BIO152 Summer Evolutionary processes
... • Evolution = change in allele frequency over time • Natural selection acts on ...
... • Evolution = change in allele frequency over time • Natural selection acts on ...
The fitness consequences of population size and genetic
... processes which have serious consequences for the adaptive potential and fitness of individuals. All of these factors decrease the effective population size (the size of an ideal population that experiences genetic drift at the rate of the population in question) of a given population and in turn de ...
... processes which have serious consequences for the adaptive potential and fitness of individuals. All of these factors decrease the effective population size (the size of an ideal population that experiences genetic drift at the rate of the population in question) of a given population and in turn de ...
Misconceptions about Evolution
... but that doesn’t mean they got “better.” After all, climates change, rivers shift course, new competitors invade—and what was “better” a million years ago, may not be “better” today. What works “better” in one location might not work so well in another. Fitness is linked to environment, not to progr ...
... but that doesn’t mean they got “better.” After all, climates change, rivers shift course, new competitors invade—and what was “better” a million years ago, may not be “better” today. What works “better” in one location might not work so well in another. Fitness is linked to environment, not to progr ...
Ch 23 lecture - D and F: AP Biology
... • Differential success in fitness in offspring results in certain alleles being passed to the next generation in greater proportions • Those alleles that produce less fit offspring die with the offspring ...
... • Differential success in fitness in offspring results in certain alleles being passed to the next generation in greater proportions • Those alleles that produce less fit offspring die with the offspring ...
Assessment Specifications
... Candidates may be required to draw and / or interpret a Punnett square for any of the specified monohybrid or dihybrid inheritance patterns, and calculate the expected proportions of genotype and phenotype (expressed as a ratio, fraction, percentage, or decimal). Understanding of genetic drift is co ...
... Candidates may be required to draw and / or interpret a Punnett square for any of the specified monohybrid or dihybrid inheritance patterns, and calculate the expected proportions of genotype and phenotype (expressed as a ratio, fraction, percentage, or decimal). Understanding of genetic drift is co ...
Darwin Formulates His Theory - Hatboro
... on observations, inferences, and ideas from his own work and the work of others. From his observations Darwin developed his theory of natural selection. In 1844, Darwin wrote a 200-page essay that outlined his idea, but he didn't release it to the public. Instead, for the next several years he conti ...
... on observations, inferences, and ideas from his own work and the work of others. From his observations Darwin developed his theory of natural selection. In 1844, Darwin wrote a 200-page essay that outlined his idea, but he didn't release it to the public. Instead, for the next several years he conti ...
Ch17 Lecture-Speciation
... Flower color and shape influences which pollinators are attracted, or alters where pollen is deposited. Two sympatric species of columbines (Aquilegia) have diverged in flower color, structure, and orientation. One is pollinated by hummingbirds, the other by hawkmoths. ...
... Flower color and shape influences which pollinators are attracted, or alters where pollen is deposited. Two sympatric species of columbines (Aquilegia) have diverged in flower color, structure, and orientation. One is pollinated by hummingbirds, the other by hawkmoths. ...
Darwin Formulates His Theory
... on observations, inferences, and ideas from his own work and the work of others. From his observations Darwin developed his theory of natural selection. In 1844, Darwin wrote a 200-page essay that outlined his idea, but he didn't release it to the public. Instead, for the next several years he conti ...
... on observations, inferences, and ideas from his own work and the work of others. From his observations Darwin developed his theory of natural selection. In 1844, Darwin wrote a 200-page essay that outlined his idea, but he didn't release it to the public. Instead, for the next several years he conti ...
Unit VIII Review Sheet
... What type of evolutionary evidence uses the remains of a once living thing? ...
... What type of evolutionary evidence uses the remains of a once living thing? ...
Evolution and Natural Selection
... Organisms can be affected by their environment. Variation caused by the environment is not heritable, so it is not subject to natural selection. However, the ability of organisms to develop differently in different environments can be genetic. This means organisms can evolve to be flexible. Plants a ...
... Organisms can be affected by their environment. Variation caused by the environment is not heritable, so it is not subject to natural selection. However, the ability of organisms to develop differently in different environments can be genetic. This means organisms can evolve to be flexible. Plants a ...
Ch 23 Populations
... 26. Explain how female preferences for showy male traits may benefit the female. 27. Describe the disadvantages of sexual reproduction. 28. Explain how the genetic variation promoted by sex may be advantageous to individuals on a generational time scale. 29. List four reasons why natural selection c ...
