Your search keyword '"Villmoare B"' showing total 15 results

1. Briefings

Author

Bouquet, A., Mousis, O., Waite, J. H., Picaud, S., Hsu, H.-W., Goel, S., DiMaggio, E. N., Villmoare, B., Piazza, L., and Luef, B.

Published

2015

2. Continuous dental eruption identifies Sts 5 as the developmentally oldest fossil hominin and informs the taxonomy of Australopithecus africanus

Author

Villmoare, B., Kuykendall, K., Rae, T.C., and Brimacombe, C.S.

Published

2013

3. Randomization methods to analyze variation in non-metric characters, and the single-species hypothesis for Homo erectus

Author

VILLMOARE, B.

Subjects

Fossils -- Demographic aspects, Experimental design -- Evaluation, Anthropological research -- Analysis, Anthropology/archeology/folklore

Abstract

Both metric and non-metric characters have traditionally been used in alpha taxonomy, but frequently only metric characters are used to compare ranges of variation in known and putative species. One of the applications of metric characters has been in resampling, in which the statistical result is the probability that a fossil sample with a given level of variation could have been derived from a single-species comparative sample. However, to date, resampling strategies have not employed non-metric characters in the same manner. In the present study, a suite of non-metric characters is employed to investigate the range of variation in a fossil sample, for the purpose of testing the single-species hypothesis. Several workers have offered a list of non-metric characters which may differentiate between African and Asian specimens of Homo erectus sufficiently to warrant their designation as separate species. However, it is important to address the possible effects of intraspecific variation in a statistical manner. Therefore, to examine whether the amount of differentiation observed in these characters exceeded what might be expected in a geographically widespread species, I examined the variation in ten characters in a collection of 221 modern humans from Africa and Asia. Following Lahr (1994), and using her standards on two of the characters, a grading scale was created which encompassed the total morphological variation found in the fossil and modern human samples. The Manhattan distance between the Asian and African fossil samples was calculated and compared to a distribution of distances calculated for 1000 randomly selected and bootstrapped samples of African and Asian moderns. The difference between the total Manhattan distance for the fossil sample and those calculated from the resampled moderns approached statistical significance (at [micro] = .05), essentially falsifying the single-species null hypothesis. For any single character, however, the fossil sample's distance varied from the 1st percentile to the 100th of the comparative sample, suggesting that not all of the characters were equally effective at discriminating between the Asian and African fossil samples.

Published

2001

4. Evolutionary origins of temporal discounting: Modeling how time and uncertainty constrain optimal decision-making strategies across taxa.

Author

Villmoare B, Klein D, Liénard P, and McHale TS

Subjects

Uncertainty, Animals, Humans, Biological Evolution, Time Factors, Reward, Decision Making, Delay Discounting physiology

Abstract

The propensity of humans and non-human animals to discount future returns for short-term benefits is well established. This contrasts with the ability of organisms to unfold complex developmental sequences over months or years efficiently. Research has focused on various descriptive and predictive parameters of 'temporal discounting' in behavior, and researchers have proposed models to explain temporal preference in terms of fitness-maximizing outcomes. Still, the underlying ultimate cause of this phenomenon has not been deeply explored across taxa. Here, we propose an ultimate (i.e., evolutionary) causal explanation for the selection of temporal discounting largely conserved across taxa. We propose that preference for a short-term reward (e.g., heightened impulsivity) often is less than optimal and likely is the product of constraints imposed on natural selection with respect to predicting events in a temporal framework in the context of future uncertainty. Using a simple Newtonian model for time across a fitness landscape in which movement by organisms is only possible in one direction, we examine several factors that influence the ability of an organism to choose a distant reward over a more temporally proximate reward: including the temporal distance of the far reward, the relative value of the distant reward, and the effect of uncertainty about the value and presence of the distant reward. Our results indicate that an organism may choose a more distant reward, but only if it is not too far into the future and has a substantially higher-value fitness payoff relative to the short-term reward. Notably, any uncertainty about the distant reward made it extremely unlikely for an organism to choose the delayed reward strategy compared to choosing a closer reward, even if the distant reward had a much higher payoff because events that are uncertain are only partially visible to natural selection pressures. The results help explain why natural selection is constrained to promote more optimal behavioral strategies and why it has difficulty selecting a distant reward over a lower-value short-term reward. The degree of uncertainty is an especially salient ecological variable in promoting and preferencing short-term behavioral strategies across taxa. These results further help illustrate why, from an ultimate causal perspective, human and non-human taxa have difficulty making more optimal long-term decisions., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Villmoare et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

