Climate Through Human History

The Geological Time Scale

Percentage of the geologic time in each of the four eras.
Scientist believe that Earth and the rest of the solar system formed about 4.6 billion years ago. The universe itself has existed for roughly 12 billion years. Both the age of the earth and the age of the universe are almost unconceivably longer than the total amount of time that humanlike species have been in excistence, about 4 million years.

An analogy that is sometimes made is to scale Earth's age down to a single calendar year begininning at 12:01 A.M. on January 1. In that case humans would have first appeared at about 4:40 P.M. on December 31, and the oldest human would have been born less than one second before midnight later that evening.

Geologists have divided the history of Earth into eons, eras, and many smaller periods and epochs. Eras, periods, and epochs are differentiated on the basis of life-forms. Each boundary is a point in time when there was a drastic change in the global environment. Each boundary coincides with an important step in the evolutionary process.

For the purposes of this class, we are interested in the Quaternary Period, which is divided into the Pleistoce and Holocene Epochs.

We are currently living during the Cenozoic Era, Quaternary Period, and the Holocene Epoch that began 10,000 years ago.

Geologic time scale

Eon

Era

Period

Epoch

Major Geologic Milestones

Phanerozoic

Cenozoic

Quaternary
(0-2 million yrs BP)

Holocene
(Present-10,000 yrs BP)

Modern humans develop. Pleistocene Ice Age Interglacial.

Pleistocene
(10,000 -1,600,000 yrs BP)

Pleistocene Ice Age. Extinction of many species of large mammals and birds.

Tertiary

Pliocene
(1.6-5.3 million yrs BP)

Development of hominid bipedalism. Cascade Mountains began forming. Climate cooling.

Miocene
(5.3-24 million yrs BP)
Chimpanzee and hominid lines evolve. Extensive glaciation in Southern Hemisphere. Climate cooling.

Oligocene
(24-37 million yrs BP)
Browsing mammals and many types of modern plants evolve. Creation of the Alps and Himalaya mountain chains. Volcanoes form in Rocky Mountans.

Eocene
(37-58 million yrs BP)
Primitive monkeys evolve and Himalayas began forming. Australian plate separates from Antarctica. Indian plate collides with Asia.

Paleocene
(58-66 million yrs BP)
Rats, mice, and squirrels evolve. Shallow continental seas becomes less widespread.

Mesozoic

Cretaceous
(65-144 million yrs BP)
First flowering plants, greatest dinosaur diversity, Cretaceous Mass Extinction (66 m BP), and Andes Mountains form. Africa and South America begin to separate. Climate cooling because of mountain building. Shallow seas have extensive distribution.

Jurassic
(144-208 million yrs BP)
First birds and mammals appear. Nevadian Mountains form. Large areas of the continents covered by shallow seas. Climate generally warm and stable with little seasonal or latitudinal variation. Shallow seas expanding.

Triassic
(208-245 million yrs BP)
First dinosaurs. Extensive deserts exist in continental interiors. Climate warm. Shallow seas limited in distribution.

Paleozoic

Permian
(245-286 million yrs BP)
Permian Mass Extinction. Reptiles become more diverse. Climate cold at beginning of the Permian then warms. Average elevation of landmasses at their highest shallow seas less extensive.

Pennsylvanian
(286-320 million yrs BP)
First reptiles appear. Winged insects evolve. Occasional glaciation in Southern Hemisphere.

Mississippian
(320-360 million yrs BP)
Primitive ferns and insects evolve. Forests appear and become dominant. Mountain building producing arid habitats in the interior of some continents.

Devonian
(360-408 million yrs BP)
First amphibians and trees appear. Appalachian Mountains form. Extinction of primative vascular plants. Landmasses generally increasing in altitude. Climate cooling.

Silurian
(408-438 million yrs BP)
Major extinction event occurs. First land plants and insects. Continents are generally flat. Tectonic uplift begins.

Ordovician
(438-505 million yrs BP)
First fish and fungi. Greatest extent od shallow seas. Climate becoming warmer.

Cambrian
(505-570 million yrs BP)
Invertebrates become common. Fossilization of the Burgess Shale. Large areas of shallow seas near the equator. Climate was warm.

