BIOLOGICAL CHANGE OVER TIME
... gradual model of evolutionary change. 25. What is a major difference in the forelimbs of early mammals? 26. Discuss the layers of the fossil record in terms of most recent or oldest and most complex to least complex 27. What’s the difference between artificial selection vs. natural selection? 28. Wh ...
... gradual model of evolutionary change. 25. What is a major difference in the forelimbs of early mammals? 26. Discuss the layers of the fossil record in terms of most recent or oldest and most complex to least complex 27. What’s the difference between artificial selection vs. natural selection? 28. Wh ...
Evolution Power Point 2
... *You will be working in your rows for this activity. *I am going to hand a picture to the student at the end of the row. He or she will copy what they see in 30 ...
... *You will be working in your rows for this activity. *I am going to hand a picture to the student at the end of the row. He or she will copy what they see in 30 ...
Chapter 22: Descent w/ Modification Aristotle (384
... o Remnants of features that served functions in organism’s ancestors o Snakes w/ parts of pelvis & hind limbs o Wisdom teeth Molecular Homology o Genes shared among organisms inherited from a common ancestor o All organisms use DNA or RNA o Humans – Humans = 99.9% genes o Humans – Chimps = 98% o H ...
... o Remnants of features that served functions in organism’s ancestors o Snakes w/ parts of pelvis & hind limbs o Wisdom teeth Molecular Homology o Genes shared among organisms inherited from a common ancestor o All organisms use DNA or RNA o Humans – Humans = 99.9% genes o Humans – Chimps = 98% o H ...
Theories of Evolution
... genus. Twenty thousand years ago, cheetahs roamed throughout the savannahs and plains of four continents: Africa, Asia, Europe, and North America. About 10,000 years ago - because of climate changes - all but one species of the cheetah, jubatus, became extinct. With the drastic reduction in their nu ...
... genus. Twenty thousand years ago, cheetahs roamed throughout the savannahs and plains of four continents: Africa, Asia, Europe, and North America. About 10,000 years ago - because of climate changes - all but one species of the cheetah, jubatus, became extinct. With the drastic reduction in their nu ...
12/18/06
... Inference #3: This unequal ability of individuals to survive and reproduce will lead to a gradual change in a population, with favorable characteristics accumulating over the generations. ...
... Inference #3: This unequal ability of individuals to survive and reproduce will lead to a gradual change in a population, with favorable characteristics accumulating over the generations. ...
16.2: Ideas from Darwin`s Observations
... Fossils of extinct species were similar to living species ...
... Fossils of extinct species were similar to living species ...
Evolution - Year 10 Life Science
... oThis ‘stretched leg’ characteristic (an acquired characteristic) was inherited by the offspring. oThese offspring in turn stretched further and then passed on their ‘stretched leg’ characteristic to their offspring. oThe long-legged form shown eventuated from this stretching and inheritance. ...
... oThis ‘stretched leg’ characteristic (an acquired characteristic) was inherited by the offspring. oThese offspring in turn stretched further and then passed on their ‘stretched leg’ characteristic to their offspring. oThe long-legged form shown eventuated from this stretching and inheritance. ...
Name: _______ Per: _____ Notes: Evolution Vocab Builder 1
... b. Individual organisms of the same species __________________, and some of this __________________ is __________________. ...
... b. Individual organisms of the same species __________________, and some of this __________________ is __________________. ...
Evolution Evidence_ Summary Day_2013
... Masai people, who live in the arid lands of eastern Africa, have tall, lean bodies that disperse heat well. ...
... Masai people, who live in the arid lands of eastern Africa, have tall, lean bodies that disperse heat well. ...
Evolutionary Analysis 4/e
... Morphospecies: individuals belong to the same species if they share specific trait(s) Phylogenetic Species Concept: smallest group of monophyletic populations (diagnostic trait are shared and derived sequences) ...
... Morphospecies: individuals belong to the same species if they share specific trait(s) Phylogenetic Species Concept: smallest group of monophyletic populations (diagnostic trait are shared and derived sequences) ...
Evol unit: part 1
... but unrelated species. Example: Darwin found entirely different species of animals on South America and Australia, yet when he looked at similar environments on those continents, he sometimes saw different animals that had similar anatomies and ...
... but unrelated species. Example: Darwin found entirely different species of animals on South America and Australia, yet when he looked at similar environments on those continents, he sometimes saw different animals that had similar anatomies and ...
File - Biology with Radjewski
... • Homologous Structures – anatomical structures that occur in different species and that originated by heredity from a structure in the most recent common ancestor of the species – Might have different function – Example – forelimbs on birds, dolphins, humans ...
