using an improvement on the Mutual Ecogeographic Range method by projecting the niche envelope of the extant representatives ofOphisaurussp. We ascertain differences in temperature and rainfall between the different layers of the two sites, in line with previous reconstructions that revealed warm, humid periods (‘interglacial') as well as more temperate but drier periods (‘glacial'), consistent with Early Pleistocene climate cyclicity. Our new estimates suggest that late Early Pleistocene hominins, though conditioned to some degree by climatic factors, were able to deal with changing climatic and environmental conditions (‘interglacial' and ‘glacial') in the southwestern extremity of the European continent.

Published

2023

16. Recruiting a skeleton crew—Methods for simulating and augmenting paleoanthropological data using Monte Carlo based algorithms

Author

Lloyd A. Courtenay, Julia Aramendi, and Diego González‐Aguilera

Published

2023

17. Cleaning archaeological bones: Influence of water, ethanol, and acetone on microhardness

Author

Noé Valtierra, Lloyd A. Courtenay, Albert Fabregat‐Sanjuan, and Lucía López‐Polín

Subjects

Archeology, Anthropology

Published

2023

18. To den or not to den. Contributions to the taphonomic history of the Early Pleistocene site of Venta Micena 4 (Orce, Guadix-Baza Basin)

Author

Jose Yravedra Sainz de los Terreros, Carmen Luzón, Jose A. Solano, Gonzalo J. Linares-Matas, Verónica Estaca-Gomez, Juan José Rodríguez-Alba, Lloyd A. Courtenay, Darío Herranz-Rodrigo, Alexia Serrano-Ramos, José Cámara, Juha Saarinen, Christian Sánchez-Bandera, Hugues-Alexandre Blain, Suvi Viranta-Kovanen, Daniel DeMiguel, Beatriz Azanza, Oriol Oms, Jordi Agustí, Mikael Fortelius, and Juan Manuel Jiménez Arenas

Subjects

Archeology, Global and Planetary Change, Herbivores, Carnivores, Modifications, Depositional events, Open-air sites, Geology, Ecology, Evolution, Behavior and Systematics

Abstract

Venta Micena (Orce, Guadix-Baza Basin, Spain) is an Early Pleistocene locality renowned for the richness and quality of its palaeontological record. VM is spread over an area of 2.5 km2, where several exposed fossil outcrops are visible amidst its gorges and ravines. The best known of these sites, VM3, has been interpreted as a hyaena den. In addition, a new site, named VM4, has recently been the focus of fieldwork and taphonomic studies. The publication by Luz on et al. (2021) pointed out that VM4 presents a more complex history than VM3. First, two different sub-levels were identified: VM4-I and VM4-II. Secondly, the preliminary taphonomic analysis showed conspicuous differences with regard to VM3. Nevertheless, such interpretation has been challenged by Palmqvist et al. (2022) who proposed that VM3 and VM4 are both the result of a single depositional process, entailing the selective transport of skeletal parts by the giant extinct hyaena Pachycrocuta brevirostris back to its den. Using well-preserved faunal elements whose depositional context and provenance are reliable, in this paper we show that: 1) there are two clearly defined sub-levels in VM4 with some shared taphonomic characteristics as well as some notable differences; 2) VM3 and VM4 exhibit enough divergence to support differences in site formation processes; 3) The interpretation of both VM4-I and VM4-II is more consistent with their characterisation as open-air sites in which multiple agents and depositional processes contributed to its formation, rather than with hyaena dens. Nevertheless, excavations are still in progress at VM4 and therefore any results and interpretations ought to be considered as provisional., Consejeía de Cultura de la Junta de Andalucia through the General Research Project Primeras ocupaciones humanas y contexto paleoecologico a partir de los depositos Plio-pleistocenos de la cuenca Guadix-Baza BC.03.032/17, Inside the Artefacts & Ecofacts" Excellence Unit (University of Granada) HUM-607 PID 2021.125098NB.I00 MCIN/AEI/10.13039/501100011033/FEDER, Una manera de hacer Europa ProyExcel_00274 2021 SGR 01238, Agencia de Gestio D'Ajuts Universitaris de Recerca Agaur (AGAUR) Generalitat de Catalunya, National Health and Medical Research Council (NHMRC) of Australia PRE2020-094482 CEX2019-000945-M-20-1, Spanish Government, Archaeometrical Studies. Inside the Artefacts & Ecofacts" Excellence Unit (University of Granada

Published

2023

19. Handheld Stereo Photogrammetry Applied to Crime Scene Analysis

Author

Alejandra Ospina-Bohórquez, Susana Del Pozo, Lloyd A. Courtenay, and Diego González-Aguilera

Subjects

Applied Mathematics, Electrical and Electronic Engineering, Condensed Matter Physics, Instrumentation

Published

2023

20. Taphonomic and spatial analyses from the Early Pleistocene site of Venta Micena 4 (Orce, Guadix-Baza Basin, southern Spain)

Author

Juan Manuel Jiménez-Arenas, Beatriz Azanza, José Yravedra, Juha Saarinen, Oriol Oms, Mikael Fortelius, Darío Herranz-Rodrigo, Carmen Luzón, Daniel DeMiguel, Jordi Agustí, Hugues-Alexandre Blain, Juan José Rodríguez-Alba, José Antonio Solano, Alexia Serrano-Ramos, Suvi Viranta, Lloyd A. Courtenay, Department of Geosciences and Geography, Doctoral Programme in Geosciences, Department of Anatomy, Finnish Museum of Natural History, Evolutionary Palaeontology group, and Universidad de Sevilla. Departamento de Prehistoria y Arqueología

Subjects

Pachycrocuta, 1171 Geosciences, 010506 paleontology, Taphonomy, Early Pleistocene, Stratigraphy, Science, Stratigraphic unit, Context (language use), Structural basin, 01 natural sciences, Article, Sedimentary depositional environment, Stage (stratigraphy), 0601 history and archaeology, 0105 earth and related environmental sciences, Multidisciplinary, 060102 archaeology, biology, Palaeontology, 06 humanities and the arts, 15. Life on land, biology.organism_classification, Archaeology, Medicine, Geology

Abstract

Venta Micena is an area containing several palaeontological sites marking the beginning of the Calabrian stage (Early Pleistocene). The richness of the fossil accumulation including species of Asian, African and European origin, makes Venta Micena a key site for the the palaeoecological and palaeoenvironmental study of southern Europe during the Early Pleistocene. Thus, research has been focused on Venta Micena 3, which was originally interpreted as a single palaeosurface associated with a marshy context, in which most of the fauna was accumulated by Pachycrocuta brevirostris. Recent excavations have unearthed a new site, Venta Micena 4, located in the same stratigraphic unit (Unit C) and in close proximity to Venta Micena 3. Here we show the frst analyses regarding the taphonomic and spatial nature of this new site, defning two stratigraphic boundaries corresponding to two diferent depositional events. Furthermore, the taphonomic analyses of fossil remains seem to indicate a diferent accumulative agent than Pachycrocuta, thus adding more complexity to the palaeobiological interpretation of the Venta Micena area. These results contribute to the discussion of traditional interpretations made from Venta Micena 3., Regional Government of Andalusia, with both contracts associated to General Research Project BC.03.032/17, Spanish Public Employment Service (Spanish Ministry of Labour and Social Economy), Spanish Ministry of Science, Innovation and Universities, with an FPI Predoctoral Grant (Reg. PRE2019-089411) associated to project RTI2018-099850-B-IOO and the University of Salamanca, Institut Català de Paleoecologia Humana i Evolució Social (IPHES-CERCA) has received fnancial support from the Spanish Ministry of Science and Innovation through the “María de Maeztu” program for Units of Excellence (CEX2019-000945-M), Projects 2017SGR-859 (Gov. of Catalonia, AGAUR), and CGL2016-80000-P (Spanish Ministry of Economy and Competitiveness), Research Group HUM-607 (Junta de Andalucía).

