Earth History.

Slides:

Advertisements

Similar presentations

Advertisements

II. Why Do We Study Fossils Found in Rocks?

READING THE ROCK RECORD

II. Why Do We Study Fossils Found in Rocks?

Geologic Time (History as told by Rocks)

A Trip Through Geologic Time

A Little Bit of History… The history of geologic time begins with the human interest in mining. Interests in rock units began to flourish with commercial.

Earth History- Table of Contents RELATIVE vs. ABSOLUTE LAWS UNCONFORMITIES GEOLOGIC SECTIONS.

Determining Geologic Ages Lab # 8 pg 91

ESS 8.4 Earth’s History.

History of the Earth A matter-of-time scale…

Paleontology The study of past life

The History of Earth.

Dinosaurs Extinction Theory 12-2

Earth’s History.

Book G Chapter 4 – Section 1

READING THE ROCK RECORD. relative time: events are in sequence, but no actual dates absolute time: identifies actual date of event.

GEOLOGIC TIME PRECAMBRIAN TIME  4.6 B.Y.A. – 600 M.Y.A.  88 PERCENT OF EARTH’S HISTORY  FOSSILS ARE RARE! WHY? FOSSILS WHERE SOFT BODIED, LACKED BONES,

What Processes Shape our Earth?.  Geology: the scientific study of the origin, history, structure, and composition of the Earth  Importance: Understanding.

Earth History- Table of Contents RELATIVE vs. ABSOLUTE LAWS UNCONFORMITIES GEOLOGIC SECTIONS.

Ch.6 Earth’s History. Who’s got the TIME? RELATIVE: order/sequence known, but not the actual date of occurrence. “Time Line” ABSOLUTE: actual date determined.

Geologic Time Chapter 9.

Define the following terms at the top of your notes for Ch 21!

Ch. 23.6: Interpreting the Rock Record

Chapter 11 Fossils Fossil: evidence such as the remains, imprints, or traces of once living organisms preserved in rocks Many times dead.

Geologic Time The Geologic Time Scale Geologists have divided the history of the Earth in time units based on fossil evidence. The time units are part.

Mountain Building Folding vs. Faulting Geologic time & dating.

EARTH HISTORY UNIT MS. MITCHELL 9 TH GRADE EARTH SCIENCE VICTORIA MITCHELL 1.

Fossils and Geologic Time

Earth’s History Chapters 29 & 30. Paleontology is the study of the life that existed in Prehistoric times. Traces of ancient life (fossils) are the basis.

3.4 Earth’s Geologic History

Fossils and the Rock Record

Uniformitarianism: the processes that act on the Earth’s surface today are the same as the processes that have acted on the Earth’s surface in the past.

Chapter 17.1 Principle of Uniformitarianism

T5 Fossils & the Rock Records

Fossils and the Rock Record The Rock Record  Rocks record geological events and changing life forms of the past  Planet Earth was formed 4.6 billion.

History of Earth and its landforms… 8.E.2.1 and 8.E.2.2 Create a brainsplash in your notebook for the term “Fossil”.

Earth Science With Mr. Thomas. ► Fossils: ► Any evidence of earlier life preserved in rock. ► The study of these fossils is called:

Unit 3 Review Please see pages in your book for more information *This study guide is just to get you started studying– please look at your notes.

Fossils & The Geologic Time Scale. Fossils Preserved remains or traces of an organism that lived in the past. Fossils are formed when organisms die and.

There are different ways geologists can describe the age of rocks & geologic events:

1/28/13 - QOTD In the picture below, where is the oldest rock? A B.

READING THE ROCK RECORD. relative time: events are in sequence, but no actual dates absolute time: identifies actual date of event.

Rock Dating Geologists generally know the age of a rock by determining the age of the group of rocks, or formation, in which it is found.

Fossils are the remains, imprints, or traces of prehistoric organisms. Fossils have helped determine approximately when life first appeared, when plants.