5. On the scientific credibility of paleoanthropology.

Author

Villmoare B and Kimbel W

Subjects

Humans, Anthropology, Physical, Biological Evolution, Animals, Hominidae, Paleontology, Fossils

Abstract

Smith and Smith and Wood proposed that the human fossil record offers special challenges for causal hypotheses because "unique" adaptations resist the comparative method. We challenge their notions of "uniqueness" and offer a refutation of the idea that there is something epistemologically special about human prehistoric data. Although paleontological data may be sparse, there is nothing inherent about this information that prevents its use in the inductive or deductive process, nor in the generation and testing of scientific hypotheses. The imprecision of the fossil record is well-understood, and such imprecision is often factored into hypotheses and methods. While we acknowledge some oversteps within the discipline, we also note that the history of paleoanthropology is clearly one of progress, with ideas tested and resolution added as data (fossils) are uncovered and new technologies applied, much like in sciences as diverse as astronomy, molecular genetics, and geology., (© 2024 Wiley Periodicals LLC.)

Published

2024

6. Sexual dimorphism in Homo erectus inferred from 1.5 Ma footprints near Ileret, Kenya.

Author

Villmoare B, Hatala KG, and Jungers W

Subjects

Animals, Anthropometry, Biological Evolution, Body Size, Female, Foot anatomy & histology, Gorilla gorilla anatomy & histology, Humans, Kenya, Male, Pan paniscus anatomy & histology, Pan troglodytes anatomy & histology, Sex Characteristics, Social Behavior, Species Specificity, Fossils, Hominidae anatomy & histology

Abstract

Sexual dimorphism can be one of the most important indicators of social behavior in fossil species, but the effects of time averaging, geographic variation, and differential preservation can complicate attempts to determine this measure from preserved skeletal anatomy. Here we present an alternative, using footprints from near Ileret, Kenya, to assess the sexual dimorphism of presumptive African Homo erectus at 1.5 Ma. Footprint sites have several unique advantages not typically available to fossils: a single surface can sample a population over a very brief time (in this case likely not more than a single day), and the data are geographically constrained. Further, in many cases, the samples can be much larger than those from skeletal fossil assemblages. Our results indicate that East African Homo erectus was more dimorphic than modern Homo sapiens, although less so than highly dimorphic apes, suggesting that the Ileret footprints offer a unique window into an important transitional period in hominin social behavior.

Published

2019

7. Primate modularity and evolution: first anatomical network analysis of primate head and neck musculoskeletal system.

Author

Powell V, Esteve-Altava B, Molnar J, Villmoare B, Pettit A, and Diogo R

Subjects

Animals, Facial Muscles physiology, Head physiology, Humans, Neck physiology, Neck Muscles physiology, Primates anatomy & histology, Primates physiology, Species Specificity, Biological Evolution, Facial Muscles anatomy & histology, Head anatomy & histology, Musculoskeletal Physiological Phenomena, Neck anatomy & histology, Neck Muscles anatomy & histology

Abstract

Network theory is increasingly being used to study morphological modularity and integration. Anatomical network analysis (AnNA) is a framework for quantitatively characterizing the topological organization of anatomical structures and providing an operational way to compare structural integration and modularity. Here we apply AnNA for the first time to study the macroevolution of the musculoskeletal system of the head and neck in primates and their closest living relatives, paying special attention to the evolution of structures associated with facial and vocal communication. We show that well-defined left and right facial modules are plesiomorphic for primates, while anthropoids consistently have asymmetrical facial modules that include structures of both sides, a change likely related to the ability to display more complex, asymmetrical facial expressions. However, no clear trends in network organization were found regarding the evolution of structures related to speech. Remarkably, the increase in the number of head and neck muscles - and thus of musculoskeletal structures - in human evolution led to a decrease in network density and complexity in humans.

