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1,634 results on '"Feldman, Marcus W."'

1. Bayesian estimation of the number of significant principal components for cultural data

Author

Macdonald, Joshua C., Blanco-Portillo, Javier, Feldman, Marcus W., and Ram, Yoav

Subjects
Statistics - Applications, 62P25, 62P10
Abstract

Principal component analysis (PCA) is often used to analyze multivariate data together with cluster analysis, which depends on the number of principal components used. It is therefore important to determine the number of significant principal components (PCs) extracted from a data set. Here we use a variational Bayesian version of classical PCA, to develop a new method for estimating the number of significant PCs in contexts where the number of samples is of a similar to or greater than the number of features. This eliminates guesswork and potential bias in manually determining the number of principal components and avoids overestimation of variance by filtering noise. This framework can be applied to datasets of different shapes (number of rows and columns), different data types (binary, ordinal, categorical, continuous), and with noisy and missing data. Therefore, it is especially useful for data with arbitrary encodings and similar numbers of rows and columns, such as cultural, ecological, morphological, and behavioral datasets. We tested our method on both synthetic data and empirical datasets and found that it may underestimate but not overestimate the number of principal components for the synthetic data. A small number of components was found for each empirical dataset. These results suggest that it is broadly applicable across the life sciences., Comment: 9 pages, 2 figures

Published
2024

2. Conformity to continuous and discrete ordinal traits

Author

Mora, Elisa Heinrich, Denton, Kaleda K., Palmer, Michael E., and Feldman, Marcus W.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

Models of conformity and anti-conformity have typically focused on cultural traits with nominal (unordered) variants, such as baby names, strategies (cooperate/defect), or the presence/absence of an innovation. There have been fewer studies of conformity to "ordinal" cultural traits with ordered variants, such as level of cooperation (low to high) or fraction of time spent on a task (0 to 1). In these latter studies, conformity is conceptualized as a preference for the mean trait value in a population even if no members of the population have variants near this mean; e.g., 50% of the population has variant 0 and 50% has variant 1, producing a mean of 0.5. Here, we introduce models of conformity to ordinal traits, which can be either discrete or continuous and linear (with minimum and maximum values) or circular (without boundaries). In these models, conformists prefer to adopt more popular cultural variants, even if these variants are far from the population mean. To measure a variant's "popularity" in cases where no two individuals share precisely the same variant on a continuum, we introduce a metric called $k$-dispersal; this takes into account a variant's distance to its $k$ closest neighbors, with more "popular" variants having lower distances to their neighbors. We demonstrate through simulations that conformity to ordinal traits need not produce a homogeneous population, as has previously been claimed. Under some combinations of parameter values, conformity sustains substantial trait variation over many generations. Anti-conformist transmission may produce high levels of polarization., Comment: 13 pages, 9 figures, 1 table

Published
2024

6. Cultural transmission of move choice in chess

Author

Lappo, Egor, Rosenberg, Noah A., and Feldman, Marcus W.

Subjects
Physics - Physics and Society, Quantitative Biology - Populations and Evolution
Abstract

The study of cultural evolution benefits from detailed analysis of cultural transmission in specific human domains. Chess provides a platform for understanding the transmission of knowledge due to its active community of players, precise behaviors, and long-term records of high-quality data. In this paper, we perform an analysis of chess in the context of cultural evolution, describing multiple cultural factors that affect move choice. We then build a population-level statistical model of move choice in chess, based on the Dirichlet-multinomial likelihood, to analyze cultural transmission over decades of recorded games played by leading players. For moves made in specific positions, we evaluate the relative effects of frequency-dependent bias, success bias, and prestige bias on the dynamics of move frequencies. We observe that negative frequency-dependent bias plays a role in the dynamics of certain moves, and that other moves are compatible with transmission under prestige bias or success bias. These apparent biases may reflect recent changes, namely the introduction of computer chess engines and online tournament broadcasts. Our analysis of chess provides insights into broader questions concerning how social learning biases affect cultural evolution., Comment: 25 pages