Proterozoic
(570-2500 million yrs BP)

Also known as Precambrian
Eukaryotic cell organisms develop. First multicellular organisms. Changes in the lithosphere created major land masses and extensive shallow seas.

Archean
(2500-3800 million yrs BP)
Slow development of the lithosphere, hydrosphere, and atmosphere. First single-celled prokaryotic organisms.

Hadean
(3800-4600 million yrs BP)
Earth's oldest rocks come from the end of this Eon.

Geologic time scale
Eon	Era	Period	Epoch	Major Geologic Milestones
Phanerozoic	Cenozoic	Quaternary (0-2 million yrs BP)	Holocene (Present-10,000 yrs BP)	Modern humans develop. Pleistocene Ice Age Interglacial.
Pleistocene (10,000 -1,600,000 yrs BP)	Pleistocene Ice Age. Extinction of many species of large mammals and birds.
Tertiary	Pliocene (1.6-5.3 million yrs BP)	Development of hominid bipedalism. Cascade Mountains began forming. Climate cooling.
Miocene (5.3-24 million yrs BP)	Chimpanzee and hominid lines evolve. Extensive glaciation in Southern Hemisphere. Climate cooling.
Oligocene (24-37 million yrs BP)	Browsing mammals and many types of modern plants evolve. Creation of the Alps and Himalaya mountain chains. Volcanoes form in Rocky Mountans.
Eocene (37-58 million yrs BP)	Primitive monkeys evolve and Himalayas began forming. Australian plate separates from Antarctica. Indian plate collides with Asia.
Paleocene (58-66 million yrs BP)	Rats, mice, and squirrels evolve. Shallow continental seas becomes less widespread.
Mesozoic	Cretaceous (65-144 million yrs BP)		First flowering plants, greatest dinosaur diversity, Cretaceous Mass Extinction (66 m BP), and Andes Mountains form. Africa and South America begin to separate. Climate cooling because of mountain building. Shallow seas have extensive distribution.
Jurassic (144-208 million yrs BP)		First birds and mammals appear. Nevadian Mountains form. Large areas of the continents covered by shallow seas. Climate generally warm and stable with little seasonal or latitudinal variation. Shallow seas expanding.
Triassic (208-245 million yrs BP)		First dinosaurs. Extensive deserts exist in continental interiors. Climate warm. Shallow seas limited in distribution.
Paleozoic	Permian (245-286 million yrs BP)		Permian Mass Extinction. Reptiles become more diverse. Climate cold at beginning of the Permian then warms. Average elevation of landmasses at their highest shallow seas less extensive.
Pennsylvanian (286-320 million yrs BP)		First reptiles appear. Winged insects evolve. Occasional glaciation in Southern Hemisphere.
Mississippian (320-360 million yrs BP)		Primitive ferns and insects evolve. Forests appear and become dominant. Mountain building producing arid habitats in the interior of some continents.
Devonian (360-408 million yrs BP)		First amphibians and trees appear. Appalachian Mountains form. Extinction of primative vascular plants. Landmasses generally increasing in altitude. Climate cooling.
Silurian (408-438 million yrs BP)		Major extinction event occurs. First land plants and insects. Continents are generally flat. Tectonic uplift begins.
Ordovician (438-505 million yrs BP)		First fish and fungi. Greatest extent od shallow seas. Climate becoming warmer.
Cambrian (505-570 million yrs BP)		Invertebrates become common. Fossilization of the Burgess Shale. Large areas of shallow seas near the equator. Climate was warm.
Proterozoic (570-2500 million yrs BP)	Also known as Precambrian	Eukaryotic cell organisms develop. First multicellular organisms. Changes in the lithosphere created major land masses and extensive shallow seas.
Archean (2500-3800 million yrs BP)	Slow development of the lithosphere, hydrosphere, and atmosphere. First single-celled prokaryotic organisms.
Hadean (3800-4600 million yrs BP)	Earth's oldest rocks come from the end of this Eon.

Andrea Hahmann
http://www.atmo.arizona.edu/students/classlinks/fall02/atmo336/lectures/sec5/geolog.html

Last modified: Fri Nov 15 10:54:20 MST 2002