Published

2018

8. Early Homo and the role of the genus in paleoanthropology.

Author

Villmoare B

Subjects

Animals, Biological Evolution, Female, Fossils, Humans, Male, Phylogeny, Hominidae classification, Paleontology methods

Abstract

The history of the discovery of early fossils attributed to the genus Homo has been contentious, with scholars disagreeing over the generic assignment of fossils proposed as members of our genus. In this manuscript I review the history of discovery and debate over early Homo and evaluate the various taxonomic hypotheses for the genus. To get a sense of how hominin taxonomy compares to taxonomic practice outside paleoanthropology, I compare the diversity of Homo to genera in other vertebrate clades. Finally, I propose a taxonomic model that hews closely to current models for hominin phylogeny and is consistent with taxonomic practice across evolutionary biology., (© 2018 American Association of Physical Anthropologists.)

Published

2018

9. From Australopithecus to Homo: the transition that wasn't.

Author

Kimbel WH and Villmoare B

Subjects

Animals, Brain anatomy & histology, Brain physiology, Cultural Evolution, Hand anatomy & histology, Humans, Technology, Tool Use Behavior, Biological Evolution, Fossils anatomy & histology, Hominidae anatomy & histology, Hominidae physiology

Abstract

Although the transition from Australopithecus to Homo is usually thought of as a momentous transformation, the fossil record bearing on the origin and earliest evolution of Homo is virtually undocumented. As a result, the poles of the transition are frequently attached to taxa (e.g. A. afarensis, at ca 3.0 Ma versus H. habilis or H. erectus, at ca 2.0-1.7 Ma) in which substantial adaptive differences have accumulated over significant spans of independent evolution. Such comparisons, in which temporally remote and adaptively divergent species are used to identify a 'transition', lend credence to the idea that genera should be conceived at once as monophyletic clades and adaptively unified grades. However, when the problem is recast in terms of lineages, rather than taxa per se, the adaptive criterion becomes a problem of subjectively privileging 'key' characteristics from what is typically a stepwise pattern of acquisition of novel characters beginning in the basal representatives of a clade. This is the pattern inferred for species usually included in early Homo, including H. erectus, which has often been cast in the role as earliest humanlike hominin. A fresh look at brain size, hand morphology and earliest technology suggests that a number of key Homo attributes may already be present in generalized species of Australopithecus, and that adaptive distinctions in Homo are simply amplifications or extensions of ancient hominin trends.This article is part of the themed issue 'Major transitions in human evolution'., (© 2016 The Author(s).)

Published

2016

10. Pleistocene footprints show intensive use of lake margin habitats by Homo erectus groups.

Author

Roach NT, Hatala KG, Ostrofsky KR, Villmoare B, Reeves JS, Du A, Braun DR, Harris JW, Behrensmeyer AK, and Richmond BG

Subjects

Animals, Archaeology, Body Size, Fossils, Hominidae physiology, Humans, Kenya, Geologic Sediments analysis, Hominidae anatomy & histology

Abstract

Reconstructing hominin paleoecology is critical for understanding our ancestors' diets, social organizations and interactions with other animals. Most paleoecological models lack fine-scale resolution due to fossil hominin scarcity and the time-averaged accumulation of faunal assemblages. Here we present data from 481 fossil tracks from northwestern Kenya, including 97 hominin footprints attributed to Homo erectus. These tracks are found in multiple sedimentary layers spanning approximately 20 thousand years. Taphonomic experiments show that each of these trackways represents minutes to no more than a few days in the lives of the individuals moving across these paleolandscapes. The geology and associated vertebrate fauna place these tracks in a deltaic setting, near a lakeshore bordered by open grasslands. Hominin footprints are disproportionately abundant in this lake margin environment, relative to hominin skeletal fossil frequency in the same deposits. Accounting for preservation bias, this abundance of hominin footprints indicates repeated use of lakeshore habitats by Homo erectus. Clusters of very large prints moving in the same direction further suggest these hominins traversed this lakeshore in multi-male groups. Such reliance on near water environments, and possibly aquatic-linked foods, may have influenced hominin foraging behavior and migratory routes across and out of Africa.

