Archean

"Archaean" redirects here. For , see Archaea.

Archaean eon

(millions of years ago)

ImageSize = width:175 height:360 PlotArea = left:40 right:5 bottom:100 top:45 AlignBars = justify

DateFormat = yyyy Period = from:2500 till:3800 TimeAxis = orientation:vertical order:reverse ScaleMajor = unit:year increment:500 start:2500 ScaleMinor = unit:year increment:100 start:2500

Colors =

id:eon    value:rgb(1,0.7,1)  legend:Archaean_eon  # light purple
id:era    value:rgb(1,1,0.7)  legend:Era   # light yellow
id:black  value:black

Legend = left:15 top:40

BarData =

bar:eon
bar:era

PlotData=

width:100 align:center textcolor:black mark:(line,black)

bar:eon color:eon

from:2500  till:3800 # text:Archaean~(2500–3800)

bar:era color:era

from:2500   till:2800  text:Neoarchean~(2500–2800)
from:2800   till:3200   text:Mesoarchean~(2800–3200)
from:3200   till:3600  text:Paleoarchean~(3200–3600)
from:3600   till:3800   text:Eoarchean~(3600–3800)

TextData =

tabs:(25-left)

pos:(15,90)
text:"Preceded by:"
text:^Hadean eon

pos:(15,360)
text:"Followed by:"
text:^Proterozoic eon and
text:^Paleoproterozoic era

([expand])

The Archean (Archaean; previously known as the Archaeozoic or Archeozoic) is a geologic eon that refers to the time before the Proterozoic, 2500 Ma (million years ago). Instead of being based on stratigraphy, this date is defined chronometrically. The lower boundary has not been officially recognized by the International Commission on Stratigraphy, but it is usually set to 3800 Mya at the end of the Hadean eon.

Contents

1 Archean Earth
2 Archean Geology
3 Archean Life
4 References:
5 External links

Archean Earth

At the beginning of the Archean, the Earth's heat flow was nearly three times higher than it is today, and was still twice the current level by the beginning of the Proterozoic. Thus, tectonic and volcanic activity were considerably more active than they are today; the Earth's crust was not only thinner than is today, but probably broken up into many more plates, with numerous hot spots, rift valleys, and transform faults.Stanley, Steven M. Earth System History. New York: W.H. Freeman and Company, 1999. ISBN 0716728826 p. 297-301

There were no large continents until late in the Archean; small protocontinents were the norm, prevented from coalescing into larger units by the high rate of geologic activity. These felsic protocontinents probably formed at hot spots rather than subduction zones, from a variety of sources: mafic magma melting more felsic rocks, partial melting of mafic rock, and from the metamorphic alteration of felsic sedimentary rocks.Stanley, pp. 297-301

The Archean atmosphere apparently lacked free oxygen. Temperatures appear to have been near modern levels, although astronomers think that the sun was about one-third dimmer. This is thought to reflect larger amounts of greenhouse gases than later in the Earth's history.

Archean Geology

Although a few stones are known that are older, the oldest rock formations exposed on the surface of the Earth are Archean or slightly older. Archean rocks are known from Greenland, the Canadian Shield, western Australia, and southern Africa. Although the first continents formed during this eon, rock this age makes up only 7% of the world's current cratons; even allowing for erosion and destruction of past formations, evidence suggests that only 5-40% of the present continental crust formed during the Archean.Stanley, pp. 301-2

In contrast to the Proterozoic, Archean rocks are often heavily metamorphized deep-water sediments, such as graywackes, mudstones, volcanic sediments, and banded iron formations. Greenstone belts are typical Archean formations, consisting of alternating high and low-grade metamorphic rocks. The high-grade rocks were derived from volcanic island arcs, while the low-grade metamorphic rocks represent deep-sea sediments eroded from the neighboring island arcs and deposited in a forearc basin. In short, greenstone belts represent sutured protocontinents.Stanley, pp. 302-3

Archean Life

Fossils of cyanobacterial mats (stromatolites) are found throughout the Archean--becoming especially common late in the eon--while a few probable bacterial fossils are known from chert beds.Stanley, 307 In addition to the domain Bacteria (once known as Eubacteria), microfossils of the extremophilic domain Archaea have also been identified.

Life was probably present throughout the Archean, but may have been limited to simple non-nucleated single-celled organisms, called Prokaryota (and formerly known as Monera); there are no known eukaryotic fossils, though they might have evolved during the Archean and simply not left any fossils.Stanley, pp. 306, 323 However, no fossil evidence yet exists for ultramicroscopic intracellular organisms such as viruses.

References:

External links

[GeoWhen Database]

Precambrian
Hadean eon	Archean eon	Proterozoic eon	Phanerozoic eon

Archean eon
Eoarchean Paleoarchean Mesoarchean Neoarchean

From Wikipedia, the Free Encyclopedia. Original article here. Support Wikipedia by contributing or donating.
All text is available under the terms of the GNU Free Documentation License See Wikipedia Copyrights for details.