II. Why Do We Study Fossils Found in Rocks? I.What is a Fossil? A. Definition: The evidence or remains of once-living plants or animals A.To provide evidence.

Chapter 16 Fossils and the Rock Record. The Rock Record Geologic Time Scale Divisions of time based on types of fossils found preserved in the rock Present:

The Rock and Fossil Record

Determining the Age of Rocks Relative Age of Rocks.

Geologic Time. The Geologic Time Scale  A summary of major events in Earth’s past that are preserved in the rock record  Divisions of Geologic Time.

I. History -Earth is believed to be somewhere around 4.6 billion years old. -Geologists use clues recorded in rock to reconstruct the events from the.

Discovering Earth’s History

Geologic Time Scale Day 2

Earth Science Chapter 6 I. Rocks of the crust provide clues to Earth’s past By analyzing these clues we can infer events from the past.

Geological history of the earth

II. Why Do We Study Fossils Found in Rocks?

Mr. Ahearn Earth Science 2010

Fossils and the Law of Superposition

Original Horizontality

Determine the order of events in the picture.

Geologic Time Notes By studying the characteristics of rocks and the fossils within them geologists can… interpret the environments in which the rocks.

Fossils Preserved remains/traces of living things Clues to the past

Earth’s History Created by Educational Technology Network

Presentation transcript:

Earth History

IT IS ESTIMATED THAT THE EARTH FORMED ALONG WITH THE SOLAR SYSTEM 4 IT IS ESTIMATED THAT THE EARTH FORMED ALONG WITH THE SOLAR SYSTEM 4.6 BILLION YEARS AGO (4,600 MYA) GEOLOGIC TIME SCALE A SUMMARY OF THE MAJOR EVENTS IN EARTH’S HISTORY EON – largest segment of geologic time ERA PERIOD EPOCH – smallest segment of geologic time

READING THE ROCK RECORD RELATIVE TIME VS. ABSOLUTE TIME PLACES EVENTS IN A SEQUENCE BUT DOES NOT IDENTIFY THEIR ACTUAL DATE OF OCCURRENCE IDENTIFIES THE ACTUAL DATES OF GEOLOGIC EVENTS EXAMPLE A LIST IN CHRONOLOGICAL ORDER OF WHAT YOU HAVE DONE TODAY UP UNTIL THIS TIME THE EXACT TIMES AT WHICH YOU DID THESE THINGS

FINDING THE AGE OF ROCKS WITH RELATIVE TIME LAW OF SUPERPOSITION- IN UNDISTURBED SEDIMENTARY ROCKS THE OLDEST ROCK LAYERS ARE AT THE BOTTOM AND THE YOUNGEST ARE AT THE TOP.

LAW OF CROSS-CUTTING RELATIONSHIPS- AN IGNEOUS INTRUSION IS YOUNGER THAN THE ROCK IT HAS INTRUDED INTO. (LOOK AT THE WHISKERS!)

LAW OF INCLUDED FRAGMENTS - IF FRAGMENTS OF ONE TYPE OF ROCK ARE FOUND IN ANOTHER ROCK LAYER THE ROCK FRAGMENTS MUST BE OLDER THAN THE ROCK LAYER IN WHICH THEY ARE FOUND FAULTED AND FOLDED LAYERS - LAYERS OF ROCK THAT HAVE BEEN FAULTED OR FOLDED MUST HAVE BEEN PRESENT BEFORE THE ACTIONS OF FAULTING OR FOLDING TOOK PLACE FOLDING FAULTING

UNCONFORMITY- A PLACE IN THE ROCK RECORD WHERE LAYERS OF ROCK ARE MISSING BECAUSE OF UPLIFT AND EROSION. THE RESULT CAN BE A LARGE AGE DIFFERENCE BETWEEN THE ROCKS ABOVE AND THOSE BELOW THE EROSIONAL SURFACE (IT APPEARS LIKE A SQUIGGLY LINE IN A CROSS-SECTION)