Published
2023

7. Ancestry-specific analyses of genome-wide data confirm the settlement sequence of Polynesia

Author

Ioannidis, Alexander G., Blanco-Portillo, Javier, Hagelberg, Erika, Rodríguez-Rodríguez, Juan Esteban, Fox, Keolu, Hill, Adrian V. S., Bustamante, Carlos D., Feldman, Marcus W., Mentzer, Alexander J., and Moreno-Estrada, Andrés

Subjects
Quantitative Biology - Populations and Evolution, Quantitative Biology - Genomics
Abstract

By demonstrating the role that historical population replacements and waves of admixture have played around the world, the genetics work of Reich and colleagues has provided a paradigm for understanding human history [Reich et al. 2009; Reich et al. 2012; Patterson et al. 2012]. Although we show in Ioannidis et al. [2021] that the peopling of Polynesia was a range expansion, and not, as suggested by Huang et al. [2022], yet another example of waves of admixture and large-scale gene flow between populations, we believe that our result in this recently settled oceanic expanse is the exception that proves the rule., Comment: 6 pages, 1 figure

Published
2022

9. Hunter-gatherer genomes reveal diverse demographic trajectories during the rise of farming in Eastern Africa

Author

Gopalan, Shyamalika, Berl, Richard EW, Myrick, Justin W, Garfield, Zachary H, Reynolds, Austin W, Bafens, Barnabas K, Belbin, Gillian, Mastoras, Mira, Williams, Cole, Daya, Michelle, Negash, Akmel N, Feldman, Marcus W, Hewlett, Barry S, and Henn, Brenna M

Subjects
Biological Sciences, Genetics, Human Genome, Generic health relevance, Zero Hunger, Agriculture, Animals, Demography, Ethiopia, Farmers, Genome, Humans, Eastern Africa, Neolithic transition, Southwest Ethiopia, agriculture, hunter-gatherers, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Psychology
Abstract

The fate of hunting and gathering populations following the rise of agriculture and pastoralism remains a topic of debate in the study of human prehistory. Studies of ancient and modern genomes have found that autochthonous groups were largely replaced by expanding farmer populations with varying levels of gene flow, a characterization that is influenced by the almost universal focus on the European Neolithic.1-5 We sought to understand the demographic impact of an ongoing cultural transition to farming in Southwest Ethiopia, one of the last regions in Africa to experience such shifts.6 Importantly, Southwest Ethiopia is home to several of the world's remaining hunter-gatherer groups, including the Chabu people, who are currently transitioning away from their traditional mode of subsistence.7 We generated genome-wide data from the Chabu and four neighboring populations, the Majang, Shekkacho, Bench, and Sheko, to characterize their genetic ancestry and estimate their effective population sizes over the last 60 generations. We show that the Chabu are a distinct population closely related to ancient people who occupied Southwest Ethiopia >4,500 years ago. Furthermore, the Chabu are undergoing a severe population bottleneck, which began approximately 1,400 years ago. By analyzing eleven Eastern African populations, we find evidence for divergent demographic trajectories among hunter-gatherer-descendant groups. Our results illustrate that although foragers respond to encroaching agriculture and pastoralism with multiple strategies, including cultural adoption of agropastoralism, gene flow, and economic specialization, they often face population decline.

Published
2022

15. Disease transmission and introgression can explain the long-lasting contact zone of modern humans and Neanderthals.

Author

Greenbaum, Gili, Getz, Wayne M, Rosenberg, Noah A, Feldman, Marcus W, Hovers, Erella, and Kolodny, Oren

Abstract

Neanderthals and modern humans both occupied the Levant for tens of thousands of years prior to the spread of modern humans into the rest of Eurasia and their replacement of the Neanderthals. That the inter-species boundary remained geographically localized for so long is a puzzle, particularly in light of the rapidity of its subsequent movement. Here, we propose that infectious-disease dynamics can explain the localization and persistence of the inter-species boundary. We further propose, and support with dynamical-systems models, that introgression-based transmission of alleles related to the immune system would have gradually diminished this barrier to pervasive inter-species interaction, leading to the eventual release of the inter-species boundary from its geographic localization. Asymmetries between the species in the characteristics of their associated 'pathogen packages' could have generated feedback that allowed modern humans to overcome disease burden earlier than Neanderthals, giving them an advantage in their subsequent spread into Eurasia.

