Evolution of Populations

... Genes and Variation Relative (allelic) frequency - the percentage of a particular allele in a gene pool. ...

Mutation Migration

... • However, due to wind migration of pollen, the distribution is different than predicted. By taking a transect sample across the mine and non-mine soil, a cline can be created: ...

Chapter 13 Concept Map

Biol 258: PP seminar

... b. Evolution: need genetic variation for trait.  Deals with variation: not genetic, not environmental, but interaction. Must take account of both  Plasticity is property of genotype. GxE property of population.  What are consequences for evolution?  What are consequences for heritability? c. Cha ...

Inheritable Variation

... A species is defined as a group of similarlooking organisms that can breed with each other to produce fertile offspring. ...

Anth - UCSB Anthropology

... himself has spun, I take culture to be those webs, and the analysis of it to be therefore not an experimental science in search of law but an interpretative one in search of meaning.” ...

PowerPoint Presentation - The Genetics of Behavior

... Genome and what it means After ...

Variationand geneticdrift12

B. A Definition of Culture

... The key to understanding what might appear to you as something outside of your own cultural experience of war is that the Dani pattern combines elements that occur in Western culture into a very different complex and is related to other Dani institutions within a singular cultural matrix. The Dani p ...

17.2 Evolution as Genetic Change in Populations

... Evolution Versus Genetic Equilibrium If allele frequencies in a population do not change, the population is in genetic equilibrium. Evolution is not taking place. The Hardy-Weinberg Principle states that allele frequencies in a population should remain constant unless one or more factors cause those ...

Presentation

... 5.4.3 State that populations tend to produce more offspring than the environment can support. 5.4.4 Explain that the consequence of the potential overproduction of offspring is a struggle for survival. 5.4.5 State that the members of a species show variation. 5.4.6 Explain how sexual reproduction pr ...

Chapter 23 EVOLUTION AND GENETIC VARIATION

... • These individuals may carry alleles in different relative frequencies than did the larger population from which they came • If so, the population that they found will be genetically different from the parent population • This cause is not natural selection, but chance ...

population notes

... ◦ Decrease in movement, decreases genetic variation but increases evolution of new species ...

Evolution Unit 1 Free Response Practice

... 4. Mathematical approaches are used to calculate changes in allele frequency, providing evidence for the occurrence of evolution in a population. If only Mendelian segregation and recombination of alleles at fertilization are involved, then the gene pool of a population will remain constant from one ...

What is culture? - Fullerton Union High School

... interacting with one’s cultural environment • Tacit vs. explicit culture • Enculturation • Culture is not genetic • All peoples in the world acquire their culture through the same process • Because behavior is learned, it can be changed ...

Section 16-2

... 5. Starlings produce an average of five eggs in each clutch. If there are more than five, the parents cannot adequately feed the young. If there are fewer than five, predators may destroy the entire clutch. This is an example of a. disruptive selection. b. stabilizing selection. ...

Ch. 23 - ltcconline.net

... 13. Describe how gene flow can act to reduce genetic differences between adjacent populations. 14. Define a cline. 15. Distinguish among directional, disruptive, and stabilizing selection. Give an example of each mode of selection. 16. Distinguish between intrasexual selection and intersexual select ...

Unit 3 Review Sheet File

... anatomy (analogous and homologous structures and know how to identify them), comparative biochemistry (also molecular biology evidence), artificial selection (knows the experiment discussed in class on guppies; consequences of artificial selection) and biogeography  Make sure to complete and watch ...

Evolution as Genetic Change

C23 The Evolution of Populations

... and often unrepresentative pop. to continue. (Ex. South African cheetahs/ice age/hunted to near extinction early 1900’s). ...

Evolution - Home - Mr. Wright's Class Website

Evidence_for_change

... c. Adaptive Radiation – species adapting to different environments and become a new species. Recap video ...

Mechansisms for Evolution 2015

... Natural selection leads to adaptation – an increase in the fitness of a population in a particular environment. Natural selection works because some genotypes are more successful in a given environment than others. Successful (adaptive) genotypes become more common in subsequent generations, causing ...

Chapter 4, Studying Culture: Approaches And

Natural Selection

... completes against. The more successful individuals are ‘naturally selected’ to live longer and to produce more offspring, to which they will pass on these adaptations  Ex :Jaguars with longer teeth are better able to eat shelled retiles. They will survive longer and leave more ...

< 1 ... 124 125 126 127 128 129 130 131 132 ... 146 >

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.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Dual inheritance theory