PLACE THE FOLLOWING EVENTS IN ORDER STARTING WITH THE OLDEST. B I G K M F C A D H J

ROCK CORRELATION MATCHING OF ROCK LAYERS THAT CAN BE SEEN AT THE EARTH’S SURFACE, OVER A LARGE AREA AN OUTCROP IS EXPOSED ROCK LAYERS AT THE EARTH’S SURFACE A KEY BED IS A THIN, WIDESPREAD LAYER, USUALLY OF VOLCANIC ASH, THAT CAN BE USED TO CORRELATE AN EXACT POINT OF TIME

FOSSILS A FOSSIL IS ANY EVIDENCE OF EARLIER LIFE PRESERVED IN THE ROCK ORIGINAL REMAINS (RARE) – THE ACTUAL UNCHANGED REMAINS OF THE PLANT OR ANIMAL ARE PRESERVED. REPLACED REMAINS – THE SOFT PARTS OF THE ORIGINAL ANIMAL HAVE DISAPPEARED AND THE HARD PARTS HAVE BEEN REPLACED BY MINERAL MATERIAL. (PETRIFIED WOOD)

MOLDS AND CASTS – FOSSIL SHELLS OR BONES ARE DISSOLVED COMPLETELY OUT OF THE ROCK LEAVING A HOLLOW DEPRESSION IN THE ROCK. NEW MINERAL MATERIAL FILLS THE MOLD IT FORMS A CAST OF THE ORIGINAL FOSSIL. TRACE FOSSILS – EVIDENCE OF LIFE OTHER THEN REMAINS, WHICH INCLUDES ANY IMPRESSIONS LEFT IN THE ROCK. (TRAILS, FOOTPRINTS, TRACKS, BURROWS)

INDEX FOSSIL EASILY IDENTIFIABLE SHORT-LIVED WIDESPREAD OCCURRENCE

MEASURING ABSOLUTE TIME TREE RINGS EACH RING REPRESENTS A SINGLE YEAR (SPRING/FALL) THE WIDTH OF THE RING DEPENDS UPON THE TEMPERATURE AND RAINFALL VARVES GLACIAL LAKE DEPOSITS. A THICK LIGHT COLORED LAYER IN THE SUMMER AND A THIN DARK LAYER IN THE WINTER

RADIOACTIVE DATING USED TO DATE FAR BACK IN TIME. CERTAIN ROCKS CONTAIN RADIOACTIVE ISOTOPES RADIOACTIVE ISOTOPES ARE ATOMS OF ELEMENTS THAT GIVE OFF RADIATION FROM THEIR NUCLEI RADIOACTIVE DECAY IS THE PROCESS BY WHICH A RADIOACTIVE ISOTOPE CHANGES INTO A NEW STABLE ELEMENT

HALF-LIFE THE RATE AT WHICH A RADIOACTIVE ELEMENT DECAYS. IT IS THE TIME IT TAKES FOR HALF OF THE ATOMS OF THE RADIOACTIVE ELEMENT TO DECAY TO A STABLE END PRODUCT (SEE PAGE 1 OF THE ESRT) AT THE END OF EACH HALF-LIFE, HALF OF THE RADIOACTIVE MATERIAL REMAINS PARENT ISOTOPE = THE RADIOACTIVE ISOTOPE THAT BEGINS DAUGHTER ISOTOPE = THE STABLE ISOTOPE THAT HAS BEEN CHANGED

RADIOCARBON DATING USES THE RADIOACTIVE ISOTOPE CARBON-14 FOUND IN ALL LIVING THINGS. BECAUSE CARBON-14 IS CONTINUALLY ABSORBED BY FOOD AND WATER IT STAYS CONSTANT IN LIVING THINGS. WHEN THE LIVING THING DIES THE PERCENTAGE OF CARBON-14 DECREASES AT THE RATE OF ITS HALF-LIFE. CAN BE USED TO DATE BACK ABOUT 100,000 YEARS