Published

2021

21. Is Barranco León (1.46 Ma, Orce, Granada, Spain) much more complicated than we think? A reply to Palmqvist et al. (2023)

Author

Lloyd A. Courtenay, José Yravedra, Darío Herranz-Rodrigo, Alexia Serrano-Ramos, Verónica Estaca-Gómez, Diego González-Aguilera, José Antonio Solano, and Juan Manuel Jiménez Arenas

Subjects

Archeology, Global and Planetary Change, Geology, Ecology, Evolution, Behavior and Systematics

Published

2023

22. An experimental approach to the analysis of altered cut marks in archaeological contexts from Geometrics Morphometrics

Author

Antonio Pineda, Lloyd A. Courtenay, Edgar Téllez, and José Yravedra

Subjects

Archeology

Published

2023

23. A 3D taphonomic model of long bone modification by lions in medium-sized ungulate carcasses

Author

Rocío Mora, Agness Gidna, Miguel Ángel Maté-González, Enrique Baquedano, Lucía Cobo-Sánchez, Lloyd A. Courtenay, Manuel Domínguez-Rodrigo, Diego González-Aguilera, and Diego Prieto-Herráez

Subjects

Lions, 010506 paleontology, Ungulate, Taphonomy, Behavioural ecology, Appendicular skeleton, Science, Long bone, Zoology, Models, Biological, Tanzania, 01 natural sciences, Article, biology.animal, medicine, Animals, Assemblage (archaeology), 0601 history and archaeology, Femur, Carnivore, 0105 earth and related environmental sciences, Multidisciplinary, 060102 archaeology, biology, National park, Feeding Behavior, 06 humanities and the arts, Humerus, biology.organism_classification, Wildebeest, medicine.anatomical_structure, Archaeology, Medicine

Abstract

Here, we present the first three-dimensional taphonomic analysis of a carnivore-modified assemblage at the anatomical scale of the appendicular skeleton. A sample of ten carcasses composed of two taxa (zebra and wildebeest) consumed by wild lions in the Tarangire National Park (Tanzania) has been used to determine element-specific lion damage patterns. This study presents a novel software for the 3D spatial documentation of bone surface modifications at the anatomical level. Combined with spatial statistics, the present analysis has been able to conclude that despite variable degrees of competition during carcass consumption, lions generate bilateral patterning consisting of substantial damage of proximal ends of stylopodials and zeugopodials, moderate damage of the distal ends of femora and marginal damage of distal ends of humeri and zeugopodials. Of special interest is, specifically, the patterning of tooth marks on shafts according to element, since these are crucial to determine not only the type of carnivore involved in any given bone assemblage, but also the interaction with other agents (namely, hominins, in the past). Lions leave few tooth marks on mid-shaft sections, mostly concentrated on certain sections and orientations of stylopodials and, to a lesser extent, of the proximal tibia. Redundant occurrence of tooth marks on certain bone sections renders them as crucial to attest lion agency in carcass initial consumption. Indirectly, this can also be used to determine whether hominins ever acquired carcasses at lion kills.

Published

2021

24. The effects of prey size on carnivore tooth mark morphologies on bone; the case study of Canis lupus signatus

Author

Miguel Ángel Maté-González, José Yravedra, José Mª Vázquez-Rodríguez, Diego González-Aguilera, Maximiliano Fernández-Fernández, and Lloyd A. Courtenay

Subjects

0106 biological sciences, 010506 paleontology, Canis, Taphonomy, biology, Zoology, Carnivore, General Agricultural and Biological Sciences, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 0105 earth and related environmental sciences, Predation

Abstract

Carnivore feeding behaviour is a valuable line of research of increasing value in taphonomic analyses. An interesting component of these studies lies in the differentiation of carnivore activity ba...

Published

2020

25. Scratches and grazes: a detailed microscopic analysis of trampling phenomena

Author

Lloyd A. Courtenay, José Yravedra, Rosa Huguet, Ministerio de Ciencia e Innovación (España), European Commission, Generalitat de Catalunya, and Universidad Rovira i Virgili

Subjects

Geologic Sediments, Histology, Taphonomy, 02 engineering and technology, 3d microscopy, Bone and Bones, Pattern Recognition, Automated, Diagenesis, Pathology and Forensic Medicine, 03 medical and health sciences, Paleontology, Image Processing, Computer-Assisted, Animals, 030304 developmental biology, Microscopy, Principal Component Analysis, 0303 health sciences, Fossils, Deer, Cortical hardness, 021001 nanoscience & nanotechnology, 3D microscopy, Archaeological data science, Trampling, 0210 nano-technology, Algorithms, Bone surface, Geology, Unsupervised Machine Learning, Digital microscopy

Abstract

Sedimentary abrasion and postdepositional damage to fossil remains are of great interest if considering the possible distortion they could produce in the archaeological and paleontological record. Since their discovery, natural agents such as trampling phenomena have been a topic of great taphonomic interest. Nevertheless, the majority of investigation into these traces has focused almost exclusively on their differentiation from other anthropic agents such as cut marks. In recent years, advances into bone surface modification analysis via geometric morphometrics have proven useful for in-depth characterization of different taphonomic traces; including cut, tooth and percussion marks. Through this, a preliminary study of trampling marks using advanced 3D digital microscopy was able to detect differences between what have since been known as scratch and graze marks. The present study expands from this, developing a more detailed analysis of these traces. Here, we use advanced data science techniques to provide a means of understanding trampling mark variations, contributing to our knowledge of site formation processes. Our results show how scratch and graze marks are a product of progressional decay and changes in cortical hardness, providing a new means of understanding taphonomic processes. Lay Description: The study of microscopic bone surface modifications in archaeology and palaeontology is of great importance, allowing for a detailed reconstruction of the formation of a site and providing a means of interpreting the fossil register. The damage that sedimentary abrasion can produce, however, is likely to distort and influence these studies, thus requiring a detailed understanding of the different traces that can be found on different materials. Here, we use advanced 3D digital microscopy and pattern recognition algorithms to analyse the different marks produced in different sedimentological contexts, also controlling for other variables such as the state of the bone when buried, the type of bone and the time exposed to these types of damages. Through this detailed microscopic analysis of these types of damages, we are able to conclude that morphological variations in trampling marks are product of the state of decay when the bones are buried., This work was supported by MICINN‐FEDER PGC2018‐093925‐B‐C32 and the AGUAR project number SGR 2017‐1040; the Universitat Rovira i Virgili (2014, 2015 and 2016 PFR‐URV‐B2‐17).

Published

2020

26. Unravelling Hominin Activities in the Zooarchaeological Assemblage of Barranco León (Orce, Granada, Spain)

Author

José Yravedra, José Antonio Solano, Darío Herranz-Rodrigo, Gonzalo J. Linares-Matás, Juha Saarinen, Juan José Rodríguez-Alba, Stefanía Titton, Alexia Serrano-Ramos, Lloyd A. Courtenay, Clara Mielgo, Carmen Luzón, José Cámara, Christian Sánchez-Bandera, Eva Montilla, Isidro Toro-Moyano, Deborah Barsky, Mikael Fortelius, Jordi Agusti, Hugues-Alexandre Blain, Oriol Oms, Juan Manuel Jiménez-Arenas, Department of Geosciences and Geography, Finnish Museum of Natural History, and Evolutionary Palaeontology group

Subjects

CUT-MARKS, Bone surface modifications, WESTERN-EUROPE, GUADIX-BAZA BASIN, TOOTH MARKS, SITE, Prehistoria, Hominin-carnivore interactions, COIMBRE CAVE ASTURIAS, 615 History and Archaeology, Arqueología, FUENTE NUEVA 3, First settlement of Europe, Taphonomy, Cutmarks, SUBSISTENCE, PERCUSSION MARKS, BONE, Early Pleistocene