... 26. Explain how female preferences for showy male traits may benefit the female. 27. Describe the disadvantages of sexual reproduction. 28. Explain how the genetic variation promoted by sex may be advantageous to individuals on a generational time scale. 29. List four reasons why natural selection c ...
THE HISTORY OF EVOLUTIONARY THEORY
... Vitamin D. Those born by chance with lighter skin could synthesise this important vitamin more easily and so survive better. The “lighter skin” gene was passed onto their offspring and so eventually the people in these areas evolved to have lighter skin. When ostriches kneel down to sleep or eat, th ...
... Vitamin D. Those born by chance with lighter skin could synthesise this important vitamin more easily and so survive better. The “lighter skin” gene was passed onto their offspring and so eventually the people in these areas evolved to have lighter skin. When ostriches kneel down to sleep or eat, th ...
File
... An adaptation is any inherited characteristic that increases an organism's chance of survival. Beneficial adaptations better suit organisms to their environment, and in turn, they’re better able to survive and reproduce. Individuals with characteristics that are not well suited to their environment ...
... An adaptation is any inherited characteristic that increases an organism's chance of survival. Beneficial adaptations better suit organisms to their environment, and in turn, they’re better able to survive and reproduce. Individuals with characteristics that are not well suited to their environment ...
Document
... Another type of founder effect occurs when a large, established population is reduced in size. The remaining individuals may not be representative of the genetic diversity that was present in the original population. This is referred to as a genetic bottleneck. ...
... Another type of founder effect occurs when a large, established population is reduced in size. The remaining individuals may not be representative of the genetic diversity that was present in the original population. This is referred to as a genetic bottleneck. ...
Genetic Variation & Evolution
... add to Darwin’s theory of evolution by natural selection? Suppose a population or organisms with 500 gene loci is fixed at half of these loci. How many alleles are found in its gene pool? Explain. Which parts of the Hardy-Weinberg equation (p2 +2pq + q2 = 1) correspond to the frequency of individual ...
... add to Darwin’s theory of evolution by natural selection? Suppose a population or organisms with 500 gene loci is fixed at half of these loci. How many alleles are found in its gene pool? Explain. Which parts of the Hardy-Weinberg equation (p2 +2pq + q2 = 1) correspond to the frequency of individual ...
Variation exists within individuals, within populations, and among
... A syndrome in humans is manifest by follicle death, so that no hair grows anywhere on the body. This is an epistatic/pleiotropic/dominant/mutant trait (choose one) Basic processes – Mendelian inheritance, DNA replication, transcription, translation In which generation is it possible to determine tha ...
... A syndrome in humans is manifest by follicle death, so that no hair grows anywhere on the body. This is an epistatic/pleiotropic/dominant/mutant trait (choose one) Basic processes – Mendelian inheritance, DNA replication, transcription, translation In which generation is it possible to determine tha ...
Unit 4 Evolution
... Charles Darwin developed the “Theory of Evolution” which explained how the species we have today on Earth got here. He thought that Natural Selection was the mechanism of evolution, and it explained how, over a long period of time, species have evolved (or CHANGED) on our planet from one original or ...
... Charles Darwin developed the “Theory of Evolution” which explained how the species we have today on Earth got here. He thought that Natural Selection was the mechanism of evolution, and it explained how, over a long period of time, species have evolved (or CHANGED) on our planet from one original or ...
Classification of Microorganisms
... • This technique involves the sequencing fragments from 6 to 7 genes (often housekeeping genes) from an organism and comparing these with the same gene set from different strains of the same organism • Can distinguish between closely related strains • While rRNA gene sequence analysis is capable of ...
... • This technique involves the sequencing fragments from 6 to 7 genes (often housekeeping genes) from an organism and comparing these with the same gene set from different strains of the same organism • Can distinguish between closely related strains • While rRNA gene sequence analysis is capable of ...
CYSTIC FIBROSIS
... Theory of Natural Selection 1. Genetic Variation – Each organism has unique DNA sequence and traits. 2. Overproduction of offspring – More kids are produced than can survive. 3. Struggle for existence – Kids compete for limited resources (food, shelter, mates). 4. Differential survival and reproduc ...
... Theory of Natural Selection 1. Genetic Variation – Each organism has unique DNA sequence and traits. 2. Overproduction of offspring – More kids are produced than can survive. 3. Struggle for existence – Kids compete for limited resources (food, shelter, mates). 4. Differential survival and reproduc ...