URANIUM LEAD METHOD IS USEFUL TO DATE ROCKS OLDER THAN 10 MILLION YEARS. CAN BE USED ONLY ON IGNEOUS ROCKS THAT CONTAIN THE RIGHT KIND OF URANIUM RUBIDIUM-STRONTIUM METHOD CAN ALSO BE USED TO DATE OLDER ROCKS BECAUSE OF ITS LONG HALF-LIFE. IT IS ALSO VERY COMMONLY FOUND IN IGNEOUS ROCKS. POTASSIUM-ARGON METHOD IS VERY USEFUL SINCE POTASSIUM-40 CAN BE FOUND IN METAMORPHIC, SEDIMENTARY, AND IGNEOUS ROCKS. IT CAN DATE OLDER ROCKS BUT MAY ALSO DATE ROCKS AS YOUNG AS 50,000 YEARS

Precambrian time is all of the geologic time before the Paleozoic Era. Precambrian rocks lack fossils because most of the organisms were microscopic bacteria and algae Stromatolites are algal reefs that make up a large part of the fossils from the Precambrian. HALF OF THE WORLDS METALLIC MINERALS ARE FOUND IN PRECAMBRIAN ROCKS

It is very difficult to interpret the rock record from the Precambrian for 3 reasons 1.) THE RECORD COVERS AN INCREDIBLY LARGE PERIOD OF TIME 2.) Many Precambrian rocks are severely deformed and folded 3.) MOSTLY LACKING IN INDEX FOSSILS WHICH MAKES ROCK CORRELATION DIFFICULT

PALEOZOIC ERA THE PALEOZOIC ERA MARKS THE BEGINNING OF AN ABUNDANT FOSSIL RECORD. MANY ANIMALS HAD HARD SHELLS AND SKELETONS NORTH AMERICA WAS OVER THE EQUATOR AND OUR CLIMATE WAS WARM WITH FEW SEASONAL CHANGES CAMBRIAN PERIOD TRILOBITES AND BRACHIOPODS ARE THE MOST COMMON FOSSIL TRILOBITES ARE FOUND THROUGHOUT THE PALEOZOIC ERA BUT NEVER MORE ABUNDANT AND WIDESPREAD THEN THE CAMBRIAN (INDEX FOSSIL)

THE BURGESS SHALE IS A ROCK FORMATION FOUND IN THE ROCKY MOUNTAINS OF CANADA. 120 DIFFERENT KINDS OF ANIMALS FROM THE MIDDLE OF THE CAMBRIAN PERIOD CAN BE FOUND THERE. ORDOVICIAN ALL LIFE STILL IN THE OCEANS THE END OF THE PERIOD IS MARKED BY THE TACONIC OROGENY WHEN A PIECE OF AFRICA BROKE OFF AND COLLIDED WITH N. AMERICA. THIS PRODUCED THE TACONIC MOUNTAINS

SILURIAN THE EURYPTERIDS APPEARED DURING THIS PERIOD. THEY ARE THE NYS FOSSIL. THEY WERE CALLED SEA SCORPIONS AND ARE THOUGHT TO BE DISTANT COUSINS OF THE TRILOBITE. LAND ANIMALS ALSO APPEARED. DISTANT COUSINS OF SPIDERS, MILLIPEDES, AND SCORPIONS CLIMATE BECAME VERY DRY IN N. AMERICA AND SHALLOW SEAS THAT COVERED THE CONTINENT EVAPORATED. (ROCK SALT BEDS IN WESTERN NY)

DEVONIAN PERIOD “AGE OF THE FISHES” FISH WERE JAWLESS AND WERE COVERED WITH HEAVY PLATES. POOR SWIMMERS THAT REACHED UP TO 9 METERS IN LENGTH

MISSISSIPPIAN AND PENNSYLVANIAN PERIOD REPTILES EVOLVED AS THE NEW LAND ANIMAL CLIMATE WAS WARM AND RAINY AND THE LAND WAS COVERED BY MANY SWAMPS. AS TREES AND FERNS FELL INTO THE SWAMP THEY SLOWLY CHANGED OVER TIME INTO COAL.