Published
2019

16. The great human expansion

Author

Henn, Brenna M, Cavalli-Sforza, LL, and Feldman, Marcus W

Subjects
Genetics, Human Genome, Generic health relevance, Curriculum and Pedagogy
Abstract

Genetic and paleoanthropological evidence is in accord that today’s human population is the result of a great demic (demographic and geographic) expansion that began approximately 45,000 to 60,000 y ago in Africa and rapidly resulted in human occupation of almost all of the Earth’s habitable regions. Genomic data from contemporary humans suggest that this expansion was accompanied by a continuous loss of genetic diversity, a result of what is called the “serial founder effect.” In addition to genomic data, the serial founder effect model is now supported by the genetics of human parasites, morphology, and linguistics. This particular population history gave rise to the two defining features of genetic variation in humans: genomes from the substructured populations of Africa retain an exceptional number of unique variants, and there is a dramatic reduction in genetic diversity within populations living outside of Africa. These two patterns are relevant for medical genetic studies mapping genotypes to phenotypes and for inferring the power of natural selection in human history. It should be appreciated that the initial expansion and subsequent serial founder effect were determined by demographic and sociocultural factors associated with hunter-gatherer populations. How do we reconcile this major demic expansion with the population stability that followed for thousands years until the inventions of agriculture? We review advances in understanding the genetic diversity within Africa and the great human expansion out of Africa and offer hypotheses that can help to establish a more synthetic view of modern human evolution.

Published
2019

18. The refinement paradox and cumulative cultural evolution: Complex products of collective improvement favor conformist outcomes, blind copying, and hyper-credulity.

Author

Miu, Elena, Rendell, Luke, Bowles, Sam, Boyd, Rob, Cownden, Daniel, Enquist, Magnus, Eriksson, Kimmo, Feldman, Marcus W., Lillicrap, Timothy, McElreath, Richard, Murray, Stuart, Ounsley, James, and Lala, Kevin N.

Subjects
SOCIAL evolution, SOCIAL learning, PRODUCT improvement, TOURNAMENTS, CONFORMITY
Abstract

Social learning is common in nature, yet cumulative culture (where knowledge and technology increase in complexity and diversity over time) appears restricted to humans. To understand why, we organized a computer tournament in which programmed entries specified when to learn new knowledge and when to refine (i.e. improve) existing knowledge. The tournament revealed a 'refinement paradox': refined behavior afforded higher payoffs as individuals converged on a small number of successful behavioral variants, but refining did not generally pay. Paradoxically, entries that refined only in certain conditions did best during behavioral improvement, while simple copying entries thrived when refinement levels were high. Cumulative cultural evolution may be rare in part because sophisticated strategies for improving knowledge and technology are initially advantageous, yet complex culture, once achieved, favors conformity, blind imitation and hyper-credulity. Author summary: Although social learning, culture, and traditions are found in animals, why humans seem to be the only species that builds on knowledge and technology over generations is still not fully understood. Here we organized a computer tournament in which programmed entries specified when to learn new knowledge and when to refine (i.e. improve upon) existing knowledge. We found a 'refinement paradox': while using refined behavior was beneficial to individuals, it was not beneficial to be the one doing the refining. Entries that refined selectively, only under limited conditions, did well while refinement levels increased, but once refinement was high simple entries that did not refine thrived. This result might explain why cumulative culture is rare in nature: sophisticated strategies for improving knowledge are initially advantageous, but once complex culture is common it pays to conform to the behavior of others and copy blindly. [ABSTRACT FROM AUTHOR]

Published
2024
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20. The refinement paradox and cumulative cultural evolution: collective improvement in knowledge favors conformity, blind copying and hyper-credulity