Survival of the Fittest, Stephanie Harrison.part
... superficial ways (i.e. if it is cold we start a fire or put on a coat, but an animal of the natural world cannot change its condition as easily. If it cannot find somewhere warm or create a den, it will truly struggle for survival). “Survival of the fittest” was created by Herbert Spencer after he r ...
... superficial ways (i.e. if it is cold we start a fire or put on a coat, but an animal of the natural world cannot change its condition as easily. If it cannot find somewhere warm or create a den, it will truly struggle for survival). “Survival of the fittest” was created by Herbert Spencer after he r ...
Chapter 5
... a. detrimental to survival and thus are weeded out. b. essential for survival, so they tend to be retained with few changes. Any change is likely to be detrimental and will be selected against. c. never have experienced a mutational change. d. useless in establishing evolutionary relationships among ...
... a. detrimental to survival and thus are weeded out. b. essential for survival, so they tend to be retained with few changes. Any change is likely to be detrimental and will be selected against. c. never have experienced a mutational change. d. useless in establishing evolutionary relationships among ...
13.4 The study of fossils provides strong evidence for
... There are three key points about evolution by natural selection that clarify this process. 1. Individuals do not evolve: populations evolve. 2. Natural selection can amplify or diminish only heritable traits. Acquired characteristics cannot be passed on to offspring. 3. Evolution is not goal direc ...
... There are three key points about evolution by natural selection that clarify this process. 1. Individuals do not evolve: populations evolve. 2. Natural selection can amplify or diminish only heritable traits. Acquired characteristics cannot be passed on to offspring. 3. Evolution is not goal direc ...
Answers to End-of-Chapter Questions – Brooker et al ARIS site
... New alleles - When random mutations arise, they introduce new alleles into a population. These new mutations may be beneficial, neutral, or deleterious. If a new mutation is beneficial it is more likely to be selected for and it may remain in the population. If the mutation is deleterious, the mutat ...
... New alleles - When random mutations arise, they introduce new alleles into a population. These new mutations may be beneficial, neutral, or deleterious. If a new mutation is beneficial it is more likely to be selected for and it may remain in the population. If the mutation is deleterious, the mutat ...
Koinophilia
Koinophilia is an evolutionary hypothesis concerning sexual selection which proposes that animals seeking mate preferentially choose individuals with a minimum of unusual features. Koinophilia intends to explain the clustering of organisms into species and other issues described by Darwin's Dilemma. The term derives from the Greek, koinos, ""the usual"", and philos, ""fondness"".Natural selection causes beneficial inherited features to become more common and eventually replace their disadvantageous counterparts. A sexually-reproducing animal would be expected to avoid individuals with unusual features, and to prefer to mate with individuals displaying a predominance of common or average features. This means that mates displaying mutant features are also avoided. This is advantageous because most mutations that manifest themselves as changes in appearance, functionality or behavior, are disadvantageous. Because it is impossible to judge whether a new mutation is beneficial or not, koinophilic animals avoid them all, at the cost of avoiding the occasional beneficial mutation. Thus, koinophilia, although not infallible in its ability to distinguish fit from unfit mates, is a good strategy when choosing a mate. A koinophilic choice ensures that offspring are likely to inherit features that have been successful in the past.Koinophilia differs from assortative mating, where ""like prefers like"". If like preferred like, leucistic animals (such as white peacocks) would be sexually attracted to one another, and a leucistic subspecies would come into being. Koinophilia predicts that this is unlikely because leucistic animals are attracted to the average in the same way as other animals. Since non-leucistic animals are not attracted by leucism, few leucistic individuals find mates, and leucistic lineages will rarely form.Koinophilia provides simple explanations for the rarity of speciation (in particular Darwin's Dilemma), evolutionary stasis, punctuated equilibria, and the evolution of cooperation. Koinophilia might also contribute to the maintenance of sexual reproduction, preventing its reversion to the much simpler and inherently more advantageous asexual form of reproduction.The koinophilia hypothesis is supported by research into the physical attractiveness of human faces by Judith Langlois and her co-workers. They found that the average of two human faces was more attractive than either of the faces from which that average was derived. The more faces (of the same gender and age) that were used in the averaging process the more attractive and appealing the average face became. This work into averageness supports koinophilia as an explanation of what constitutes a beautiful face, and how the individuality of a face is recognized.