Name: Date: Period: _____ Unit 2 Notes, Part 1 – Macroevolution

... D. What patterns do we see in macroevolution and speciation? 9. Pattern #1: Divergent Evolution – this occurs when closely related species become more different in response to changes in environment (ex: Darwin’s finches went through divergent evolution when they spread out to the different Galapag ...

Evolution

... • Heritable individual variation – Therefore, survival depends partly on inherited features ...

Evolution Power Point

... Infinitely large population size. This eliminates gene frequency change due to chance called Genetic Drift No immigration or emigration. Organisms entering or leaving the population changing gene frequencies called Gene Flow No differential rates of mutation. The rate at which A mutates to a is equa ...

The Theory Of Evolution By Natural Selection (p. 276 – 282)

Biology 123 SI- Dr. Raut`s Class Session 21

... 12. True or false: Populations keep neutral variation. Why or why not. True! Populations never get rid of variation unless it is something that reduces relative fitness! (even then many recessive disorders are kept in the population) While neutral variations may serve no purpose now, they may help t ...

Ch.22 - cloudfront.net

... Sympathetic species inhabit the same locale but remain distant. Populations of a species exhibit geographic variation. The biological species concept focuses on the ability to exchange genes. Prezygotic isolating mechanisms prevent the formation of a zygote. Postzygotic isolating mechanisms prevent ...

Adaption Variation and Natural Selection

...  Conclude what you see with this data ...

Assignment 1 - Matthew C Keller`s

... to the second class, where fellow students will read and help edit each section. The final papers, due at the beginning of the third class, will be concatenated and published online for web surfers to read. Students can choose that their names be omitted from the final product if they wish. Each sec ...

File

... particularly long wings, which make it better than its fellow birds at catching prey. However, this bird is sterile. • Is natural selection likely to act in this population to increase the number of birds with this longwinged trait in future generations? Explain. Sterile means that it cannot have of ...

Review- Exam 1

... Define the terms population, species, and gene pool. Define the term allele frequency and how does it change in populations Explain why mutation has little quantitative effect on allele frequencies in a large population. Compare and contrast gene drift and gene flow using examples Describe the advan ...

Study Guide for the LS

...  Many insects can adapt very quickly to pesticides because their generation time is short. o They develop a genetic resistance to the pesticide. o Resistance means that it does not affect or hurt them. This makes some insect populations (and diseases) more difficult to control.  Organisms may beco ...

Who Wants to live a million years

... Having a long neck or stripes is an example a ______ which was passed from the parents to the offspring in the genes. 7. A mutation is any change in the DNA or genes of an organism. How are the mutation outwardly expressed (hint if your genes change, then you have a new ______ to pass to your offspr ...

The process of Speciation

... round. C. downesi lives mainly on conifers. ...

Evolution Notesheet

... 13. How did Lyell’s argument influence Darwin’s thoughts on evolution by natural selection? ...

Biological Species Concept

... Speciation Darwin explained evolution, but didn’t do so well with speciation Natural selection causes change in a pop., but what causes pop. to split? - had idea of ‘diversification’, but not of gene pool ...

CLONE

... the correct chromosome number is retained. Also a genetically unique individual is formed unlike either parent and probably unlike all other members of its species. This "uniqueness" of the individual means variety in the population and that is the secret of a specie's survivability. That's why sexu ...

15.2 PDQ - Biology with Radjewski

... • Gene flow – exchange of genes between populations due to migration • Genetic Drift – change in gene frequencies from generation to generation due to random ...

Evolution Through Natural Selection “Survival of the fittest.”

... Evolution Through Natural Selection “Survival of the fittest.” Physical Environment -climate -weather -soils ...

Zygotic Barriers (Macro 2)

... A) q = 0.36 then p = 0.64 B) GG = p2= (0.64)2=0.4096= 40.96%  Gg = 2pq= 2(0.64)(0.36)=0.4608= 46.08%  gg = q2= (0.36)2= 0.1296= 12.96% C) (.4608)(200) = 92 turtles are heterozygous ...

Educational Items Section Evolution Atlas of Genetics and Cytogenetics in Oncology and Haematology

... © 2009 Atlas of Genetics and Cytogenetics in Oncology and Haematology ...

evolution, heredity, and behavior

... with new forms originating and others becoming extinct Evolutionary process is gradual and continual. New species arise through slow and steady environmental changes that gradually ‘perfect’ each species to its surroundings. Sudden, dramatic changes in environment challenges species ability to adapt ...

Species PwrPnt

... • Organisms that have same internal & external appearances (Morphological) • Modern definition includes parts of both – A single kind of organism – Morphologically similar – Interbreed to produce fully fertile offspring ...

Population Genetics and Speciation

... This can be used to determine the frequency of the alleles for a particular trait in a population • Assume a gene pool of 10 gametes for a gene which is controlled by only 2 alleles – 8 are allele A – 2 are allele a – Frequency of A is 8/10 or .8 – Frequency of a is 2/10 or .2 – How many light blue ...

Section 1 Exam

... C. RNA molecules are much less chemically stable than DNA molecules D. It refers to an exhibit in Disneyland 42. The very first cells, sometimes called progenotes, and ‘shortly’ thereafter LUCA, probably arose between: A. Around 30 to 40 billion years ago B. Around 3 to 4 billion years ago C. Around ...

2008 Introduction to Evolution

... (a.k.a. genes/alleles, genotypes/phenotypes) of species (or populations of a species) over time.  Throughout this unit, you will see that three main processes determine the rate of evolution:  1) variation within a species (i.e. the fact that no one is an ...

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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