Darwin - Integrative Biology

... • geology: earth is old (hence time for evolution to produce the huge diversity of living organisms) and accumulation of slow changes over long periods leads to creation of valleys, mountains, etc. (metaphor for natural selection and creation of new species) • structural homologies that indicate clo ...

Types of Natural Selection - slater science

...  Inference 2: Individuals of a population differ from each other in the probability of survival. (Darwin) Fact 5: Many of the differences among the individuals of a population are, at least in part, ...

Chapter 12

...  Individuals of sexually reproducing species can interbreed successfully under natural conditions, produce fertile offspring, and are reproductively isolated from other species  Speciation • Process by which new species arise from existing species ...

How Populations Evolve

... Individual variation is what natural selection acts on-on the phenotype Polygenic traits that vary provide variation Polymorphism provide variation (blood types) 2 flies in a Drosophila pop may vary at 25% of their loci-individual differences ...

Name: Date: Period: _____ Unit 1, Part 1 Notes – Evolution Basics

... -Absolute / Radiometric Dating relies on the decay of radioactive atoms, such as uranium, potassium, rubidium and carbon within the fossil or rock surrounding the fossil. The percentage of “undecayed” vs. “decayed” atoms can tell you exactly how long ago an organism died. ...

Biology 11 Name: Evolution/Natural Selection Practice Test General

... a. Lamarkian evolution b. directional selection c. stabilizing selection d. adaptive radiation 23. If evolution means change – explain how a trait in a population might be maintained (not changed). (Hint: think about stabilizing selection - fiddler crab claw size in males or human brain size). (4 ma ...

Section 15.1 Summary – pages 393-403

... species of bacteria because some species have evolved physiological adaptations to prevent being killed by penicillin. ...

Chapter 5 Lecture PowePoints

... currently exists, slide #23 would convince no-one. That sort of explanation might work well in a textbook, but not lecture. While my explanation is original, I have discovered that the great evolutionist Ernst Mayr had developed a similar argument for natural selection. ...

Chapter 17: Darwin and Evolution 17.1. History of the Theory of

... 2. Organisms utilize the same DNA triplet code and the same 20 amino acids in their proteins. 3. Many organisms share same introns and types of repeats, which is remarkable since there is no obvious functional reason why these components need to be so similar. 4. This is substantiated by analysis of ...

ch4 - Otterville R-VI School District

... Variability of trait in species 2. Must be heritable, able to be passed from one generation to another 3. Differential Reproduction- increase the number of offspring or survivability of offspring of an individual ...

Evolution Guided Reading

... 11. In a wild flower population, the flower color demonstrates incomplete dominance. The allele frequency for the red allele (r) is 75% while that of the white allele (w) is 25%. Using the rule of multiplication, calculate the genotype frequencies for the three types of genotypes (rr, rw and ww). Wh ...

The process in which species change over time

... the most closely related by evolution. In this example, the ABX gene sequence of Species B differs from Species C by only one nucleotide. Therefore, Species B and Species C are the most closely related. ...

EVOLUTION- change in species over time

... So now, when this duck reproduces, its offspring will also have webbed feet o He also said that if an organism doesn‟t use a body part, then their offspring would have a small version of that body part Example: A crab‟s claw- if the crab NEVER used one of his claws, then when it ...

Mechanisms of Evolution

... molding the genetic makeup of a population. Population numbers in a real ecosystem are much larger than what we can represent with dots on our desk. The genetic makeup and allele frequencies in a population are much more complicated than blue, green, and red colors. These models are to help you unde ...

evolution - sciencebugz

... of RNA and DNA and the genetic code is universal. • Genetic code has been passed along all the branches of the tree of live eve since the code’s inception If two species have libraries of genes and proteins with sequences that match closely, the sequences have probably been copied from a common ance ...

Biology Today (BIOL 109)

... – Natural selection – explains that parents with genotypes that favor survival and reproduction leave more offspring than other parents. Therefore, these genetic traits become dominant in a given population. ...

Name: TOC#_____ Origins Unit Exam Study Guide Station 1

... a. Initially, scientists looked at the structural similarities of different organisms b. Taxonomists looked for similarities in physical features called homologous structures in order to show relatedness 3. How do scientists classify organisms now? • Now, taxonomists also consider evolution and gene ...

Printable Activities

... Darwin’s theory of evolution suggests natural selection as the mechanism of adaptive change. Mendel’s genetics explains how characters are transmitted from one generation to the next. Geneticist Dobzhansky suggested that variations in organisms originate from mutations and genetic recombination. Sim ...

