Evidence from the gnarly New Zealand snails for and against the red

... covariances. What was the ratio? What does it mean? Give an example of how relatedness, defined in this way, can be very low, even in a group of very close relatives. 18. In Templeton’s example of sickle-cell anemia, how does inbreeding and dominance affect the initial direction and outcome of natur ...

New Zealand Examples of Evolution - MAH-SBHS

... In 1979 Sir Charles Fleming proposed that the closely related kea and kaka evolved quite recently from a "proto-kaka" population as this population was widespread over NZ during the Miocene, but was separated into two early in the Pleistocene. In Fleming's hypothesis, adaptive radiation of these pop ...

SR6e Chapter 3 - Flip Flop Ranch

... Examples in humans ...

Bottlenecks and Founder Effects

... Target III: Describe the two main causes of microevolution: genetic drift (bottleneck effect & founder effect) and natural selection. Text Reference: 23.3 Pre-lab Questions: Read the procedures before you answer the pre-lab questions. This may be checked, collected, or possibly be used on a pre lab ...

Chapter 14 Evolution a History and a Process—Reading/ Study Guide

... 1. Define artificial selection. 2. Give an example of artificial selection. 3. Compare and contrast Natural selection and Artificial selection. Pesticides—Natural Selection in Action 1. Explain how the use of pesticides is a great example of natural selection. 2. What two key points does this exampl ...

AS90459 Version 2 Describe genetic variation and change Level 2

... Biological concepts and processes relating to genetic change, ie where the gene pool is affected, will be selected from: ...

Darwin`s theory

...  Overproduction: Darwin knew that species produce far more offspring that can possibly survive. Then why is there not an overload of any species?  Variations: is any difference between the same species. Color may be different from that of most other insects. They may eat different food.  Competit ...

Chromosomal Mutations

... GCC & GCA both code for the same amino acid, alanine! – However, mutating AGC to AGA will change the amino acid from serine to arginine! ...

Populations

... levels in the plant at all times. ...

14_Clicker_Questions

... a. a population of organisms that can breed together and produce fertile offspring b. organisms that share observable and measurable phenotypic traits c. organisms that share a common and unique genetic history ...

SCIENCE 9

下載 - 國立高雄師範大學

... 目：普通生物學（第十一頁，共十二頁） ...

Microevolution - cloudfront.net

... Problem: If you had 90 individuals that possessed the recessive condition in a population of 1000 individuals, determine the frequency of dominant and recessive alleles present in the population as well as the genotypic and phenotypic frequencies. (1) Always start with the # of homozygous recessive ...

Evolution of Populations

... 13. What is lateral gene transfer? How does it affect variation? Lateral gene transfer occurs when genes are passed from one organism to another organism that is not its offspring. It can occur between organisms of the same or different species. Lateral gene transfer increases variation when a speci ...

The Origin of Species in Fungi

... speciation occurring without geographic separation (i.e. “sympatric divergence”) had long been dismissed, particularly for sexual organisms. If populations live in the same area and can meet and exchange genes, it is indeed difficult to understand how they can become sufficiently isolated and diverg ...

6.1 Notes

... accumulate in a species, while unfavorable ones may disappear. ...

Unit Plan Part 1

... does not occur. Knowing this information helps students understand the conditions that do cause evolution. This concept belongs in this unit because it Stage H 12.A.3 describes the end result of evolution, which ...

Lecture 19 Evolution of Senescence

... highlighting the importance of centenarians for genetic longevity research. Our study extended the initial finding observed in Japanese men to women and indicates that both genders were likely to be equally affected by variation in FOXO3A. Replication in a French centenarian sample generated a trend ...

Charles Darwin-reserach-term1

HMH 11.1 notes

... Genetic variation in a population increases the chance that some individuals will survive. • Genetic variation leads to phenotypic variation. • Phenotype – a collection of all an organism’s physical characteristics. Ex: height, skin color, hair color etc… ...

USC3002_2008.Lect5 - Department of Mathematics

... Mendel’s Three Laws gene = inheritance factor for a trait alleles = alternative forms of the same gene 1. Law of Dominance : if traits occur in pairs and crossing parents pure for contrasting traits results in offspring having ONLY one [dominant] trait. Phenotype monohybrid-cross Rr x RrRR,Rr,rR,r ...

“Priroda (Nature)” 1991, N 8, p. 60–69

... dystrophy decreases) and in extreme conditions they grow (known as the ecological rule of sex differentiation) Since the ecological stress brings to the rise of these parameters, they can be considered indicators of the ecological niche. In this regard it is explicable that the rate of boy births in ...

Empathy and Human Rights

... more in the human species than in any other. • Natural Selection is the passing on of genes that benefit an individual’s survival – natural selection implies competition between individuals. • If you benefit someone else, you’re hurting your own chance of survival ...

Chapter 25 Presentation

... Most species that have ever lived did not die in the right place at the right time to be preserved in the fossil record. Regardless, the fossil record is remarkably detailed in its account of biological change over geological time. ...

Unisexual vertebrates, species that reproduce through

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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.

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Koinophilia