Section 1 Darwin s theory

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Transcription:

Evolution

Section 1 Darwin s theory

EVOLUTION The gradual change in a species over time.

2 types EVOLUTION Microevolution: change within a species. Macroevolution: change of a species into a new species.

Macroevolution

SCIENTIFIC THEORY A well-tested concept that explains a wide range of observations.

SCIENTIFIC THEORY Has not been proven as fact because we were never there.

Summary Darwin s theory of evolution by natural selection is explained by The fossil record The diversity of living things The variety of beaks among finches on the Galapagos Islands

Section 2: Evidence of Evolution

Evidence of Evolution Evidence of Evolution 1. 2. 3. 4

FORMS OF EVIDENCE 1. Similar body structures 2. Patterns of early development 3. DNA sequences 4. Fossils

Body structures Comparative anatomy: The comparison of the structures of different organisms. Homologous structures: Body parts that are structurally similar in related species.

COMPARATIVE ANATOMY

HOMOLOGOUS STRUCTURES

Early Development In early development, all vertebrates have a tail and tiny slits in their throats.

DNA Sequences The DNA sequences of different species are similar.

Fossils 4 types Molds and casts Petrified Fossils Trace Fossils Preserved Remains

Fossils Essential Questions: What are fossils and how are they formed? What are the different kinds of fossils? What do fossils tell about how organisms have changed over time?

How do fossils form? Fossils are the preserved remains or traces of living things. Fossils provide evidence of how life has changed over time. Fossils also help scientists infer how Earth s surface has changed. Fossils are clues to what past environments were like.

How do fossils form? Most fossils form when living things die and are buried by sediments. The sediments slowly harden into rock and preserve the shapes of the organisms.

Law of superposition The geologic principle that states that in horizontal layers of sedimentary rock, each layer is older than the layer above it and younger than the layer below it.

Law of superposition Pg. 273

Which layer is the youngest? A B C D

How do fossils form? Scientists who study fossils are called paleontologists.

How do fossils form? Fossils are usually found in sedimentary rock. Sedimentary rock is the type of rock that is made of hardened sediment.

What are the different kinds of fossils? Fossils found in rock include petrified fossils, molds and casts, carbon films, and trace fossils. Other fossils form when the remains of organisms are preserved in substances such as tar, amber, or ice.

What are the different kinds of fossils? Petrified Fossils A fossil may form when the remains of an organism become petrified. Petrified means turning to stone Petrified fossils are fossils in which minerals replace all or part of an organism.

What are the different kinds of fossils? Molds and casts A mold is a hollow area in sediment in the shape of an organism or part of an organism. A mold forms when the hard part of the organism such as a shell, is buried in sediment. A cast is a copy of the shape of an organism. Water carrying dissolved minerals and sediment may seep into the empty space of a mold. If the water deposits the minerals and sediment there, the result is a cast.

Molds and Casts

What are the different kinds of fossils? Carbon films An extremely thin coating of carbon on rock. HOW DOES A CARBON FILM FORM? When sediment buries an organism, some of the materials that make up the organism can become gases. These gases escape from the sediment, leaving carbon behind. Eventually, only a thin film of carbon remains.

Carbon Films

What are the different kinds of fossils? Trace fossils Trace fossils provide evidence of the activities of ancient organisms. A fossilized footprint is on example of a trace fossil. Other examples of trace fossils include the trails that animals followed or the burrows that they lived in.

Trace Fossils

What are the different kinds of fossils? Preserved Remains Some processes preserve the remains of organisms with little or no change. Some remains are preserved when organisms become trapped in tar. Ancient organisms also have been preserved in amber. Amber is the hardened resin, or sap, of evergreen trees. Freezing is another way in which remains can be preserved.

Preserved Remains

What do fossils tell about how organisms have changed over time? The fossil record provides evidence about the history of life on Earth. The fossil record also shows that different groups of organisms have changed over time. The fossil record reveals a surprising fact: fossils occur in a particular order. Older rocks contain fossils of simpler organisms. Younger rocks contain fossils of more complex organisms. In other words, the fossil record shows that life on Earth has evolved, or changed.

What do fossils tell about how organisms have changed over time? The fossil record provides evidence to support the theory of evolution. A scientific theory is a well-tested concept that explains a wide range of observations. Evolution is the gradual change in living things over long periods of time. The fossil record shows that millions of types of organisms have evolved. But many others have become extinct. A type of organism is extinct if it no longer exists and will never again live on Earth.

What do fossils tell about how organisms have changed over time? Paleontologists use fossils to build up a picture of Earth s environments in the past. Fossils also provide evidence of Earth s climate in the past. Scientists can use fossils to learn about changes in Earth s surface.

In Summary Most fossils form when living things die and are quickly buried by sediment, which eventually hardens and preserves parts of the organisms. The major kinds of fossils include petrified remains, molds, casts, carbon films, trace fossils, and preserved remains. The fossil record shows that many different organisms have lived on Earth at different times and that groups of organisms have changed over time.

Fossils Preserved fossils Rock Fossils amber tar ice Trace fossils Casts and molds Petrified fossils Carbon films

Section 3 Evolution of Species

EXTINCTION The disappearance of all members of a species from Earth.

Extinction In the past extinctions occurred on a large scale due to an environmental change that organisms could not adapt to.

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