* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download The Evolution of Living Things Chapter 8.1 Change Over Time
Objections to evolution wikipedia , lookup
Sexual selection wikipedia , lookup
Sociocultural evolution wikipedia , lookup
Unilineal evolution wikipedia , lookup
Natural selection wikipedia , lookup
Creation and evolution in public education wikipedia , lookup
Evidence of common descent wikipedia , lookup
Acceptance of evolution by religious groups wikipedia , lookup
Hindu views on evolution wikipedia , lookup
Punctuated equilibrium wikipedia , lookup
Evolutionary history of life wikipedia , lookup
Catholic Church and evolution wikipedia , lookup
The Descent of Man, and Selection in Relation to Sex wikipedia , lookup
Hologenome theory of evolution wikipedia , lookup
Transitional fossil wikipedia , lookup
Paleontology wikipedia , lookup
Genetics and the Origin of Species wikipedia , lookup
The Evolution of Living Things Chapter 8.1 Change Over Time Differences among organisms • Adaptation • Can include • Species • Requirements • Example a hereditary characteristic that helps an organism to survive and reproduce in its environment structures for behavior, finding food, protection, moving from place to place living things that share the same characteristics and adaptations can mate with one another to produce fertile offspring Red-eyed tree frog Change over time • Species today • Earth age • Fossil evidence • Process of evolution range from bacteria that lack cell nuclei to multi-cellular fungi (plants and animals) 4.6 billion years old shows that living things have changed over time newer species have descended from older species Evolution • The theory that populations accumulate changes over time • Because of evolution scientist believe that all living things from daisies to crocodiles to humans share a common ancestor Evidence of evolution • Fossil record • Fossils formed » Trilobite an ancient aquatic animal related to the crab solidified remains or imprints of once living organisms usually a dead organism is covered by a layer of sediment *minerals in the sediment may seep into the organism, gradually replacing the organism with stone *organism may not rot completely and form a hole in the rock called mold sedimentary layers Seed fern leaf, 300 million years old Reading the fossil record • Fossil record a historical sequence of life shows the order in which evolutionary changes have occurred shows how environmental conditions on earth may have changed • Time sequencing the deeper in the earth’s crust the less they look like present day organisms the upper layers of the earths crust tend to resemble present day creatures Gaps in the fossil record • For a fossil to form specific conditions must be present *skeleton must be buried in sediment that is very fine *oxygen O2 must not be present (it promotes decay) » Conditions to create fossils are very rare, and sometimes fossils are difficult to find Vestigial structures • Vestigial structure • Example See page pg. 180181 remnant of a once useful structure appendix Evidence of evolution • Evidence of evolution comparison of different organisms • Skeletal structures similarities indicate that animals are all related by a common ancestor »Evolutionary process modified these bones over millions of years to perform specialized functions • DNA all have the same genetic DNA- no other genetic molecule has been found »The more closely related the more similar the DNA is • Embryonic Structures vertebrate embryos look very similar »Changes in the process of embryo development produce different animals Skeletal Structures • . Human arm Cat leg Dolphin flipper Bat wing The most similar bones are shown in the same color DNA from different species • . Embryonic structures • . The Evolution of Living Things Chapter 8.2 How does evolution happen? How does evolution happen • 1800s scientists realized earth is older than anyone had previously thought • Evidence shows gradual processes had shaped the Earth’s surface over millions of years Charles Darwin • 1831 graduated from college with degree in thoelogy father wanted him to be a doctor but Darwin was interested in natural science HMS Beagle Darwin took a 5 year voyage around the world serving as a naturalist Observations Darwin made observations on this voyage that later became the foundation for the theory of evolution by natural science Darwin’s adventure • Collections thousands of plant and animal samples took detailed notes • Galapagos islands observed that animals and plants were similar but not identical to plants and animals in nearby South America • Finches different than finches in South America (Ecuador) and from each other (mainly the shape of their beak, and the food they ate) • Theory finches that survived may have adapted to various ways of living on the Galapagos Islands • Darwin learned from farmers and animal and plant breeders • Selective breeding humans choose the trait they want passed along to the next generation • Farmers chose certain traits for farm animals • Breeders chose traits that shaped the breeds we see today Darwin learned from geologists • Charles Lyell wrote “Principles of Geology” which said the Earth had been formed by natural processes over a long period of time • Thomas Malthus wrote “Essay on the Principle of Population” which states that human populations have the potential to reproduce uncontrollably, beyond the available food source » Darwin noted that since some of these species without enough food survived then there must be something special about them, which helps them to survive Natural Selection • 1858 20 years after his voyage on the HMS Beagle Darwin received a letter from Alfred Russel Wallace had independently come up with the same theory of evolution that Darwin had been working on • Published “On the Origins of Species by Natural Selection” • Theory evolution occurs through a process called natural selection Natural Selection More evidence of evolution • Evolution by natural selection parents pass traits to their offspring • 1930-40 biologists combined principles of genetic inheritance and theory of evolution by natural selection Darwin’s • Mutations responsible for the changes Darwin saw (changes at the DNA level) The Evolution of Living Things Chapter 8.3 Natural Selection in Action Natural selection in action • The Theory of Natural Selection how populations change over many generations to adapt to changes in the environment Insecticide Resistance • Resistance to insecticides over 500 species of insects have developed a resistance to certain insecticides • Quick adaptation they evolve quickly to resist certain poisons quickly because they have short generation times • Generation time the period between the birth of one generation to the birth of another generation • Antibiotic resistant disease tuberculosis and other diseases are becoming resistant to antibiotics because the surviving microorganisms are becoming strong antibioticresistant strains Adaptation to pollution • Example European peppered moth Originally dark moths were easier for birds to see and eat, after the influence of pollution turned nearby tree trunks darker the lighter moths were easier to see and eat for the birds More dark moths survived and produced offspring that were dark, so the population shifted. Formation of a new species • Process of natural selection explains how a species can evolve into a new species • 1-Separation a portion of the population is cut off from the rest of the population • 2-Adaptation separated groups may adapt to fit their environment • 3-Division oven hundreds, thousands, or even millions of years the two groups may become so different that they can’t interbreed – When species can’t interbreed they are no longer considered to be the same species