Age of Earth Natural Selection What if the environment changes? The organisms must adapt to the environment.
Download ReportTranscript Age of Earth Natural Selection What if the environment changes? The organisms must adapt to the environment.
1 Age of Earth 2 Natural Selection 3 4 What if the environment changes? The organisms must adapt to the environment. Those that don’t adapt-die. This is a very slow process….does not occur over night…many generations must past before any change in the population can be seen. 5 Example: Peppered Moth 6 7 Decent with modifications These changes increase a species’ fitness in their environment. 8 9 10 History • James Hutton -1785-Propsed that he Earth is millions of years old. • Thomas Malthus -1798-proposed that populations outgrew their food supplies, causing competition between organisms and a struggle for one species to survive against another • Jean-Baptiste Lamark -1809believed that all life forms evolved and that the driving force of evolution was the inheritance of acquired characteristics. He believed that organisms changed due to the demands of their environment. 11 •Lylle -1833-proposed that plant and animal species had arisen, developed variations, and then became extinct over time. He also believed that the Earth’s physical landscape changed over a long period of time. •Alfred Russel Wallace -1858-emphasis was based on the idea of competition for resources as the main force in natural selection •Charles Darwin -1859- Publishes “On the Origin of Species” 12 Charles Darwin 13 14 15 Humans select and breed for certain traits. Examples: The largest hog, the cow that gives the most milk, or fastest horse. Evidence for Change Over Time Fossil Record – Fossils that show how the same organism looked millions of years ago. – Paleontology – Use rock layers 16 – Isotope dating Relative Dating 17 18 19 Homologous structures 20 21 Stages of development p385 22 Vestigial organs –Organs or structures that do not seem to be used by the organism any longer. –They are usually reduced in size. 23 Vestigial Organs c 24 25 • Speciation 26 •is the evolution of a new species that occurs when interbreeding happens, or when the production of fertile offspring is prevented. In the physical world, natural barriers form and cause the breakup of populations to form smaller populations. Volcanoes, sea-level changes, and earthquakes are a few examples of natural occurrences that affect populations 27 Speciation Mechanisms • Behavioral Isolation – Populations are capable of interbreeding, but have different courtship rituals or other type of behavior. • Geographic Isolation – Separated by bodies of water or mountains. • Temporal Isolation – Reproduction takes place at different times of the year •Overtime they can change so much that they become unable to breed as they adapt to their environment. 28 Changes in allele frequency with in a population 29 Divergent Evolution 30 Convergent Evolution 31 Coevolution 32 Evolution at the species level is called microevolution. It results from genetic variation and natural selection within a population of organisms. Macroevolution is evolution that occurs between different species. 33 34 Evolution is the change in a species over time. 35 36 37 38 Rates of Evolution 39 Gradualism & Punctuated Equilibrium • Two ways in which the evolution of a species can occur. • A species can evolve by only one of these, or by both. •Species with a shorter evolution evolved mostly by punctuated equilibrium, and those with a longer evolution evolved mostly by gradualism. 40 Gradualism •Very gradually, over a long time... Over a short period of time it is hard to notice. •Small variations that fit an organism slightly better to its environment are selected for: a few more individuals with more of the helpful trait survive, and a few more with less of the helpful trait die. •Change is slow, constant, and consistent. 41 Punctuated equilibrium •change comes in spurts. There is a period of very little change, and then one or a few huge changes occur, often through mutations in the genes of a few individuals. Resistance in Bacteria 42 Read page p403. Two main sources of genetic variation 1. Mutations 2. Genetic Shuffling 43 EOCT- It is important that you are able to explain how the concepts of genetics provide the basis for explaining natural selection and evolution. This will help you answer questions like this: What is the end result of natural selection? A increased number of offspring of a given phenotype that survive B changes in the frequency of alleles in a population C fossil formation through extinction D environmental changes of a habitat 44 Although the Arctic fox and the kit fox are closely related, they look very different because the individuals A acquired traits during their lifetimes that contributed to survival B with traits most suited to their environments reproduced most successfully C migrated long distances to environments that most suited their traits D passed on to their offspring acquired behaviors that were helpful 45 Fossils of Archeopteryx show that this animal had feathers, like a bird. It also had a bony tail, teeth, and claws on its wings, like a reptile. This fossil is evidence that supports the idea that A birds and reptiles have a common ancestor B birds have changed very little over 150 million years C reptile species are more advanced than bird species D reptiles are warm-blooded like birds 46 Horses and tapirs have a common ancestor, but now look very different. Horses now are grassland animals adapted for grazing on grass and shrubs. Tapirs are jungle animals that live in dense forests and eat fruit, leaves and aquatic vegetation. Which of the following led to the development of such differences in the two species? A selective breeding B convergent evolution C DNA hybridization D natural selection 47 Adaptation is the key concept in natural selection. 48 • Adaptation is a key concept in natural selection. • Natural selection can change the inherited characteristics in a population and possibly even result in a new species. The environment affects the evolution of living things. House sparrows arrived in North America from Europe in the nineteenth century. Since then, genetic variation within the population, and selection in various habitats, have allowed them to inhabit most of the continent. House sparrows in the north are larger and darker colored than those in the south. Darker colors absorb sunlight better than light colors and larger size allows less surface area per unit volume, thus reducing heat loss—both advantages in a cold climate. This is an example of natural selection acting upon a population, producing micro-evolution on a continental scale. • Proposed by Charles Darwin, natural selection is the process by which organisms that are best suited to their environment survive and pass their genetic traits on to their offspring.