What is individual quality? An evolutionary

... fitness? Should major axes of variation be summarised in the phenotypic covariance matrix or in the corresponding correlation matrix (as used by Hamel et al. [17]). Being standardised, using the correlation matrix will protect against potentially misleading scale effects (e.g. if different traits ar ...

What Causes Phenotypic Variation Among Individuals

... • Up until now, we have dealt with characters (actually genotypes) controlled by a single locus, with only two alleles: ...

One - ciese

Size Variation in Drosophila melanogaster

... difference (diffStat) between the four possible large-small comparisons was used as a composite statistic (Figure 3). Most (74%) variants had diffStats ,0.10, with just over 4% (76,719) of variants having diffStats .0.50. To determine a set of loci that are likely to have evolved under selection for ...

Wheeler Quantitative Genetics

... young field tests, with small plot sizes (dozens of trees) – These are used extensively in TI to guide programs and strategies – Gains of 0 to 10% in mass selection, and 10-20% in subsequent generations of selection are common. • Realized genetic gain – Retrospective estimate based on large field tr ...

BRANCHES OF ANTHROPOLOGY

... Psychological Anthropology, Anthropology of Religion and so on and so forth. We shall overview only these subbranches of major interest. a) Economic Anthropology: Production, consumption distribution and exchange are the basic structures of economic transactions and its processes. Economic Anthropol ...

Genetic Variation of Multilocus Traits

... A quantitative trait is influenced by two loci. Locus 1 has alleles A and a, and locus 2 has alleles B and b. The frequency of the A allele is .2 and the frequency of the B allele is .5 in a population. The two loci are unlinked and the population is in HWE at the two loci. ...

Anthropology fa l l 2 0 1 5 ...

... Non-human primates occupy habitats as diverse as tropical forests to snow covered mountains, weigh from 0.15lbs to 400lbs, and range in groups from 2 to 250 individuals. In Primate Science: Ecology, Evolution, and Conservation, we will use both evolutionary and ecological approaches to study the div ...

Introduction to Genetic Algorithms - computer science

... algorithm with some of the innovative flair of human search. In every generation, a new set of artificial creatures (strings) is created using bits and pieces of the fittest of the old; an occasional new part is tried for good measure. While randomized, genetic algorithms are no simple random walk. ...

A View of Life

... Genetic Mutations – Once alleles have mutated, certain combinations of alleles might be more adaptive than others in a particular environment. Gene Flow – Movement of alleles between populations by migration of breeding individuals.  Continual gene flow reduces variability between populations. Made ...

Quantitative genetics of feeding behavior in two ecological

... plant without taking the time to find the phloem, which is the actual food source (Caillaud and Via, 2000). This rapid assessment of plant type involves tasting cells in the leaf or stem tissue nearly as soon as the feeding stylets are inserted into the plant. The decision to accept or reject depend ...

How and When Selection Experiments Might Actually be

... the thermal environment. Working from this hypothesis, Partridge and colleagues undertook an LNS experiment on D. melanogaster by maintaining lines under two thermal environments, 16.58C or 258C. These lines diverged in several traits: development time (Huey et al., 1991), thermal tolerance (Huey et ...

werribee secondary college vce unit planner ~ 2004

... Friday: The causes of phenotypic variation, mutations, recombinations of parental alleles in sexual reproduction, polygenes and interactions of environmental factors with genes ...

Module 2: Introduction to Conventional Tree - Dendrome

... based in both of these disciplines, so materials introduced in this module are the foundation for all subsequent modules. Key Messages  Allele and genotype frequencies are easily related one to the other when populations are unaffected by evolutionary forces, sampling errors are inconsequential, an ...

The Evolutionary Unfolding of Complexity

... a macromolecular system that could be manipulated to solve this well known hard problem 2]. Whether we are interested in this middle ground or adopt a scientic or an engineering view, one still needs a mathematical framework with which to analyze how a population of individuals (or of candidate so ...