Abstract

Little is known about the subsistence practices of the first European settlers, mainly due to the shortage of archaeological sites in Europe older than a million years. This article contributes to the knowledge of the subsistence of the first Europeans with new zooarchaeology and taphonomic data from the Palaeolithic site of Barranco León (Orce, Granada, Spain). We present the results of the analysis of the faunal assemblages retrieved in the context of new excavations undertaken between 2016 and 2020. We have followed a standard methodology for the identification and quantification of species, mortality profiles, skeletal representation and taphonomic analysis. With regard to the taphonomic evidence, we have documented the extent of rounding, abrasion and other alterations. Finally, we examined traces from the activities of carnivores and hominins that led to the accumulation and alteration of the bone assemblages. Results indicate that the archaeo-paleontological deposits from Barranco León present a dual-patterned mixed taphonomic origin. The first phase primarily involved waterborne processes (BL-D1), which led to the accumulation of lithic raw materials, a few archaeological stone tools, and some faunal remains with percussion and cutmarks. The second phase (BL-D2) contains several stone tools associated with faunal remains with more anthropogenic alterations, such as cutmarks and percussion marks. After analysing the Barranco León zooarchaeological assemblage, the present study concludes that hominins had access to the meat and within-bone nutrients of animals of diverse sizes. However, the specific carcass acquisition mechanisms that hominins followed are less certain because the presence of tooth marks suggests that carnivores also played a role in the accumulation and modification of the Barranco León faunal assemblage., CRUE-CSIC agreement Springer Nature, Junta de Andalucia, Consejeria de Educacion, Cultura y Deporte: Orce Research Project `Primeras ocupaciones humanas y contexto paleoecologico a partir de los depositos pliopleistocenos de la cuenca Guadix-Baza: zona arqueologica de la Cuenca de Orce (Grana BC.03.032/17, Spanish Government PRE2019-089411 RTI2018-099850-B-I00, University of Salamanca, Arts and Humanities Research Council through a Baillie Gifford AHRC Scholarship (OOC-DTP program) at the University of Oxford AH/R012709/1, National Health and Medical Research Council (NHMRC) of Australia PRE2020-094482, European Union-NextGenerationEU 2021URV-MS-03, Ministry of Universities and Recovery, Transformation and Resilience Plan, Generalitat de Catalunya 2017SGR-859 2017SGR-1666, Spanish Ministry of Science and Innovation through the `Maria de Maeztu' program for Units of Excellence CEX2019-000945-M, Spanish Government CEX2019-000945-M-20-1

Published

2022

27. Taphonomic characterisation of tooth marks of extinct Eurasian carnivores through Geometric Morphometric

Author

José Yravedra, Lloyd Austin Courtenay, Darío Herranz-Rodrigo, Gonzalo Linares-Matás, Juan José Rodríguez-Alba, Verónica Estaca-Gómez, Carmen Luzón, Alexia Serrano-Ramos, Miguel Ángel Maté-González, José Antonio Solano, Diego González-Aguilera, and Juan Manuel Jiménez-Arenas

Subjects

Multidisciplinary, Carnivora, Animals, Estadística aplicada, Prehistoria, Tooth, Paleontología, Arqueología

Abstract

Determining the cause and nature of the postmortem processes that living organisms experience is one of the main common issues faced by forensic experts, zooarchaeologists, palaeontologists, and other specialists. Carnivores are among the most destructive agents that can interact with a corpse, since their feeding behaviour can lead to very extensive alterations, complicating the diagnostic identification of which carnivore species was responsible for the death of an individual, a livestock unit, or the formation of a fossil assemblage. Even though some currently available techniques enable forensic experts to undertake a differential diagnosis of carnivore agency from corpse examination, these are very difficult to apply when skeletal parts are all that remains. Nevertheless, a computational taphonomic approach can help identify which carnivore could have generated the tooth marks present on bone surfaces, and thus aid in the reconstruction of their forensic biography., Junta de Andalucía, Consejería de Educación, Cultura y Deporte: Orce Research Project “Primeras ocupaciones humanas y contexto paleoecológico a partir de los depósitos pliopleistocenos de la cuenca Guadix-Baza: zona arqueológica de la Cuenca de Orce (Granada, España), 2017–2020” (BC.03.032/17), Spanish Ministry of Science, Innovation and Universities, with a FPI Predoctoral Grant (PRE2019-089411), Project RTI2018-099850- B-I00, Ministry of Science, Innovation and Universities, under the contract REF: PEJ2019-005420-A, AHRC-Baillie Gifford Doctoral Scholarship (AH/R012709/1)

Published

2022

28. Deciphering carnivoran competition for animal resources at the 1.46 Ma early Pleistocene site of Barranco León (Orce, Granada, Spain)

Author

Lloyd A. Courtenay, José Yravedra, Darío Herranz-Rodrigo, Juan José Rodríguez-Alba, Alexia Serrano-Ramos, Verónica Estaca-Gómez, Diego González-Aguilera, José Antonio Solano, and Juan Manuel Jiménez-Arenas

Subjects

Archeology, Global and Planetary Change, Geology, Ecology, Evolution, Behavior and Systematics

Published

2023

29. A case of hominin scavenging 1.84 million years ago from Olduvai Gorge (Tanzania)

Author

Manuel Domínguez‐Rodrigo, Lloyd A. Courtenay, Lucía Cobo‐Sánchez, Enrique Baquedano, and Audax Mabulla

Subjects

History and Philosophy of Science, Artificial Intelligence, Fossils, General Neuroscience, Animals, Humans, Paleontology, Hominidae, Environment, Tanzania, General Biochemistry, Genetics and Molecular Biology

Abstract

Meat eating is one of the hallmarks of human evolution. It has been linked to the beginning of stone tool use, to physiological changes leading to crucial anatomical transformations defining our genus, and to new socioreproductive and cognitive behaviors. Uncontroversial evidence of meat eating goes back to 2.6 million years ago; however, little is known about the frequency and timing with which early hominins acquired animal resources. Here, we show that the combination of hunting and scavenging documented in some modern human foragers may have a long evolutionary trajectory. Using a new set of artificial intelligence methods for objective identification, we present direct evidence of an episode of hominins scavenging from large felids-probably lions-discovered at Olduvai Gorge (DS site, Bed I). This casts a new perspective on the diversity of hominin carcass acquisition behaviors and survival strategies, and places some early Pleistocene hominins in ecological proximity to African large carnivore guilds.

Published

2021

30. Pliocene to Middle Pleistocene climate history in the Guadix-Baza Basin, and the environmental conditions of early Homo dispersal in Europe

Author

Carmen Luzón, Jordi Agustí, Indrė Žliobaitė, José Solano-García, Suvi Viranta, Juha Saarinen, Christian Sánchez-Bandera, Juan José Rodríguez-Alba, Hervé Bocherens, Alexia Serrano-Ramos, Otto Oksanen, José Yravedra, Juan Manuel Jiménez-Arenas, Juan Ochando, Mikael Fortelius, Daniel DeMiguel, José S. Carrión, Lloyd A. Courtenay, Miikka Tallavaara, Oriol Oms, Beatriz Azanza, Hugues-Alexandre Blain, Deborah Barsky, Department of Geosciences and Geography, Department of Computer Science, Helsinki Institute for Information Technology, Finnish Museum of Natural History, Evolutionary Palaeontology group, Department of Anatomy, and Hominin Ecology

Subjects

Mediterranean climate, 010506 paleontology, Archeology, Early Pleistocene, WEST, Pleistocene, Range (biology), Sclerophyll, Woodland, 010502 geochemistry & geophysics, 01 natural sciences, Mesowear, Grassland, Paleontología, Vegetation dynamics, Hominin environments, NEANDERTHALS, RECONSTRUCTION, Guadix-baza basin, PERSPECTIVE, HUMAN OCCUPATION, Ecology, Evolution, Behavior and Systematics, 1172 Environmental sciences, 0105 earth and related environmental sciences, FOSSIL, Global and Planetary Change, geography.geographical_feature_category, Ecometrics, PRODUCTIVITY, Ecology, fungi, Vegetal dynamics, SITE, Geology, 15. Life on land, BARRANCO LEON, Europe, Geography, Palaeoclimatology, MAMMALS, Large mammals

Abstract

The Guadix-Baza Basin (GBB) in Andalucía, Spain, comprises palaeontological and archaeological sites dating from the Early Pliocene to the Middle Pleistocene, including some of the earliest sites with evidence for the presence of early humans (Homo sp.) in Europe. Thus, the history of climate and environments in this basin contributes significantly to our understanding of the conditions under which early humans spread into Europe during the Early Pleistocene. Here we present estimates of precipitation and primary productivity in the GBB from the Pliocene to the Middle Pleistocene based on dental ecometrics in fossil communities of large herbivorous mammals, and perform an ecometrics-based distribution modelling to analyse the environmental conditions of Early and Middle Pleistocene human sites in Europe. Our results show that Early Pleistocene humans generally occupied on average relatively diverse habitats with ecotones, such as woodlands and savannas, but avoided very open and harsh (cool or dry) environments. During the Middle Pleistocene in Europe, humans occupied a comparatively much broader range of environments than during the Early Pleistocene, but were on average more concentrated in environments where the dental ecometric of mammals indicate wooded palaeoenvironments. In the earliest human occupation sites of the GBB, Barranco Leon and Fuente Nueva 3, the mean annual precipitation and net primary production estimates indicate climatic conditions close to modern Mediterranean sclerophyllous woodland environments, but with slightly higher primary productivity,indicating some similarity with East African woodlands. On the other hand, the environments did not resemble African grassland savannas. The browse-dominated diets of ungulates from Barranco Leon and Fuente Nueva 3 further suggest palaeoenvironments where grasses were a minor component of the vegetation. In the slightly older site of Venta Micena that has no evidence for the presence of hominins, dental ecometric estimates indicate climate and environments similar to Mediterranean “forest steppe” environments existing in the surroundings of Baza today. Grasses were prevalent in the diet of some taxa, especially equids, in Venta Micena, but most of the species show browse-dominated diets even there.