Published

2016

11. The evolutionary origin and population history of the grauer gorilla.

Author

Tocheri MW, Dommain R, McFarlin SC, Burnett SE, Troy Case D, Orr CM, Roach NT, Villmoare B, Eriksen AB, Kalthoff DC, Senck S, Assefa Z, Groves CP, and Jungers WL

Subjects

Africa, Central, Africa, Eastern, Animals, Environment, Female, Foot Bones anatomy & histology, Fossils, Male, Phylogeny, Biological Evolution, Gorilla gorilla anatomy & histology, Gorilla gorilla classification, Gorilla gorilla genetics, Gorilla gorilla physiology

Abstract

Gorillas living in western central Africa (Gorilla gorilla) are morphologically and genetically distinguishable from those living in eastern central Africa (Gorilla beringei). Genomic analyses show eastern gorillas experienced a significant reduction in population size during the Pleistocene subsequent to geographical isolation from their western counterparts. However, how these results relate more specifically to the recent biogeographical and evolutionary history of eastern gorillas remains poorly understood. Here we show that two rare morphological traits are present in the hands and feet of both eastern gorilla subspecies at strikingly high frequencies (>60% in G. b. graueri; ∼28% in G. b. beringei) in comparison with western gorillas (<1%). The intrageneric distribution of these rare traits suggests that they became common among eastern gorillas after diverging from their western relatives during the early to middle Pleistocene. The extremely high frequencies observed among grauer gorillas-which currently occupy a geographic range more than ten times the size of that of mountain gorillas-imply that grauers originated relatively recently from a small founding population of eastern gorillas. Current paleoenvironmental, geological, and biogeographical evidence supports the hypothesis that a small group of eastern gorillas likely dispersed westward from the Virungas into present-day grauer range in the highlands just north of Lake Kivu, either immediately before or directly after the Younger Dryas interval. We propose that as the lowland forests of central Africa expanded rapidly during the early Holocene, they became connected with the expanding highland forests along the Albertine Rift and enabled the descendants of this small group to widely disperse. The descendant populations significantly expanded their geographic range and population numbers relative to the gorillas of the Virunga Mountains and the Bwindi-Impenetrable Forest, ultimately resulting in the grauer gorilla subspecies recognized today. This founder-effect hypothesis offers some optimism for modern conservation efforts to save critically endangered eastern gorillas from extinction., (© 2016 Wiley Periodicals, Inc.)

Published

2016

12. PALEOANTHROPOLOGY. Response to Comment on "Early Homo at 2.8 Ma from Ledi-Geraru, Afar, Ethiopia".

Author

Villmoare B, Kimbel WH, Seyoum C, Campisano CJ, DiMaggio E, Rowan J, Braun DR, Arrowsmith JR, and Reed KE

Subjects

Animals, Humans, Biological Evolution, Hominidae anatomy & histology

Abstract

Hawks et al. argue that our analysis of Australopithecus sediba mandibles is flawed and that specimen LD 350-1 cannot be distinguished from this, or any other, Australopithecus species. Our reexamination of the evidence confirms that LD 350-1 falls outside of the pattern that A. sediba shares with Australopithecus and thus is reasonably assigned to the genus Homo., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

13. Paleoanthropology. Early Homo at 2.8 Ma from Ledi-Geraru, Afar, Ethiopia.

Author

Villmoare B, Kimbel WH, Seyoum C, Campisano CJ, DiMaggio EN, Rowan J, Braun DR, Arrowsmith JR, and Reed KE

Subjects

Animals, Ethiopia, Fossils, Humans, Mandible anatomy & histology, Tooth anatomy & histology, Biological Evolution, Hominidae anatomy & histology

Abstract

Our understanding of the origin of the genus Homo has been hampered by a limited fossil record in eastern Africa between 2.0 and 3.0 million years ago (Ma). Here we report the discovery of a partial hominin mandible with teeth from the Ledi-Geraru research area, Afar Regional State, Ethiopia, that establishes the presence of Homo at 2.80 to 2.75 Ma. This specimen combines primitive traits seen in early Australopithecus with derived morphology observed in later Homo, confirming that dentognathic departures from the australopith pattern occurred early in the Homo lineage. The Ledi-Geraru discovery has implications for hypotheses about the timing and place of origin of the genus Homo., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

