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Digging Into the Past

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Title: Digging Into the Past


1
Digging Into the Past
  • Earth and Life Science
  • Fossil Evidence

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Earth ScienceGeology and Fossil Evidence
  • S6E5 Students will investigate the scientific
    view of how the earths surface is formed.
  • f. Describe how fossils show evidence of the
    changing surface and climate of the Earth.

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Related Content Standards
  • S6E5.
  • b. Classify rocks by their process of
    formation.
  • c. Describe processes that change rocks and the
    surface of the earth.
  • d. Recognize that lithospheric plates
    constantly move and cause major geological events
    on the earths surface.

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Life ScienceHistory of Life and Fossil Evidence
  • S7L5. Students will understand evolution of
    living organisms through inherited
    characteristics that promote survival.
  • c. Explain how the fossil record found in
    sedimentary rock provides evidence for the long
    history of changing life forms.

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Related Content Standards
  • S7L4.
  • b. Explain in a food web that sunlight is the
    source of energy and that this energy moves from
    organism to organism.
  • c. Recognize that changes in environmental
    conditions can affect the survival of both
    individuals and entire species.
  • S7L5. Students will examine the evolution of
    living organisms through inherited
    characteristics that promote survival of
    organisms and the survival of successive
    generations of their offspring.
  • Explain how physical characteristics of organisms
    have changed over successive generations (e.g.
    Darwins finches and peppered moths of
    Manchester)
  • Describe ways in which species on earth have
    evolved due to natural selection.

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Characteristics of Science Standards
  • S6CS1. Students will explore the importance of
    curiosity, honesty, openness, and skepticism in
    science and will exhibit these traits in their
    own efforts to understand how the world works.
  • S6CS4. Students will use tools and instruments
    for observing, measuring, and manipulating
    equipment and materials in scientific activities.
  • S6CS5. Students will use the ideas of system,
    model, change, and scale in exploring scientific
    and technological matters.
  • S5CS6. Students will communicate scientific ideas
    and activities clearly.
  • S6CS7. Students will question scientific claims
    and arguments effectively.
  • S6CS8. Students will investigate the
    characteristics of scientific knowledge and how
    it is achieved.
  • S6CS10. Student will enhance reading in all
    curriculum areas.

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Big Ideas
  • Evidence
  • Fossils
  • Climate
  • Changing Surface of the Earth
  • History of the Earth
  • Evidence
  • Fossils
  • Changing Life Forms
  • History of the Earth

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Understandings
  • Scientists use evidence to explain the history of
    the Earth.
  • The Earths surface is constantly changing.
  • Rock formations provide evidence.
  • From Earths rocks we can learn about changes
    that have occurred in the Earths surface, we can
    find evidence of changes in the Earths climate,
    and we can find evidence of organisms of long
    ago.
  • Fossils are the most important source of
    information about life on Earth in the distant
    past.
  • The principle that geological forces seen in
    operation at present should be used to explain
    the past history of the Earth is known as
    uniformitarianism.
  • The order in which rocks are layered is an
    important clue to Earths history.
  • The Law of Superposition is fundamental to the
    interpretation of Earths history.
  • Layers are usually formed horizontally, with the
    oldest rock strata on the bottom and the youngest
    on top.
  • Sedimentary rocks are formed particle by particle
    and bed by bed, and the layers are piled one on
    top of the other.
  • Rock layers reveal data about the locations of
    earlier oceans, mountains, plains, and plateaus.
  • Dating rocks allows scientists to study the most
    ancient rocks and refer to the history as a
    geologic timetable.

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Understandings
  • Scientists use evidence to explain the history of
    life on the Earth.
  • Some organisms have survived Earths changing
    surface and climate.
  • Some organisms have not survived Earths changing
    surface and climate.
  • Organisms have changed through time.
  • Rock formations provide evidence.
  • From Earths rocks we can learn about changes
    that have occurred in the Earths surface, we can
    find evidence of changes in the Earths climate,
    and we can find evidence of organisms of long
    ago.
  • Fossils are the most important source of
    information about life on Earth in the distant
    past.
  • The order in which rocks are layered is an
    important clue to Earths history.
  • Layers are usually formed horizontally, with the
    oldest rock strata on the bottom and the youngest
    on top.
  • Dating rocks allows scientists to study the most
    ancient rocks and refer to the history as a
    geologic timetable.
  • Scientists can learn many things about organisms
    of long ago, such as their development, body
    structure, habits, and the climate in which they
    lived.
  • Organisms have changed through time and older
    species are ancestors of younger ones.
  • Index fossils had a short, well-known time of
    existence and are used to determine the age of
    rocks precisely.
  • Many thousands of layers of sedimentary rock
    provide evidence for the long history of the
    earth and for the long history of changing life
    forms whose remains are found in the rocks.
  • More recently deposited rock layers are more
    likely to contain fossils resembling existing
    species.
  • Fossils are formed in many different ways.