Published

2021

31. Early Pleistocene faunivorous hominins were not kleptoparasitic, and this impacted the evolution of human anatomy and socio-ecology

Author

Elia Organista, Vivek Maskara, Rocío Mora, Rebeca Barba, Julia Aramendi, Diego González-Aguilera, José-Manuel Maíllo-Fernández, Audax Mabulla, Agness Gidna, Fernando Diez-Martín, Miguel Ángel Maté-González, Lucía Cobo-Sánchez, David Uribelarrea, Marcos Pizarro-Monzo, Marina Vegara-Riquelme, Manuel Domínguez-Rodrigo, Natalia Abellán, David Manuel Martín-Perea, Antonio Rodríguez-Hidalgo, Enrique Baquedano, Ana Belén Galán, Lloyd A. Courtenay, Gabriel Cifuentes-Alcobendas, Blanca Jiménez-García, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Cultura (España), Swedish Research Council, Banco Santander, and Fundación Palarq

Subjects

Meat, Taphonomy, Early Pleistocene, Science, Ecology (disciplines), Biological anthropology, Evolution of human intelligence, Biology, Tanzania, Article, Paleontología, Predation, Animals, Humans, Ecosystem, History, Ancient, Multidisciplinary, Fossils, Ecology, Encephalization, Hominidae, Adaptation, Physiological, Biological Evolution, Carnivory, Habitat, Archaeology, Diet, Paleolithic, Medicine, Adaptation, Algorithms

Abstract

Humans are unique in their diet, physiology and socio‑reproductive behavior compared to other primates. They are also unique in the ubiquitous adaptation to all biomes and habitats. From an evolutionary perspective, these trends seem to have started about two million years ago, coinciding with the emergence of encephalization, the reduction of the dental apparatus, the adoption of a fully terrestrial lifestyle, resulting in the emergence of the modern anatomical bauplan, the focalization of certain activities in the landscape, the use of stone tools, and the exit from Africa. It is in this period that clear taphonomic evidence of a switch in diet with respect to Pliocene hominins occurred, with the adoption of carnivory. Until now, the degree of carnivorism in early humans remained controversial. A persistent hypothesis is that hominins acquired meat irregularly (potentially as fallback food) and opportunistically through klepto‑foraging. Here, we test this hypothesis and show, in contrast, that the butchery practices of early Pleistocene hominins (unveiled through systematic study of the patterning and intensity of cut marks on their prey) could not have resulted from having frequent secondary access to carcasses. We provide evidence of hominin primary access to animal resources and emphasize the role that meat played in their diets, their ecology and their anatomical evolution, ultimately resulting in the ecologically unrestricted terrestrial adaptation of our species. This has major implications to the evolution of human physiology and potentially for the evolution of the human brain., We thank the Spanish Ministry of Science, Innovation and Universities for funding this research (HAR2017-82463-C4-1-P) and for fellowships to JA,GCA and MVR, and the Ministry of Culture for their funding through the program of Archaeology Abroad. We also thank the Swedish Research Council (Vetenskapsrådet) (AR-HS 2018-01045-3), and the Santander Bank (AR-HS 2018-01045-3) for their funding support. Our thanks also to the Palarq Foundation and E2in2 for financial support.

Published

2021

32. The use of canid tooth marks on bone for the identification of livestock predation

Author

Miguel Ángel Maté-González, José Yravedra, Maximiliano Fernández Fernández, Diego González-Aguilera, and Lloyd A. Courtenay

Subjects

0301 basic medicine, 010506 paleontology, Livestock, Behavioural ecology, Natural resource economics, lcsh:Medicine, 01 natural sciences, Bone and Bones, Article, Predation, Machine Learning, 03 medical and health sciences, Predatory behavior, Animals, Humans, Bites and Stings, lcsh:Science, Canidae, 0105 earth and related environmental sciences, Government, Multidisciplinary, business.industry, Palaeontology, lcsh:R, Subsidy, Animal behaviour, Product (business), 030104 developmental biology, Geography, Predatory Behavior, Identification (biology), lcsh:Q, Rural area, business, Tooth

Abstract

Historically wolves and humans have had a conflictive relationship which has driven the wolf to extinction in some areas across Northern America and Europe. The last decades have seen a rise of multiple government programs to protect wolf populations. Nevertheless, these programs have been controversial in rural areas, product of the predation of livestock by carnivores. As a response to such issues, governments have presented large scale economic plans to compensate the respected owners. The current issue lies in the lack of reliable techniques that can be used to detect the predator responsible for livestock predation. This has led to complications when obtaining subsidies, creating conflict between landowners and government officials. The objectives of this study therefore are to provide a new alternative approach to differentiating between tooth marks of different predators responsible for livestock predation. Here we present the use of geometric morphometrics and Machine Learning algorithms to discern between different carnivores through in depth analysis of the tooth marks they leave on bone. These results present high classification rates with up to 100% accuracy in some cases, successfully differentiating between wolves, dogs and fox tooth marks.

Published

2019

33. Cut marks and raw material exploitation in the lower pleistocene site of Bell's Korongo (BK, Olduvai Gorge, Tanzania): A geometric morphometric analysis

Author

Miguel Ángel Maté-González, Julia Aramendi, Diego González-Aguilera, Manuel Domínguez-Rodrigo, David Manuel Martín-Perea, Enrique Baquedano, José Yravedra, David Uribelarrea, and Lloyd A. Courtenay

Subjects

010506 paleontology, Pleistocene, biology, Olduvai Gorge, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Archaeology, Wildebeest, Megafauna, biology.animal, Hippopotamus, Assemblage (archaeology), Sivatherium, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Faunal assemblage

Abstract

The Lower Pleistocene site of Bell's Korongo (BK) in Olduvai Gorge (Tanzania) has been a key site for the study of the origin of human behaviour. The lower archaeological levels of BK are characterized by anthropogenic activity related to the exploitation of megafauna (elephant, hippopotamus, Sivatherium) and smaller game (zebra, wildebeest and antelopes). These remains display a high frequency of cut marks. The exceptional state of preservation of the BK fossil assemblage has allowed a wide range of different analyses that, among other things, detected the use of quartzite in butchering activities through the study of cut marks. Following up previous analyses, this paper presents the study of a series of cut marks from the BK faunal assemblage using a 3D geometric morphometric methodological approach in order to determine the mineralogical properties of the quartzite used at the site. BK cut marks are compared with experimentally produced cut marks using 9 mineralogically different quartzite types from Olduvai Gorge. This comparative analysis provides valuable hints about the exact nature of the raw materials used in butchering activities. The results presented here identify a preferential use of quartzite with a finer granular composition, suggesting that hominin populations were already selecting the best raw materials for their use in specific activities 1.3 Mya.