14. Satb2, modularity, and the evolvability of the vertebrate jaw.

Author

Fish JL, Villmoare B, Köbernick K, Compagnucci C, Britanova O, Tarabykin V, and Depew MJ

Subjects

Animals, Chickens, Fibroblast Growth Factor 8 genetics, Fibroblast Growth Factor 8 metabolism, Gene Dosage, Gene Expression Regulation, Developmental, Genetic Variation, Mandible anatomy & histology, Matrix Attachment Region Binding Proteins genetics, Mesoderm embryology, Mice, RNA, Messenger biosynthesis, Transcription Factors genetics, Xenopus, Zebrafish, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, Biological Evolution, Mandible embryology, Matrix Attachment Region Binding Proteins metabolism, Transcription Factors metabolism

Abstract

Modularity is a key mechanism bridging development and evolution and is fundamental to evolvability. Herein, we investigate modularity of the Vertebrate jaw with the aim of understanding mechanisms of its morphological evolution. Conservation of the basic structural bauplan of Vertebrate jaws led to a Hinge and Caps model, in which polarity in the patterning system of developing jaws predicts modularity. We have tested the hypothesis that the Satb2+ cell population delineates a developmental module within the mandibular jaw. Satb2 is expressed in the mesenchyme of the jaw primordia that gives rise to distal elements of both the upper and lower jaws. Loss of Satb2 specifically affects structural elements of the distal (incisor) domain, reflecting the integration of these elements as well as their independence from other mandibular domains. Reducing Satb2 dosage leads to an increase in variation in mandibular length, providing insight into the developmental potential to generate variation. Inter-taxa comparisons reveal that the Satb2 domain is conserved within gnathostomes. We complement previous loss of function studies in mice with gene knock-down experiments in Xenopus, providing evidence for functional conservation of Satb2 in regulating size. Finally, we present evidence that the relative size of the amniote mandibular Satb2+ domain varies in relation to epithelial Fgf8 expression, suggesting a mechanism for evolutionary change in this domain. Taken together, our data support the Hinge and Caps model and provide evidence that Satb2 regulates coordinated distal jaw modules that are subject to evolutionary modification by signals emanating from the Hinge., (© 2011 Wiley Periodicals, Inc.)

Published

2011

15. Metric and non-metric randomization methods, geographic variation, and the single-species hypothesis for Asian and African Homo erectus.

Author

Villmoare B

Subjects

Africa, Analysis of Variance, Animals, Anthropology, Asia, Biological Evolution, Data Interpretation, Statistical, Geography, Metric System, Paleontology, Population Dynamics, Random Allocation, Sampling Studies, Species Specificity, Data Collection methods, Fossils, Hominidae anatomy & histology, Hominidae classification, Skull anatomy & histology

Abstract

This paper proposes a statistical test of the single-species hypothesis using non-metric characters as a complement to statistical tests using more traditional metric characters. The sample examined is that of Asian and African Homo erectus. The paleoanthropological community is divided on the taxonomic distinction of these fossils, with workers arguing both for and against the species-level distinction between Asian and African populations. Previous arguments have focused on patterns of apparent morphological differentiation between the African and Asian cranial samples. To assess this question, three tests were performed that compared the range of variation in the fossil sample to a single-species group with a similar geographic distribution; this comparative sample was composed of 221 modern humans from Africa and Asia. For the first test, 23 metric characters were analyzed on the fossil and comparative samples. Using resampling procedures, the variation for these characters was examined, recreating 1000 samples from the human analogs and comparing the CV distributions of these samples to the CVs of the fossil group. The second test used the metric data to calculate a Euclidean distance between the African and Asian fossil samples. This distance was compared to a distribution of Euclidean distances calculated between 1000 randomly selected samples of African and Asian modern humans. For the third test, a grading scale was created for ten non-metric characters that encompassed the total morphological variation found in the fossil and modern human samples. The Manhattan distance between the Asian and African fossil samples was calculated and compared to a distribution of distances calculated between 1000 randomly selected samples of African and Asian moderns. The first two tests, using the metric data, failed to falsify the null hypothesis. However, in the third test, using non-metric data, the total Manhattan distance for the fossil sample approached the 100th percentile of the resampled distances calculated from the moderns. The implications of the contrasting results are discussed.

Published

2005