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Stubby Dino Find Blurs Image of Long-Neck
Lumberers John RoachNational Geographic
News June 1, 2005 Paleontologists today unveiled
a sauropod dinosaur with a stubby neck. The
discovery smudges the common picture of sauropods
as unspecialized, lumbering dinosaurs that used
very long necks to munch away at any greenery in
sight, including treetops.
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Questions to Consider
  • Can we stop the earth from changing?
  • Why was Nebraska the first state to require
    oceanography as a part of its science curriculum?
  • Why have fossilized sea life been found in rock
    at the top of Mt. Everest and the remains of a
    lush tropical rainforest been found buried under
    miles of ice and snow at the South Pole?

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Questions to Consider
  • How can fossils tell us what ancient environments
    were like?
  • Evidence left by early people is called
    artifacts. Some examples are arrowheads, ancient
    beads, and animal skins used as clothing. Why do
    you think we dont call them fossils?
  • Why was Nebraska the first state to require
    oceanography as a part of its science curriculum?
  • Why have fossilized sea life been found in rock
    at the top of Mt. Everest and the remains of a
    lush tropical rainforest been found buried under
    miles of ice and snow at the South Pole?
  • Can you find fossils where you live? Where do
    you think you would go to look for fossils?
  • Do all organisms adapt or die?
  • How do scientists accurately depict organisms
    from only a fragment of the organism found in a
    fossil? Or do they?

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Knowledge and Skills
  • How to use scientific language correctly
  • What a fossil is and how it is formed
  • How we obtain evidence
  • What is climate
  • How fossils show climate change and changes in
    the earths surface
  • Make simulated fossils
  • Simulate/explain changes in earths history
  • Research theoriesKT event, Ice Age evidence,
    Plate tectonics, superposition, uniformitarianism
  • Simulate geologic dating
  • Sketch evidence of rock layering and fossil
    evidence

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Stage 2 Evidence of the Evidence
  • Performance Task
  • Part One
  • You are a construction worker in charge of
    digging the foundation of a building in a
    downtown area of a large city. You find evidence
    of fossils. What do you do? What is the
    evidence? How do you know they are fossils?
    Write a newspaper article where you were
    interviewed about your job and the find.

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Part Two
  • You contact the site manager who must talk to the
    city council and building owners about the
    evidence. Write a telephone skit telling about
    the resulting conference call and what will
    happen next.
  • Products The class is divided into characters
    and groups for a debate over what will happen to
    the project. Suggested characters and groups
    include
  • Construction worker
  • Site Manager
  • City Council members
  • Building owners and their lawyers
  • Professor of geology from a local university
  • Curator of a natural history museum
  • Members of the public
  • News reporter from local media

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After the debate,
  • Write a position paper or make a display about
    this scenario.
  • Choose a location in Georgia and explain what
    kind of fossil evidence would be found there.
  • What may have caused the fossil evidence?
  • What are some reasons for preserving or not
    preserving fossil evidence?
  • Could you find history of fossil evidence in that
    location? Site sources.
  • Use the following terms correctly rock
    formation, superposition, uniformitarianism,
    fossil formation

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Knowledge
  • How to use the scientific language correctly,
  • What is a fossil?
  • How do we obtain fossil evidence?
  • Biographies of paleontologists and geologists
    such as William Smith, Georges Cuvier, and
    Alexandre Brongniart, Alfred Wallace, and Charles
    Darwin
  • Geologic Timetable
  • The difference between threatened, endangered and
    extinct organisms

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Skills
  • Make simulated fossilsprints, casts, molds, etc.
  • Simulate/explain changes in organisms through
    earths history
  • Research theoriesNatural Selection
  • Explain geologic dating
  • Explain how index fossils show evidence of ages
    of rocks
  • Sketch evidence of rock layering and fossil
    evidence

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Performance Task
  • You are a paleontologist working on a new dig.
    You have found evidence of a new organism. Make
    a display to show your findings
  • Classification based on the evidence you have
    located
  • Environment of the organism
  • How did the organism get its food? Give examples
    of evidence from fossil remains.
  • Where did the organism live? How do you know?
  • Why is the organism no longer alive?
  • What is the organism most like? Compare the
    fossil remains to a current organism.