A. Darwinian

... D. Giraffes just started out with long necks and haven’t changed. Competition for food, space, and other resources among members of a species is called ____________ A. common descent B. artificial selection C. survival of the fittest D. struggle for existence The ability of an individual to survive ...

Evolution and Natural Selection

... – Populations of the same species that differ genetically because they have adapted to different living conditions. – Still members of same species. ...

Microsoft Word 97

... Feral (untamed) cats were introduced to the area inhabited by the rabbit population. Ten years later, the frequency of the spottedcoat allele increased to 0.8. Which of the following assumptions of ...

Ch.16 and 17 notes

... Early Earth was hot; atmosphere contained poisonous gases. Earth cooled and oceans condensed. Simple organic molecules may have formed in the oceans.. Small sequences of RNA may have formed and replicated. First prokaryotes may have formed when RNA or DNA was enclosed in microspheres. ...

Unit 6

... extensively to cope with the environment become larger and stronger, while those that are not used deteriorate. The second idea Lamarck adopted was called the inheritance of acquired characteristics. In this concept of heredity, the modification of an organism acquires during its lifetime can be pas ...

Darwin and Evolution

... of individuals into, or out of, the population). • Random mating must occur (i.e. individuals must pair by chance) • The population must be large so that no genetic drift (random chance) can cause the allele frequencies to change. • No selection can occur so that certain alleles are not selected for ...

Causes of Evolution

... development are found many animals, but structures that develop later in a species are not found in as many other species. Genes that are involved in early development are conserved while those that make the species unique are turned on later during development thus differentiating that species fro ...

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Evidence of common descent

Evidence of common descent of living organisms has been discovered by scientists researching in a variety of disciplines over many decades and has demonstrated common descent of all life on Earth developing from a last universal ancestor. This evidence explicates that evolution does occur, and is able to show the natural processes by which the biodiversity of life on Earth developed. Additionally, this evidence supports the modern evolutionary synthesis—the current scientific theory that explains how and why life changes over time. Evolutionary biologists document evidence of common descent by making testable predictions, testing hypotheses, and developing theories that illustrate and describe its causes.Comparison of the DNA genetic sequences of organisms has revealed that organisms that are phylogenetically close have a higher degree of DNA sequence similarity than organisms that are phylogenetically distant. Further evidence for common descent comes from genetic detritus such as pseudogenes, regions of DNA that are orthologous to a gene in a related organism, but are no longer active and appear to be undergoing a steady process of degeneration from cumulative mutations.Fossils are important for estimating when various lineages developed in geologic time. As fossilization is an uncommon occurrence, usually requiring hard body parts and death near a site where sediments are being deposited, the fossil record only provides sparse and intermittent information about the evolution of life. Scientific evidence of organisms prior to the development of hard body parts such as shells, bones and teeth is especially scarce, but exists in the form of ancient microfossils, as well as impressions of various soft-bodied organisms. The comparative study of the anatomy of groups of animals shows structural features that are fundamentally similar or homologous, demonstrating phylogenetic and ancestral relationships with other organisms, most especially when compared with fossils of ancient extinct organisms. Vestigial structures and comparisons in embryonic development are largely a contributing factor in anatomical resemblance in concordance with common descent. Since metabolic processes do not leave fossils, research into the evolution of the basic cellular processes is done largely by comparison of existing organisms' physiology and biochemistry. Many lineages diverged at different stages of development, so it is possible to determine when certain metabolic processes appeared by comparing the traits of the descendants of a common ancestor. Universal biochemical organization and molecular variance patterns in all organisms also show a direct correlation with common descent.Further evidence comes from the field of biogeography because evolution with common descent provides the best and most thorough explanation for a variety of facts concerning the geographical distribution of plants and animals across the world. This is especially obvious in the field of insular biogeography. Combined with the theory of plate tectonics common descent provides a way to combine facts about the current distribution of species with evidence from the fossil record to provide a logically consistent explanation of how the distribution of living organisms has changed over time.The development and spread of antibiotic resistant bacteria, like the spread of pesticide resistant forms of plants and insects provides evidence that evolution due to natural selection is an ongoing process in the natural world. Alongside this, are observed instances of the separation of populations of species into sets of new species (speciation). Speciation has been observed directly and indirectly in the lab and in nature. Multiple forms of such have been described and documented as examples for individual modes of speciation. Furthermore, evidence of common descent extends from direct laboratory experimentation with the selective breeding of organisms—historically and currently—and other controlled experiments involving many of the topics in the article. This article explains the different types of evidence for evolution with common descent along with many specialized examples of each.

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Evidence of common descent