Published

2019

34. Who ate OH80 (Olduvai Gorge, Tanzania)? A geometric-morphometric analysis of surface bone modifications of a Paranthropus boisei skeleton

Author

Julia Aramendi, Diego González-Aguilera, Miguel Ángel Maté-González, Agness Gidna, José Yravedra, María Cruz Ortega, Enrique Baquedano, Lloyd A. Courtenay, Manuel Domínguez-Rodrigo, Audax Mabulla, and Mari Carmen Arriaza

Subjects

Morphometrics, 010506 paleontology, geography.geographical_feature_category, Taphonomy, biology, Olduvai Gorge, Postcrania, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Archaeology, Geography, Cave, Paranthropus, Carnivore, Paranthropus boisei, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Olduvai Gorge (Tanzania) is one of the key areas for the study of human origins, given the sheer abundance of archaeological and paleontological sites discovered. Several of these archaeological sites have yielded numerous hominin fossils and traces of their activities, thus offering invaluable insights into the nature and origins of human behavior. Nevertheless, certain taphonomic discussions that have been of great importance for the study of the South African cave sites have remained unnoticed in East Africa. One of these issues revolves around the interpretation of Paranthropus as a common prey of predators. In this paper, we analyze the postcranial remains of OH80, a partial skeleton of a Paranthropus boisei discovered at the BK site (Bell Korongo, Bed II of Olduvai Gorge, Tanzania) in 2010. Some of the specimens of this skeleton have been reported to show surface modifications tentatively associated to the action of carnivores. Here, several pits observed on OH80-12, the Paranthropus boisei femur, were digitally reconstructed and analyzed through geometric morphometrics to determine the nature of the marks. The OH80-12 marks are compared with a modern sample of percussion marks and several carnivore tooth pits, since the action of both agents has previously been identified at the site and can sometimes result in equifinality problems. Alongside already published geometric morphometric tests, here we present a very newly developed approach based on the combination of geometric morphometric data and the training of machine learning algorithms. Both methodologies highlight that OH80 was consumed by carnivores, being a felid the most likely modifying agent.

Published

2019

35. Application of geometric morphometrics to the analysis of cut mark morphology on different bones of differently sized animals. Does size really matter?

Author

José Yravedra, Rocío Mora, Julia Aramendi, Diego González-Aguilera, Lloyd A. Courtenay, Miguel Ángel Maté-González, and Manuel Domínguez-Rodrigo

Subjects

Morphometrics, 010506 paleontology, Bone preservation, Taphonomy, Potential effect, Morphology (biology), 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Morphometric analysis, Statistical analysis, Bone surface, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Recent techniques applied to taphonomy have made advances in our understanding of bone surface modifications. For many years, differences in bone density according to element and variations in animal size have been considered conditioning factors for many taphonomic processes. While several studies highlight how animal size and density affect fracture patterns and bone preservation rates, variations in cut mark morphology are yet to be confronted against these variables. Here, we assess the effect of these variables and their potential effect on cut mark morphology by comparing a considerable amount of cut marks on different anatomical elements of both suids and bovids. Experimentally produced cut mark samples were then digitally reconstructed using a David Laser scanner that allowed the statistical analysis of each cut mark's shape and form. Geometric morphometric analysis using 2D and 3D landmark models were unable to find substantial differences in cut mark morphologies caused by either element type of carcass size.

Published

2019

36. Approaching raw material functionality in the Upper Magdalenian of Coímbre cave (Asturias, Spain) through geometric morphometrics

Author

Diego González Aguilera, Pablo López-Cisneros, Gonzalo Linares-Matás, José Yravedra, Miguel Ángel Maté-González, Julia Aramendi, David Álvarez-Alonso, Lloyd A. Courtenay, María de Andrés-Herrero, and Verónica Estaca-Gómez

Subjects

Morphometrics, 010506 paleontology, geography, geography.geographical_feature_category, Raw material, 010502 geochemistry & geophysics, 01 natural sciences, Archaeology, Debitage, Cave, Assemblage (archaeology), Bladelets, Magdalenian, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Coimbre cave (Penamellera Alta, Asturias) is an Upper Palaeolithic site in Northern Spain, spanning an occupation sequence from the Gravettian to the Magdalenian periods. The upper layers -layer I and II-, corresponding to the Upper Magdalenian, register the highest intensity of human activity. In this paper, we analyse raw material functionality at the site through the study of cut-marks found on bone remains. At Coimbre, we have documented mainly quartzite, followed by flint; other raw materials are found in very low frequencies. There are several types of local quartzite that appear mainly as flaking debitage and stone tools such as burins and scrappers. On the other hand, flint is mainly knapped to elaborate blades and bladelets, as well as specialised implements, such as different types of side scrappers. Retouched flakes on flint are relatively more abundant than those made on quartzite. In this paper we employ the use of photogrammetry, geometric morphometrics and statistics to analyse the cut-marks from the Upper Magdalenian assemblage of Coimbre cave. Our aim is to determine the lithic raw material preferentially used for carcass processing at the site.

Published

2019

37. A geometric-morphometric assessment of three-dimensional models of experimental cut-marks using flint and quartzite flakes and handaxes

Author

José Yravedra, Julia Aramendi, Diego González-Aguilera, Miguel Ángel Maté-González, Lloyd A. Courtenay, Felipe Cuartero, and Gonzalo Linares-Matás

Subjects

010506 paleontology, Paleontology, Statistical analysis, 010502 geochemistry & geophysics, 01 natural sciences, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Three dimensional model

Abstract

Developments in methodological approaches to high-resolution morphometrical study of cut-mark morphology further our understanding of butchering activities. Identification of micro-morphological variability between different taphonomical alterations on ancient bone allows detection and comparison of bone-surface modifications and associated taphonomical agents and activities. By taking a geometrical-morphometrical approach, data from 3-D laser-scanning and micro-photogrammetrical models of experimental cut-marks enable statistical analysis to classify and distinguish between cut-marks by bifaces from those by flakes, and, in each case, between marks made by flint from those made by quartzite tools. Analysis of two tool types, each made from two raw materials as independent variables, is a methodological advance in morphometrical studies of experimental cut-marks, which hitherto have tended to focus on the respective parts played by tool types or types of raw material in morphometrical characterization of experimental and archaeological cut-marks.

Published

2019

38. Developments in data science solutions for carnivore tooth pit classification

Author

Darío Herranz-Rodrigo, Diego González-Aguilera, Lloyd A. Courtenay, and José Yravedra

Subjects

0301 basic medicine, 010506 paleontology, Science, Carnivora, Context (language use), 01 natural sciences, Bone and Bones, Article, 03 medical and health sciences, Artificial Intelligence, Animals, Humans, Computational models, Carnivore, 0105 earth and related environmental sciences, Trophic level, Models, Statistical, Multidisciplinary, Fossils, Data Science, Statistics, Computational Biology, Paleontology, Palaeoecology, Hominidae, Data science, Large sample, 030104 developmental biology, Geography, Archaeology, Human evolution, Medicine, Identification (biology), Tooth

Abstract

Competition for resources is a key question in the study of our early human evolution. From the first hominin groups, carnivores have played a fundamental role in the ecosystem. From this perspective, understanding the trophic pressure between hominins and carnivores can provide valuable insights into the context in which humans survived, interacted with their surroundings, and consequently evolved. While numerous techniques already exist for the detection of carnivore activity in archaeological and palaeontological sites, many of these techniques present important limitations. The present study builds on a number of advanced data science techniques to confront these issues, defining methods for the identification of the precise agents involved in carcass consumption and manipulation. For the purpose of this study, a large sample of 620 carnivore tooth pits is presented, including samples from bears, hyenas, jaguars, leopards, lions, wolves, foxes and African wild dogs. Using 3D modelling, geometric morphometrics, robust data modelling, and artificial intelligence algorithms, the present study obtains between 88 and 98% accuracy, with balanced overall evaluation metrics across all datasets. From this perspective, and when combined with other sources of taphonomic evidence, these results show that advanced data science techniques can be considered a valuable addition to the taphonomist’s toolkit for the identification of precise carnivore agents via tooth pit morphology.