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Other Evidence
  • Observation
  • Sketches of rock layers and fossil evidence
  • Demonstrate how a fossil can be formed using
    sand, water, and an object such as seashell
  • Simulations of fossil production
  • Simulations depicting rocks as they change
    layering, folding, faulting, etc.
  • Simulations of fossil digs
  • Label and sequence pictures depicting fossil
    formations
  • Tell or write what a fossil is and what
    information it can provide.
  • Research geological events, principles of
    geology, and biographies
  • Cartoons, comic strips, or Powerpoint
    presentations of major geologic events impacting
    climate changes
  • Group reports (jigsaw) of biographies

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Other Evidence
  • Constructed response about extinct, threatened,
    and endangered organisms
  • Examples of adaptation
  • Selected response test about evidence (Examples
    included in samples)
  • Matching evidence found in fossils to changes in
    food getting beaks and feet
  • Group reports (jigsaw reporting) of biographies
  • Sketches of rock layers and fossil evidence
  • Simulations of fossil production
  • Simulations of fossil digs
  • Research on geological events, fossil finds in
    Georgia, and biographies
  • Cartoon or PowerPoint presentation of major
    geological events impacting climate changes
  • Label and sequence pictures depicting fossil
    formation
  • Geologic Timetable

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Language Marlees students will use in this unit
are not necessarily the same terms that would be
found on a standardized assessment.
  • Evidence
  • Archeology
  • Paleontology
  • Sedimentary rock
  • Extinction
  • Fossil
  • Mold
  • Print
  • Amber
  • Tar
  • Remains
  • Cast
  • Index fossil
  • Layers
  • Superposition
  • Uniformitarianism
  • Relative dating
  • Plate tectonics
  • Ice Age evidence
  • KT event
  • Adaptation
  • Diversity

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Self-Assessment Questions
  • What did you accomplish today?
  • What strengths do you think you showed in your
    work?
  • How did you feel about the topic we investigated
    today?
  • How well do you think you understood the activity
    we did today?
  • What questions do you have about what we did
    today?
  • Are there some things you dont understand?
  • What do you think is the most important thing you
    learned in science this week?

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Multiple Choice Tests
  • The next set of slides are questions from
    released state tests.
  • http//edinformatics.com/testing/testing.htm
  • Instruction can be written to guide the students
    in understanding the concept at a different
    level.

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  • Fossils of the fern Glossopteris have been found
    in Africa, Australia, Antarctica, and South
    America. How do scientists explain this
    observation?
  • The wind blew the seeds across the oceans from
    continent to continent.
  • The fern developed independently on each
    continent.
  • The continents were at one time joined together
    and then moved apart.
  • The fern had adaptations to survive the different
    environments of the continents.

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  • Scientists compare layers of rock to each other
    in order to determine the
  • Relative age of rocks.
  • Composition of rocks.
  • Amount of fossils in rocks.
  • Chemical composition of rocks.

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  • The best evidence that two land areas were once
    connected is the discovery that both land masses
  • Have the same climate.
  • Are in the same stage of succession.
  • Exist along the same line of longitude.
  • Have similar types of rocks and fossils.

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  • Fossil fuels were formed from?
  • Uranium
  • Sea water
  • Sand and gravel
  • Dead plants and animals

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  • Which of the following would cause a long-term
    (lasting thousands of years) change to Earth?
  • Spring flooding along the Saint John River
  • A hurricane coming north from the banks of the
    Carolinas
  • A volcano erupting such as Mount Pinatubo in the
    Philippines
  • Tornadoes spawned from cold and warm air clashing

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  • As a scientist was hiking up a mountain, she
    found fossils of seashells in some of the rocks.
    Which is a reasonable conclusion she can make?
  • The rocks were formed when molten lava was
    cooled.
  • Shelled sea organisms once inhabited forested
    mountains.
  • The rocks were formed in an ocean and later
    uplifted when the mountain was formed.
  • The fossil seashells were carried up from an
    ocean and embedded in the rocks by strong winds.

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  • Which BEST describes the movement of the plates
    that make up Earth's surface over millions of
    years?
  • They moved for millions of years but now have
    stopped.
  • They stayed the same for millions of years but
    are now moving.
  • They have been continually moving.
  • They have never moved.

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  • Fossils similar to marine life found in the
    oceans today have been found in rocks on top of
    mountains. How can this be explained?
  • The marine life can live on land or sea.
  • Marine organisms were once able to breathe air.
  • The rocks in which the fossils were found were
    formed under an ocean.
  • Marine organisms have evolved from land organisms.

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  • Fossils are evidence of living things that were
    alive many, many years ago and often consist of
    the skeletons of creatures imbedded in rock. Why
    dont fossils contain the animals soft tissues,
    as well?
  • Because the soft tissues decayed before the
    fossil could be formed
  • Because the rock breaks down soft tissues.
  • Because the soft tissues were always eaten by
    scavengers.
  • Because the rock always smashed the soft tissues
    flat.

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  • Which BEST describes the surface of the Earth
    over billions of years?
  • A flat surface is gradually pushed up into higher
    and higher mountains until the Earth is covered
    with mountains.
  • High mountains gradually wear down until most of
    the Earth is at sea level.
  • High mountains gradually wear down as new
    mountains are continuously being formed over and
    over again.
  • High mountains and flat plains stay side by side
    for billions of years with little change.

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