Model of Interaction between Learning and

... values N and n do not change in the course of evolution. Symbols SGki are equal to 0 or 1. We assume that N is so large that only a small part of possible 2N genotypes can be presented in a particular population: 2N >> n. Typical values N and n in our computer simulations are as follows: N ~ n ~ 100 ...

Questions about some uses of genetic engineering

... transformation might be beneficial to a degree we can now scarcely imagine. The question is: how are we to weigh this possibility against Tinbergen's objection, and against other objections and doubts? For the rest of this discussion, I shall assume that, subject to adequate safeguards against thing ...

Lecture PDF - Carol Eunmi LEE

... Genetic changes that occur because the gene was right next to another gene on a chromosome that was under selection ...

Evolution by Imitation Gabriel Tarde and the Limits of Memetics

... memetic venture.6 All memeticists agree that memes are replicators just like genes. As such, the evolutionary triad of replication, variation and selection applies to memes just as it does to genes. Whereas genes replicate by inheritance, memes replicate by imitation; indeed this way of replication ...

The Evolutionary Reduction Principle for Linear Variation in Genetic

... includes gene conversion, methylation, deletions, duplications, insertions, transpositions, and other chromosomal alterations. These two processes, augmented by a third — the randomness of sampling in finite populations — provide the basis for our causal explanations of the characteristics of organ ...

Lecture PPT - Carol Eunmi LEE

... (1) The trait must be heritable (2) The differences between populations are genetically based differences rather than inducible differences (plasticity) (3) The trait has fitness consequences (promotes survival, performance, and number of offspring) (If a trait evolved due to genetic drift, linkage ...

Quantitative trait loci and the study of plant domestication

... his ideas of natural selection and evolution (Darwin, 1899), and many of his ideas about how natural selection might function are based on keen observations of the human-mediated selection of domesticated plants and animals. In fact, Darwin had good reason to look to domestication for an understandi ...

The genetic causes of convergent evolution

... that results from similar molecular mechanisms acting in divergent taxa can occur through three historical paths, illustrated here in a phylogenetic framework. a | Parallel evolution refers to mutations that arise and spread in independent lineages. In this case, the ancestral state (A) independentl ...

Conservatism and novelty in the genetic architecture of adaptation in

... WO McMillan3 and M Joron1,3 Understanding the genetic architecture of adaptive traits has been at the centre of modern evolutionary biology since Fisher; however, evaluating how the genetic architecture of ecologically important traits inﬂuences their diversiﬁcation has been hampered by the scarcity ...

genetic code constrains yet facilitates Darwinian evolution | Nucleic

... constrained by the genetic code) (27). This suggests that the evolutionary outcome of GKTS is largely reproducible and inevitable, given a strong selective pressure for cefotaxime resistance (16). Among the accessible local optima for cefotaxime resistance on the b-lactamase ﬁtness landscape, GKTS m ...

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Dual inheritance theory

Dual inheritance theory (DIT), also known as gene–culture coevolution or biocultural evolution, was developed in the 1960's through early 1980s to explain how human behavior is a product of two different and interacting evolutionary processes: genetic evolution and cultural evolution. In DIT, culture is defined as information and/or behavior acquired through social learning. One of the theory's central claims is that culture evolves partly through a Darwinian selection process, which dual inheritance theorists often describe by analogy to genetic evolution.'Culture', in this context is defined as 'socially learned behavior', and 'social learning' is defined as copying behaviors observed in others or acquiring behaviors through being taught by others. Most of the modeling done in the field relies on the first dynamic (copying) though it can be extended to teaching. Social learning at its simplest involves blind copying of behaviors from a model (someone observed behaving), though it is also understood to have many potential biases, including success bias (copying from those who are perceived to be better off), status bias (copying from those with higher status), homophily (copying from those most like ourselves), conformist bias (disproportionately picking up behaviors that more people are performing), etc.. Understanding social learning is a system of pattern replication, and understanding that there are different rates of survival for different socially learned cultural variants, this sets up, by definition, an evolutionary structure: Cultural Evolution.Because genetic evolution is relatively well understood, most of DIT examines cultural evolution and the interactions between cultural evolution and genetic evolution.

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Dual inheritance theory