Patterns of Inheritence - School District of La Crosse

... Two factors called genes control each trait For each gene, organisms receive one allele (form) from each parent randomly. If an organism receives different alleles for the same trait, one allele is dominant over the other ...

Ch. 15: Presentation Slides

... • STRs can be used to map DNA since they generate fragments of different sizes which can be detected by various methods Most people are heterozygous for SSR alleles ...

CHAPTER 2: CULTURE

... b. The fact of cultural diversity calls ethnocentrism into question. c. What happens when cultural practices, values, and rights come into conflict with human rights? 2. Some cultures in the Middle East and Africa have customs requiring female genital modification. Clitoridectomy and infibulation ar ...

Natural selection

...  Different forms of a gene are known as alleles  A single individual only has some of the alleles found in a population ...

AOS2_ch13_population genetics_2012_student

... • Those individuals which are said to have a higher fitness are more adapted to a particular environment so are able to survive, reproduce and make a greater contribution to the gene pool of the next generation – have a selective advantage • Those individuals which are said to be less fit are less a ...

Cultural Anthropology

370-TheConceptofEvolution

... – Confusion has resulted in serious ethnocentric errors about what humans are like. – A clear understanding about the differences between biological and sociocultural evolution helps to avoid these kinds of errors. ...

APNotes

... cause, particularly among animals (choosing mates w/particular traits, ex: healthiest) -differential success in reproduction is probably always the case in natural populations (leads to adaptive evolution) ...

"Genetic Drift in Human Populations".

... genetic drift that is still in use today. Genetic drift consists of changes in allele frequencies due to sampling error. Even if all individuals in a population have the same opportunities to mate, their reproductive contributions to the next generation will vary due to random chance alone. In any p ...

Genetics vs. Environment in Behavioral Development

... • Testing hypotheses about trait evolution may require tests of this assumption ...

Adaptive Evolution

... The Smallest Unit of Evolution • One misconception is that organisms evolve during their lifetimes • Natural selection acts on individuals, but only populations evolve • Consider, for example, a population of medium ground finches on Daphne Major Island ...

Chapter 17: Population Genetics and Speciation Section 1: Genetic

... A. Particular combination of alleles in a population at any one point in time makes up a gene pool. B. Genetic variation and change are measured in terms of the frequency of alleles. ...

CHAPTER 15 NOTES File

Random Genetic Drift

... All populations started out with identical gene pools, but with time, the gene frequencies will change. The populations will become different from each other over time. DRIFT CAUSES AN INCREASE OF GENETIC VARIABILITY BETWEEN POPULATIONS ...

The Evolutionary Synthesis and its Critics

... • He demonstrated that this ratio would remain constant from generation to generation provided: – Population is large – Mating is random – No selection: All offspring combinations are equally successful – No migration in or out of the population – Mutation rate has reached equilibrium • The same res ...

What is Evolution?

... 142/546 = .26 which represents q2 or gg In order to get the homozygous dominant & heterozygous we need to use the p + q = 1 equation. q2 = .26  take the square root of each side to get q which is .51 ...

Genetics Objectives/keywords

... Genes allow for the storage and transmission of genetic information. They are a set of instructions encoded in the nucleotide sequence of each organism. Genes code for the specific sequences of amino acids that comprise the proteins that are characteristic of that organism. MA Standard 3.4 Distingui ...

Genetic Drift

Evolution and Ecology

... individuals or gametes between populations. (genetic exchange) 2. genetic drift – changes in the gene pool of a small population due to chance. 3. meiotic drive – ‘outlaw’ or ‘selfish’ genes that obtain disproportionate representation in a carrier’s gametes at the expense of alternate alleles on a h ...

File

... Macroevolution- major biological changes that are clearly visible. Ex: Development of an entire new species ...

EvolutionofPopulations209

... Small-billed birds feed on soft seeds; largebilled birds feed on hard seeds (Blackbellied Seed Crackers – Cameroon, Africa) ...

Lecture 4

Heredity

... Genetic information is organized into chromosomes which contributes to both the continuity and variability of genetic information. Patterns of inheritance can be predicted using Punnett squares and probability. The location of alleles on eukaryotic chromosomes can be determined and mapped using the ...

The Interpretation of Cultures

... empty categories—has not been met is that it cannot be. There is a logical conflict between asserting that, say, “religion,” “marriage,” or “property” are empirical universals and giving them very much in the way of specific content, for to say that they are empirical universals is to say that they ...

the new mutation theory of phenotypic evolution

... Harmful mutations are eliminated from the population and leave no trace of evolutionary changes. New mutations are incorporated only when they are beneficial in the genetic background of the previous organism in a given environment or when they are neutral despite their visible effects on phenotypic ...

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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