Author

Miu, Elena, primary, Rendell, Luke, additional, Bowles, Sam, additional, Boyd, Rob, additional, Cownden, Daniel, additional, Enquist, Magnus, additional, Eriksson, Kimmo, additional, Feldman, Marcus W., additional, Lillicrap, Timothy, additional, McElreath, Richard, additional, Murray, Stuart, additional, Ounsley, James, additional, and Lala, Kevin N., additional

Published
2024
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24. An Unexpectedly Complex Architecture for Skin Pigmentation in Africans

Author

Martin, Alicia R, Lin, Meng, Granka, Julie M, Myrick, Justin W, Liu, Xiaomin, Sockell, Alexandra, Atkinson, Elizabeth G, Werely, Cedric J, Möller, Marlo, Sandhu, Manjinder S, Kingsley, David M, Hoal, Eileen G, Liu, Xiao, Daly, Mark J, Feldman, Marcus W, Gignoux, Christopher R, Bustamante, Carlos D, and Henn, Brenna M

Subjects
Biological Sciences, Genetics, Human Genome, Skin, Africa, Black People, Humans, Polymorphism, Single Nucleotide, Skin Pigmentation, heritability, human evolution, pigmentation, population genetics, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Approximately 15 genes have been directly associated with skin pigmentation variation in humans, leading to its characterization as a relatively simple trait. However, by assembling a global survey of quantitative skin pigmentation phenotypes, we demonstrate that pigmentation is more complex than previously assumed, with genetic architecture varying by latitude. We investigate polygenicity in the KhoeSan populations indigenous to southern Africa who have considerably lighter skin than equatorial Africans. We demonstrate that skin pigmentation is highly heritable, but known pigmentation loci explain only a small fraction of the variance. Rather, baseline skin pigmentation is a complex, polygenic trait in the KhoeSan. Despite this, we identify canonical and non-canonical skin pigmentation loci, including near SLC24A5, TYRP1, SMARCA2/VLDLR, and SNX13, using a genome-wide association approach complemented by targeted resequencing. By considering diverse, under-studied African populations, we show how the architecture of skin pigmentation can vary across humans subject to different local evolutionary pressures.

Published
2017

25. Worldwide patterns of human epigenetic variation

Author

Carja, Oana, MacIsaac, Julia L, Mah, Sarah M, Henn, Brenna M, Kobor, Michael S, Feldman, Marcus W, and Fraser, Hunter B

Subjects
Biological Sciences, Genetics, Biotechnology, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, DNA Methylation, Epigenesis, Genetic, Gene Expression, Genetic Variation, Genotype, Humans, Ecology, Evolutionary biology, Environmental management
Abstract

DNA methylation is an epigenetic modification, influenced by both genetic and environmental variation, that plays a key role in transcriptional regulation and many organismal phenotypes. Although patterns of DNA methylation have been shown to differ between human populations, it remains to be determined how epigenetic diversity relates to the patterns of genetic and gene expression variation at a global scale. Here we measured DNA methylation at 485,000 CpG sites in five diverse human populations, and analysed these data together with genome-wide genotype and gene expression data. We found that population-specific DNA methylation mirrors genetic variation, and has greater local genetic control than mRNA levels. We estimated the rate of epigenetic divergence between populations, which indicates far greater evolutionary stability of DNA methylation in humans than has been observed in plants. This study provides a deeper understanding of worldwide patterns of human epigenetic diversity, as well as initial estimates of the rate of epigenetic divergence in recent human evolution.

Published
2017

27. Trends in DNA Methylation with Age Replicate Across Diverse Human Populations.

Author

Gopalan, Shyamalika, Carja, Oana, Fagny, Maud, Patin, Etienne, Myrick, Justin W, McEwen, Lisa M, Mah, Sarah M, Kobor, Michael S, Froment, Alain, Feldman, Marcus W, Quintana-Murci, Lluis, and Henn, Brenna M

Subjects
Humans, Acetyltransferases, DNA Methylation, CpG Islands, Aging, Genotype, Quantitative Trait Loci, Genome, Human, Adolescent, Adult, Aged, Aged, 80 and over, Middle Aged, Child, African Continental Ancestry Group, Population, Female, Male, Promoter Regions, Genetic, Genetic Variation, Fatty Acid Elongases, DNA methylation, aging, diverse human populations, epigenetics, Developmental Biology, Genetics
Abstract