Published

2021

39. Recurring taphonomic processes in the carnivoran-dominated Late Miocene assemblages of Batallones-3, Madrid Basin, Spain

Author

Lucía R. Sualdea, David Manuel Martín-Perea, Juan Abella, Alberto Valenciano, Jorge Morales, Enrique Cantero, María Soledad Domingo, and Lloyd A. Courtenay

Subjects

Mammals, Vallesian, Paleontology, Taphonomy, Carnivoran, Pseudokarst, Structural basin, Late Miocene, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

Altres ajuts: CERCA Programme/Generalitat de Catalunya Altres ajuts: research groups CSIC-64-1538 and CAM-UCM-910607 Carnivoran-dominated fossil sites are scarce in the fossil record but provide precious information on the diversity and ecology of past carnivoran guilds. The Cerro de los Batallones sites host the oldest carnivoran-dominated assemblages, with the highest carnivoran abundances observed in the fossil record. Batallones-3 (Late Miocene, Madrid Basin, Spain) hosts three discrete, carnivoran-dominated fossiliferous levels deposited in a 15m-diameter, 4m-high pseudokarstic cavity with 1m-high talus cone located beneath the mouth of the cavity on the roof. Levels I, II and III are multitaxic multidominant assemblages, with the sabretooth cats Promegantereon ogygia and Machairodus aphanistus and the ursid Indarctos arctoides being the most abundant species. These carnivoran-dominated assemblages are autochthonous and show diagenetically fractured but well-preserved remains (complete, little to no weathering or abrasion). Root marks and manganese oxide precipitation are common and more abundant in Level III, due to modern pedogenic processes. There are also a few allochthonous, badly preserved (weathered and abraded) herbivore remains that were washed into the cavity. The taphonomic homogeneity of all three levels suggests recurring taphonomic and geologic processes throughout the accumulation of infill in the cave. The trap-like nature of the cave, unbroken and largely unweathered carnivoran bones suggest these predators intentionally jumped into the cave but were unable to escape.

Published

2021

40. Hyperspectral imaging and robust statistics in non-melanoma skin cancer analysis

Author

Susana Lagüela, Carlos Santos-Duran, Lloyd A. Courtenay, Pablo Rodríguez-Gonzálvez, Susana Del Pozo, Inés Barbero-García, David Hernández-López, Diego Guerrero-Sevilla, Camilo Ruiz-Mendez, Javier Cañueto, Concepción Román-Curto, Diego González-Aguilera, María Esther Cardeñoso-Álvarez, Mónica Roncero-Riesco, Junta de Castilla y León, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Instituto de Salud Carlos III, Iberdrola, and Universidad de Salamanca

Subjects

Computer science, Image quality, business.industry, Multispectral image, Robust statistics, Cancer, Hyperspectral imaging, Image processing, Pattern recognition, medicine.disease, Atomic and Molecular Physics, and Optics, medicine, Artificial intelligence, Skin cancer, business, Biotechnology, Non melanoma

Abstract

Non-Melanoma skin cancer is one of the most frequent types of cancer. Early detection is encouraged so as to ensure the best treatment, Hyperspectral imaging is a promising technique for non-invasive inspection of skin lesions, however, the optimal wavelengths for these purposes are yet to be conclusively determined. A visible-near infrared hyperspectral camera with an ad-hoc built platform was used for image acquisition in the present study. Robust statistical techniques were used to conclude an optimal range between 573.45 and 779.88 nm to distinguish between healthy and non-healthy skin. Wavelengths between 429.16 and 520.17 nm were additionally found to be optimal for the differentiation between cancer types., Gerencia Regional de Salud de Castilla y León (GRS 2139/A/20); Spanish Ministry of Science, Innovation and Universities (PRE2019-089411); Instituto de Salud Carlos III (PI18/00587); Ibderdrola Spain; Junta de Castilla y León (GRS 1837/A/18). This project was funded by the Junta de Castilla y Leon, under the title project HYPERSKINCARE (Ref. GRS 1837/A/18). Lloyd Austin Courtenay is funded by the Spanish Ministry of Science, Innovation and Universities with an FPI Predoctoral Grant (Ref. PRE2019-089411) associated to project RTI2018-099850-B-I00 and the University of Salamanca. Susana Lagüela and Susana del Pozo are both funded by the Iberdrola Spain through the initiative Cátedra Iberdrola VIII Centenario of the University of Salamanca. Javier Cañueto is partially supported by the PI18/00587(Instituto de Salud Carlos III cofinanciado con fondos FEDER) and GRS 2139/A/20 (Gerencia Regional de Salud de Castilla y León)

Published

2021

41. Use of meat resources in the Early Pleistocene assemblages from Fuente Nueva 3 (Orce, Granada, Spain)

Author

Hugues-Alexandre Blain, Christian Sánchez-Bandera, Stefania Titton, Lloyd A. Courtenay, José Yravedra, Isidro Toro-Moyano, Juan José Rodríguez-Alba, José Antonio Solano, Juan Manuel Jiménez-Arenas, Gonzalo Linares-Matás, Alexia Serrano-Ramos, Eva Montilla, Clara Mielgo, Auxiliadora Ruiz, Deborah Barsky, Juha Saarinen, Mikael Fortelius, Darío Herranz-Rodrigo, Carmen Luzón, Jordi Agustí, O. Oms, José Miguel Cámara, Universidad de Sevilla. Departamento de Prehistoria y Arqueología, Junta de Andalucía, Consejería de Educación, Cultura y Deporte, Ministerio de Ciencia, Innovación y Universidades, Ministerio de Ciencia e Inovación, Department of Geosciences and Geography, Doctoral Programme in Geosciences, Finnish Museum of Natural History, and Evolutionary Palaeontology group

Subjects

010506 paleontology, Archeology, Taphonomy, Early Pleistocene, Range (biology), 01 natural sciences, 615 History and Archaeology, Arqueología, 0601 history and archaeology, Carnivore, Zooarchaeology, 0105 earth and related environmental sciences, 060102 archaeology, Ecology, Subsistence agriculture, Prehistoria, 06 humanities and the arts, Hominin-carnivore interactions, 15. Life on land, Palaeolithic archaeology, 3. Good health, Taxon, Geography, Anthropology, Cut marks, Faunal assemblage

Abstract

Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This research was funded by the Junta de Andalucia, Consejeria de Educacion, Cultura y Deporte: Orce Research Project "Primeras ocupaciones humanas y contexto paleoecologico a partir de los depositos pliopleistocenos de la cuenca Guadix-Baza: zona arqueologica de la Cuenca de Orce (Granada, Espana), 2017-2020 (Ref. BC.03.032/17)". We also received support from the PALARQ Foundation with the convocatory of Analitics 2019: "Identificando Carnivoros a partir de analisis Tafonomicos de ultima generacion aplicando Fotogrametria y Morfometria Geometrica de las Marcas de Diente. Aplicacion a Yacimientos del Pleistoceno Inferior Iberico: FN3, Venta Micena 3 y 4 (Granada), Ponton de la Oliva (Patones, Madrid)". Lloyd Austin Courtenay is also funded by the Spanish Ministry of Science, Innovation and Universities with an FPI Predoctoral Grant (Ref. PRE2019-089411) associated to project RTI2018-099850-B-I00 and the University of Salamanca. The Institut Catala de Paleoecologia Humana I Evolucio Social (IPHES-CERCA) has received financial support from the Spanish Ministry of Science and Innovation through the "Maria de Maeztu" program for Units of Excellence (CEX2019-000945-M)., Over the last few decades, several types of evidence such as presence of hominin remains, lithic assemblages, and bones with anthropogenic surface modifications have demonstrated that early human communities inhabited the European subcontinent prior to the Jaramillo Subchron (1.07–0.98 Ma). While most studies have focused primarily on early European lithic technologies and raw material management, relatively little is known about food procurement strategies. While there is some evidence showing access to meat and other animal-based food resources, their mode of acquisition and associated butchery processes are still poorly understood. This paper presents a taphonomic and zooarchaeological analysis of the Fuente Nueva-3 (FN3) (Guadix-Baza, Spain) faunal assemblage, providing a more in-depth understanding of early hominin subsistence strategies in Europe. The present results show that hominins had access to the meat and marrow of a wide range of animal taxa, including elephants, hippopotami, and small- and medium-sized animals. At the same time, evidence of carnivore activity at the site suggests that these communities likely faced some degree of competition from large predators when acquiring and processing carcasses., CRUE-CSIC agreement, Springer Nature, Junta de Andalucia BC.03.032/17, PALARQ Foundation, Spanish Ministry of Science, Innovation and Universities, National Health and Medical Research Council of Australia PRE2019-089411 RTI2018-099850-B-I00, University of Salamanca, Spanish Government CEX2019-000945-M