... • Homologous Structures – anatomical structures that occur in different species and that originated by heredity from a structure in the most recent common ancestor of the species – Might have different function – Example – forelimbs on birds, dolphins, humans ...
Evolution
... webbed fingers/toes, tail, fur Vestigial structures: features that are fully developed in one group of organisms but are reduced and have no function in similar groups Must have same ancient instructions (DNA); variations in later development due to mutations and transposons ...
... webbed fingers/toes, tail, fur Vestigial structures: features that are fully developed in one group of organisms but are reduced and have no function in similar groups Must have same ancient instructions (DNA); variations in later development due to mutations and transposons ...
Evidence for Evolution
... Natural selection has been documented in nature many times. In Galapagos finches, available seed sizes change with different amounts of rainfall. Dry years result in more large seeds. Wet years result in more smaller seeds. Studies of reproductive success in finches indicate that large-billed birds ...
... Natural selection has been documented in nature many times. In Galapagos finches, available seed sizes change with different amounts of rainfall. Dry years result in more large seeds. Wet years result in more smaller seeds. Studies of reproductive success in finches indicate that large-billed birds ...
5 -Evidence for Evolution Notes
... are more likely to share a common ancestor. (ex. Mara- same niche as English rabbit, but more closely related to S. Amer. Animals than rabbit because they ...
... are more likely to share a common ancestor. (ex. Mara- same niche as English rabbit, but more closely related to S. Amer. Animals than rabbit because they ...
Evolution
... – Homologous structures – Analagous structures • Vestigial structures • Embryology • Molecular biology (DNA differences) What Causes Evolution? 1. Mutations: changes in DNA 2. Nonrandom mating: choosing a mate because of proximity (being near by) or certain traits 3. Migration: Immigration = moving ...
... – Homologous structures – Analagous structures • Vestigial structures • Embryology • Molecular biology (DNA differences) What Causes Evolution? 1. Mutations: changes in DNA 2. Nonrandom mating: choosing a mate because of proximity (being near by) or certain traits 3. Migration: Immigration = moving ...
What to know - Ch 21-22
... EX: Bird that calls to warn others is in danger of being eaten, but does it anyway. 5) NATURAL SELECTION Alleles for traits that provide survival/reproductive advantage are selected for; increase in population FITNESS- = REPRODUCTIVE SUCCESS measured by number of offspring relative contribution an i ...
... EX: Bird that calls to warn others is in danger of being eaten, but does it anyway. 5) NATURAL SELECTION Alleles for traits that provide survival/reproductive advantage are selected for; increase in population FITNESS- = REPRODUCTIVE SUCCESS measured by number of offspring relative contribution an i ...
Evolution Learning Targets
... I can explain how genetic mutations may lead to natural selection. I know what homologous structure means and can give examples. I understand why a comparison in early development is used as evidence. I can explain how DNA is used as evidence for evolution. I can describe the four ways in which foss ...
... I can explain how genetic mutations may lead to natural selection. I know what homologous structure means and can give examples. I understand why a comparison in early development is used as evidence. I can explain how DNA is used as evidence for evolution. I can describe the four ways in which foss ...
PREZYGOTIC BARRIERS - Speedway High School
... EX: Bird that calls to warn others is in danger of being eaten, but does it anyway. 5) NATURAL SELECTION Alleles for traits that provide survival/reproductive advantage are selected for; increase in population FITNESS- = REPRODUCTIVE SUCCESS measured by number of offspring relative contribution an i ...
... EX: Bird that calls to warn others is in danger of being eaten, but does it anyway. 5) NATURAL SELECTION Alleles for traits that provide survival/reproductive advantage are selected for; increase in population FITNESS- = REPRODUCTIVE SUCCESS measured by number of offspring relative contribution an i ...
Name - Naber Biology
... Testing Natural Selection H. Allen Orr Scientific American, January, 2009, Vol. 300 Number 1 1. Why was Darwinism revolutionary? 2. What are the three goals of the recent experimental work in natural selection? 3. What is the best way to appreciate (witness) evolution by natural selection? 4. Based ...
... Testing Natural Selection H. Allen Orr Scientific American, January, 2009, Vol. 300 Number 1 1. Why was Darwinism revolutionary? 2. What are the three goals of the recent experimental work in natural selection? 3. What is the best way to appreciate (witness) evolution by natural selection? 4. Based ...
Chapter 6.1 Trashketball
... 1. A group of similar organisms that can mate with each other and produce fertile offspring… A. populations B. species C. fossils D. organisms ...
... 1. A group of similar organisms that can mate with each other and produce fertile offspring… A. populations B. species C. fossils D. organisms ...
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.