Aging is associated with widespread changes in genome-wide patterns of DNA methylation. Thousands of CpG sites whose tissue-specific methylation levels are strongly correlated with chronological age have been previously identified. However, the majority of these studies have focused primarily on cosmopolitan populations living in the developed world; it is not known if age-related patterns of DNA methylation at these loci are similar across a broad range of human genetic and ecological diversity. We investigated genome-wide methylation patterns using saliva- and whole blood-derived DNA from two traditionally hunting and gathering African populations: the Baka of the western Central African rain forest and the ≠Khomani San of the South African Kalahari Desert. We identified hundreds of CpG sites whose methylation levels are significantly associated with age, thousands that are significant in a meta-analysis, and replicate trends previously reported in populations of non-African descent. We confirmed that an age-associated site in the promoter of the gene ELOVL2 shows a remarkably congruent relationship with aging in humans, despite extensive genetic and environmental variation across populations. We also demonstrate that genotype state at methylation quantitative trait loci (meQTLs) can affect methylation trends at some age-associated CpG sites. Our study explores the relationship between CpG methylation and chronological age in populations of African hunter-gatherers, who rely on different diets across diverse ecologies. While many age-related CpG sites replicate across populations, we show that considering common genetic variation at meQTLs further improves our ability to detect previously identified age associations.

Published
2017

39. A High-Resolution Human Contact Network for Infectious Disease Transmission

Author

Salathé, Marcel, Kazandjieva, Maria, Lee, Jung Woo, Levis, Philip, Feldman, Marcus W., and Jones, James H.

Subjects
Physics - Medical Physics, Physics - Physics and Society, Quantitative Biology - Quantitative Methods
Abstract

The most frequent infectious diseases in humans - and those with the highest potential for rapid pandemic spread - are usually transmitted via droplets during close proximity interactions (CPIs). Despite the importance of this transmission route, very little is known about the dynamic patterns of CPIs. Using wireless sensor network technology, we obtained high-resolution data of CPIs during a typical day at an American high school, permitting the reconstruction of the social network relevant for infectious disease transmission. At a 94% coverage, we collected 762,868 CPIs at a maximal distance of 3 meters among 788 individuals. The data revealed a high density network with typical small world properties and a relatively homogenous distribution of both interaction time and interaction partners among subjects. Computer simulations of the spread of an influenza-like disease on the weighted contact graph are in good agreement with absentee data during the most recent influenza season. Analysis of targeted immunization strategies suggested that contact network data are required to design strategies that are significantly more effective than random immunization. Immunization strategies based on contact network data were most effective at high vaccination coverage.

Published
2010
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40. The role of migration in the evolution of phenotypic switching

Author

Carja, Oana, Furrow, Robert E, and Feldman, Marcus W

Subjects
Biological Sciences, Evolutionary Biology, Adaptation, Physiological, Animal Migration, Biological Evolution, Environment, Genetics, Population, Models, Genetic, Phenotype, Selection, Genetic, Stochastic Processes, phenotypic switching, bet hedging, fluctuating environments, subdivided populations, Agricultural and Veterinary Sciences, Medical and Health Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences
Abstract

Stochastic switching is an example of phenotypic bet hedging, where an individual can switch between different phenotypic states in a fluctuating environment. Although the evolution of stochastic switching has been studied when the environment varies temporally, there has been little theoretical work on the evolution of phenotypic switching under both spatially and temporally fluctuating selection pressures. Here, we explore the interaction of temporal and spatial change in determining the evolutionary dynamics of phenotypic switching. We find that spatial variation in selection is important; when selection pressures are similar across space, migration can decrease the rate of switching, but when selection pressures differ spatially, increasing migration between demes can facilitate the evolution of higher rates of switching. These results may help explain the diverse array of non-genetic contributions to phenotypic variability and phenotypic inheritance observed in both wild and experimental populations.

Published
2014

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