Published

2021

42. Taphonomic analysis of Batallones-10, a Late Miocene drought-induced mammalian assemblage (Madrid basin, Spain) within the Cerro de los Batallones complex

Author

Enrique Cantero, Manuel Hernández Fernández, M. Soledad Domingo, Lloyd A. Courtenay, David Manuel Martín-Perea, Jorge Morales, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), European Commission, Consejo Superior de Investigaciones Científicas (España), Comunidad de Madrid, and Universidad Complutense de Madrid

Subjects

Mammals, Vallesian, Taphonomy, biology, Drought, Ecology, Paleontology, Decennatherium, Pseudokarst, Vegetation, Late Miocene, Oceanography, biology.organism_classification, Diagenesis, Marl, Hipparion, Ecology, Evolution, Behavior and Systematics, Geology, Earth-Surface Processes

Abstract

The Late Miocene Batallones-10 site (Madrid Basin, Spain) contains several authochthonous multitaxic assemblages. A total of 15 large-mammal species are documented, including hipparionine horses (Hipparion sp.), giraffes (Decennatherium rex) and moschids. Three discrete fossiliferous levels have been identified with the aid of artificial intelligence systems. Although there are some statistical differences in the faunal composition of each level, paleontological, geologic and taphonomic data from all three Batallones-10 levels point to similar taphonomic histories. Mortality data, with abundant young individuals and the presence of pregnant females, indicates a catastrophic process of bone accumulation mainly driven by prolonged drought. Relatively high proportions of partially preserved or fully-articulated skeletons, and absence of carnivore feeding marks on bones, suggest that carcasses were undisturbed by predation. Rapid desiccation of soft tissues kept many of the joints intact, resulting in a high proportion of articulated remains. During drought episodes, large mammalian herbivores congregated around a shrinking water-hole, depleting the local vegetation, such that weakened individuals died of starvation and miring rather than dehydration. When rainfall resumed, the lack of vegetation and presence of low-permeability surficial sepiolite-rich marls, resulted in rapid run-off. This buried most of the unweathered, unabraded remains, whilst slightly orienting or completely removing others. After burial, faulting and slickensides produced diagenetic fractures, which favoured the precipitation of manganese oxides on bone surfaces and the diagenetic corrosion of remains, which is more pronounced in the uppermost Level III. This work, which focuses on the taphonomy of a herbivore-dominated site, improves our overall knowledge of the formation of the Cerro de los Batallones palaeontological complex., David M. Martín-Perea was funded by an FPI Predoctoral grant BES-2016-079460 from the Spanish Government associated to Projects CGL2015-6833-P and PGC2018-094122-B-100. L.A.C. is funded by the Spanish Ministry of Science, Innovation and Universities by a FPI Predoctoral grant PRE2019-089411 associated to project RTI2018-099850-B-I00. This study is also a contribution of Projects PGC2018-094122-B100 (AEI/FEDER, UE), CGL2016-76431-P (AEI/FEDER, UE), PGC2018-094955-A-100 and the research groups CSIC-64-1538 and CAM-UCM-910607.

Published

2021

43. 3D Insights into the Effects of Captivity on Wolf Mastication and Their Tooth Marks; Implications in Ecological Studies of Both the Past and Present

Author

Isabel Barja, Darío Herranz-Rodrigo, Diego González-Aguilera, José Mª Vázquez-Rodríguez, Lloyd A. Courtenay, Miguel Ángel Maté-González, José Yravedra, Angel Muñoz-Nieto, Rosa Huguet, Maximiliano Fernández Fernández, Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Universidad Rovira i Virgili, Generalitat de Catalunya, Universidad de Salamanca, and UAM. Departamento de Biología

Subjects

Adult, Wolf, Taphonomy, Veterinary medicine, Captivity, Article, 3D modeling, Wild wolves, SF600-1100, Carnivore, geometric morphometrics, Bone, Mastication, wild wolves, Advanced statistics, Iberian wolf, Geometric morphometrics, General Veterinary, biology, Ecology, Morphometry, Captive wolves, taphonomy, advanced statistics, biology.organism_classification, Nonhuman, Biología y Biomedicina / Biología, tooth marks, Physiological Stress, Wolf tooth, Geography, QL1-991, Animal Science and Zoology, Identification (biology), Tooth marks, Zoology, captive wolves, Tooth, Bone surface, Human

Abstract

Human populations have been known to develop complex relationships with large carnivore species throughout time, with evidence of both competition and collaboration to obtain resources throughout the Pleistocene. From this perspective, many archaeological and palaeontological sites present evidence of carnivore modifications to bone. In response to this, specialists in the study of microscopic bone surface modifications have resorted to the use of 3D modeling and data science techniques for the inspection of these elements, reaching novel limits for the discerning of carnivore agencies. The present research analyzes the tooth mark variability produced by multiple Iberian wolf individuals, with the aim of studying how captivity may affect the nature of tooth marks left on bone. In addition to this, four different populations of both wild and captive Iberian wolves are also compared for a more in-depth comparison of intra-species variability. This research statistically shows that large canid tooth pits are the least affected by captivity, while tooth scores appear more superficial when produced by captive wolves. The superficial nature of captive wolf tooth scores is additionally seen to correlate with other metric features, thus influencing overall mark morphologies. In light of this, the present study opens a new dialogue on the reasons behind this, advising caution when using tooth scores for carnivore identification and contemplating how elements such as stress may be affecting the wolves under study., L.A.C. is funded by the Spanish Ministry of Science, Innovation and Universities by an FPI Predoctoral grant PRE2019-089411 associated to project RTI2018-099850-B-I00. R.H. is supported by MICINN-FEDER PGC2018-093925-B-C32, the AGUAR project number SGR 2017-1040; the Universitat Rovira I Virgili (2014, 2015, and 2016 PFD-URV-B2-147) and CERCA Programme/Generalitat de Catalunya. D.H.-R. is also supported by the Spanish Ministry of Science, Innovation and Universities under the contract PEJ2019-005420-A as part of the i+D+I Garantía Juvenil program. Finally, this work was also supported by the General Foundation of the University of Salamanca under the Plan TCUE 2018-2020; Project “WOLF_FOOTPRINT” (PC-TCUE18-20_2013)

Published

2021

44. Towards a Combined Use of Geophysics and Remote Sensing Techniques for the Characterization of a Singular Building: 'El Torreón' (the Tower) at Ulaca Oppidum (Solosancho, Ávila, Spain)

Author

Javier Vallés Iriso, Miguel Ángel Maté-González, Teresa Chapa, Jesús Rodríguez-Hernández, Lloyd A. Courtenay, Cristina Sáez Blázquez, Jesús Velasco Gómez, Julian Aguirre de Mata, Marco Piras, Jesús R. Álvarez-Sanchís, Jesús Fernández Hernández, Pedro Carrasco García, José Yravedra, Diego González-Aguilera, Y. Torres, Serafín López-Cuervo, Andrea di Filippo, Libertad Troitiño Torralba, Gonzalo Ruiz Zapatero, and Maximiliano Fernández Fernández

Subjects

0211 other engineering and technologies, TP1-1185, 02 engineering and technology, remote sensing techniques, Biochemistry, Analytical Chemistry, oppidum, 0601 history and archaeology, Electrical and Electronic Engineering, Instrumentation, 021101 geological & geomatics engineering, Remote sensing, vettones, geography, geophysical approaches, geography.geographical_feature_category, 060102 archaeology, Chemical technology, Bedrock, Plan (archaeology), 06 humanities and the arts, Geophysics, Atomic and Molecular Physics, and Optics, Drone, Photogrammetry, Remote sensing (archaeology), Ground-penetrating radar, Scale (map), Tower, Geology

Abstract

This research focuses on the study of the ruins of a large building known as “El Torreón” (the Tower), belonging to the Ulaca oppidum (Solosancho, Province of Ávila, Spain). Different remote sensing and geophysical approaches have been used to fulfil this objective, providing a better understanding of the building’s functionality in this town, which belongs to the Late Iron Age (ca. 300–50 BCE). In this sense, the outer limits of the ruins have been identified using photogrammetry and convergent drone flights. An additional drone flight was conducted in the surrounding area to find additional data that could be used for more global interpretations. Magnetometry was used to analyze the underground bedrock structure and ground penetrating radar (GPR) was employed to evaluate the internal layout of the ruins. The combination of these digital methodologies (surface and underground) has provided a new perspective for the improved interpretation of “El Torreón” and its characteristics. Research of this type presents additional guidelines for better understanding of the role of this structure with regards to other buildings in the Ulaca oppidum. The results of these studies will additionally allow archaeologists to better plan future interventions while presenting new data that can be used for the interpretation of this archaeological complex on a larger scale.

Published

2021

45. New Geometric Morphometric Insights in Digital Taphonomy: Analyses into the Sexual Dimorphism of Felids through Their Tooth Pits

Author

Silvia J. Tardáguila-Giacomozzi, Darío Herranz-Rodrigo, José Yravedra, Antonio Garrucho, Juan-José Rodríguez-Alba, Jesús Recuero, and Lloyd A. Courtenay

Subjects

Technology, Taphonomy, New horizons, QH301-705.5, QC1-999, Morphology (biology), Biology, Arqueología, biology.animal, neotaphonomy, General Materials Science, Biology (General), Carnivore, geometric morphometrics, QD1-999, Instrumentation, Fluid Flow and Transfer Processes, Morphometrics, actualistic studies, Physics, Process Chemistry and Technology, General Engineering, Prehistoria, Engineering (General). Civil engineering (General), sexual dimorphism, Computer Science Applications, Sexual dimorphism, Chemistry, Evolutionary biology, TA1-2040, Panthera

Abstract

Recent studies using geometric morphometrics for taphonomy have yielded interesting results, opening new horizons of research in both archaeological and paleontological sites. Here we present the analysis of tooth pits left by male and female individuals of two different carnivore species (Panthera tigris and Panthera pardus) in order to see if sexual dimorphism influences the morphology of tooth pit marks. In the process, 3D-scanning and applied statistics were used. Based on samples derived from two individuals of different sexes, the present results indicate sexual dimorphism in these felid species to not be a conditioning factor of tooth pit morphology.

Published

2021

46. Deep Convolutional Neural Support Vector Machines for the Classification of Basal Cell Carcinoma Hyperspectral Signatures

Author

Lloyd A. Courtenay, Diego González-Aguilera, Susana Lagüela, Susana Del Pozo, Camilo Ruiz, Inés Barbero-García, Concepción Román-Curto, Javier Cañueto, Carlos Santos-Durán, María Esther Cardeñoso-Álvarez, Mónica Roncero-Riesco, David Hernández-López, Diego Guerrero-Sevilla, and Pablo Rodríguez-Gonzalvez

Subjects

basal cell carcinoma, hyperspectral sensor, computational learning, convolutional neural networks, support vector machines, General Medicine

Abstract

Non-melanoma skin cancer, and basal cell carcinoma in particular, is one of the most common types of cancer. Although this type of malignancy has lower metastatic rates than other types of skin cancer, its locally destructive nature and the advantages of its timely treatment make early detection vital. The combination of multispectral imaging and artificial intelligence has arisen as a powerful tool for the detection and classification of skin cancer in a non-invasive manner. The present study uses hyperspectral images to discern between healthy and basal cell carcinoma hyperspectral signatures. Upon the combined use of convolutional neural networks, with a final support vector machine activation layer, the present study reaches up to 90% accuracy, with an area under the receiver operating characteristic curve being calculated at 0.9 as well. While the results are promising, future research should build upon a dataset with a larger number of patients.

Published

2022

47. Geometric Morphometric Data Augmentation using Generative Computational Learning Algorithms

Author

Diego González-Aguilera and Lloyd A. Courtenay

Subjects

0106 biological sciences, Computer science, Robust statistics, unsupervised learning, 010603 evolutionary biology, 01 natural sciences, lcsh:Technology, Synthetic data, lcsh:Chemistry, 03 medical and health sciences, General Materials Science, Instrumentation, lcsh:QH301-705.5, 030304 developmental biology, Fluid Flow and Transfer Processes, 0303 health sciences, lcsh:T, Process Chemistry and Technology, General Engineering, Variance (accounting), artificial intelligence, lcsh:QC1-999, algebra_number_theory, Computer Science Applications, Visualization, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, robust statistics, Sample size determination, Unsupervised learning, generative adversarial networks, lcsh:Engineering (General). Civil engineering (General), archaeological data science, Algorithm, lcsh:Physics, Predictive modelling, Curse of dimensionality

Abstract

The fossil record is notorious for being incomplete and distorted, frequently conditioning the type of knowledge that can be extracted from it. In many cases, this often leads to issues when performing complex statistical analyses, such as classification tasks, predictive modelling, and variance analyses, such as those used in Geometric Morphometrics. Here different Generative Adversarial Network architectures are experimented with, testing the effects of sample size and domain dimensionality on model performance. For model evaluation, robust statistical methods were used. Each of the algorithms were observed to produce realistic data. Generative Adversarial Networks using different loss functions produced multidimensional synthetic data significantly equivalent to the original training data. Conditional Generative Adversarial Networks were not as successful. The methods proposed are likely to reduce the impact of sample size and bias on a number of statistical learning applications. While Generative Adversarial Networks are not the solution to all sample-size related issues, combined with other pre-processing steps these limitations may be overcome. This presents a valuable means of augmenting geometric morphometric datasets for greater predictive visualization.

Published

2020

48. Microscopic analyses of the effects of mechanical cleaning interventions on cut marks

Author

Lloyd A. Courtenay, Lucía López-Polín, and Noé Valtierra

Subjects

010506 paleontology, Archeology, 060102 archaeology, Process (engineering), Computer science, Psychological intervention, 06 humanities and the arts, 01 natural sciences, Construction engineering, Archaeological research, Anthropology, Statistical analyses, 0601 history and archaeology, 0105 earth and related environmental sciences, Digital microscopy

Abstract

In many cases, the study of archaeological fossil surfaces is not possible without prior intervention by conservation-restoration specialists. This is most notable in the required cleaning process that facilitates detailed analyses of osteological remains. This experimental study develops a methodology that can be used to evaluate the possible effects that mechanical cleaning applications and tools may have on the consequent study of cut marks. To confront these objectives, this study implements advanced 3D digital microscopy and statistical analyses to evaluate the before and after stages of mechanical cleaning processes of cut-marked bones. These techniques present a novel means of evaluating the degree of modification produced by mechanical cleaning processes. The obtained data allows for an initial assessment of the effects of conservation-restoration interventions on taphonomic analyses. The consequent conclusions advise caution on the use of some tools in mechanical cleaning, additionally supporting the need for interdisciplinary research in future archaeological research. Research of this nature is of great value to archaeology and palaeontology, presenting a new promising line of investigation for future research.

Published

2020

49. New technologies applied to archaeology. Contributions of photogrammetry and geometric morphometrics to the resolution of taphonomic issues

Author

Lloyd A. Courtenay, José Yravedra Sainz de los Terreros, and Miguel Ángel Maté-González

Subjects

Morphometrics, Taphonomy, Photogrammetry, Emerging technologies, Resolution (electron density), Geology, Earth-Surface Processes, Remote sensing

Published

2019

50. The use of tooth marks for new research into identifying and understanding the first domestic dogs in Palaeolithic populations

Author

Cecilia Mendoza, José Yravedra, Lloyd A. Courtenay, Pablo Aragón-Poza, and Darío Herranz-Rodrigo

Subjects

Archeology, History, Emerging technologies, Phenomenon, Premise, Genetic data, Prehistoria, Domestication, Sociocultural evolution, Aurignacian, Epistemology

Abstract

The domestication of wolves is a topic of great interest. To date, the most accepted hypotheses associate this phenomenon to the end of the Upper Palaeolithic, while many propose an earlier date closer towards the Aurignacian. The latter proposal hinges on extensive research using palaeontological, morphometric, biomolecular-isotopic, genetic data and microwear contributing valuable information to the current debates. Nevertheless, few confront the theoretical reasoning behind this process, analysing the sociocultural implications that link humans with canids. Under this premise the current overview considers the motivation behind this process while proposing new lines of investigation that may help confront these questions across the indirect methods using new technologies applied study of tooth marks of the sites.

Published

2021