Difference between revisions of "Template:Geologic time scale"

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imported>DanHobley
(Undid revision 568093205 by Sunray (talk) About to add a true ref. Text fine; existing ref remains appropriate as a comment)
imported>DanHobley
(Add explicit ref for the Phanerozoic CO2 levels)
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|style="background:{{period color|Holocene}}"|
 
|style="background:{{period color|Holocene}}"|
 
[[Chronozone|chrons]]: [[Subatlantic]]{{·}}[[Subboreal]]{{·}}[[Atlantic (period)|Atlantic]]{{·}}[[Boreal (period)|Boreal]]{{·}}[[Preboreal]]
 
[[Chronozone|chrons]]: [[Subatlantic]]{{·}}[[Subboreal]]{{·}}[[Atlantic (period)|Atlantic]]{{·}}[[Boreal (period)|Boreal]]{{·}}[[Preboreal]]
|rowspan="1" | [[Quaternary glaciation|Quaternary Ice Age]] recedes, and the current [[interglacial]] begins; rise of human [[civilization]].  [[Sahara]] forms from savannah, and [[agriculture]] begins.  [[Stone Age]] cultures give way to [[Bronze Age]] (3300 BC) and [[Iron Age]] (1200 BC), giving rise to [[Synoptic table of the principal old world prehistoric cultures|many pre-historic cultures]] throughout the world. [[Little Ice Age]] ([[stadial]]) causes brief cooling in [[Northern Hemisphere]] from 1400 to 1850. Following the [[Industrial Revolution]], [[Earth's atmosphere|Atmospheric]] [[Carbon dioxide in the Earth's atmosphere|CO<sub>2</sub>]] levels rise from around 280 [[parts per million]] volume (ppmv) to the current level of 390 ppmv.<ref name="atmospheric-carbon-dioxide">For more information on this, see the following articles: [[Earth's atmosphere]], [[carbon dioxide]], [[Carbon dioxide in the Earth's atmosphere]], [[global warming]], [[climate change]], [[:Image:Phanerozoic_Carbon_Dioxide.png]], [[:Image:65 Myr Climate Change.png]], [[:Image:Five Myr Climate Change.png]]</ref>
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|rowspan="1" | [[Quaternary glaciation|Quaternary Ice Age]] recedes, and the current [[interglacial]] begins; rise of human [[civilization]].  [[Sahara]] forms from savannah, and [[agriculture]] begins.  [[Stone Age]] cultures give way to [[Bronze Age]] (3300 BC) and [[Iron Age]] (1200 BC), giving rise to [[Synoptic table of the principal old world prehistoric cultures|many pre-historic cultures]] throughout the world. [[Little Ice Age]] ([[stadial]]) causes brief cooling in [[Northern Hemisphere]] from 1400 to 1850. Following the [[Industrial Revolution]], [[Earth's atmosphere|Atmospheric]] [[Carbon dioxide in the Earth's atmosphere|CO<sub>2</sub>]] levels rise from around 280 [[parts per million]] volume (ppmv) to the current level of 390 ppmv.<ref name="Royer">{{cite journal |last=Royer |title={{CO2}}-forced climate thresholds during the Phanerozoic |journal=Geochimica et Cosmochimica Acta |volume=70 |pages=5665–75 |year=2006 |url=http://droyer.web.wesleyan.edu/PhanCO2%28GCA%29.pdf |format=PDF |doi=10.1016/j.gca.2005.11.031 |first1=Dana L. |issue=23|bibcode = 2006GeCoA..70.5665R }}</ref><ref name="atmospheric-carbon-dioxide">For more information on this, see the following articles: [[Earth's atmosphere]], [[carbon dioxide]], [[Carbon dioxide in the Earth's atmosphere]], [[global warming]], [[climate change]], [[:Image:Phanerozoic_Carbon_Dioxide.png]], [[:Image:65 Myr Climate Change.png]], [[:Image:Five Myr Climate Change.png]]</ref>
 
|style="background:{{period color|Holocene}}"| 0.0117<ref name="holocene">The start time for the [[Holocene]] epoch is here given as [[Upper Paleolithic|11,700]] [[before present|years ago]]. For further discussion of the dating of this epoch, see [[Holocene]].</ref>
 
|style="background:{{period color|Holocene}}"| 0.0117<ref name="holocene">The start time for the [[Holocene]] epoch is here given as [[Upper Paleolithic|11,700]] [[before present|years ago]]. For further discussion of the dating of this epoch, see [[Holocene]].</ref>
 
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|rowspan="4" style="background:{{period color|Pleistocene}}"| [[Pleistocene]]
 
|rowspan="4" style="background:{{period color|Pleistocene}}"| [[Pleistocene]]
 
|style="background:{{period color|Upper Pleistocene}}"| [[Late Pleistocene|Late]] (locally [[Tarantian]]{{·}}[[Tyrrhenian Stage|Tyrrhenian]]{{·}}[[Eemian]]{{·}}[[Sangamonian Stage|Sangamonian]])
 
|style="background:{{period color|Upper Pleistocene}}"| [[Late Pleistocene|Late]] (locally [[Tarantian]]{{·}}[[Tyrrhenian Stage|Tyrrhenian]]{{·}}[[Eemian]]{{·}}[[Sangamonian Stage|Sangamonian]])
|rowspan="4"| Flourishing and then extinction of many large [[mammal]]s ([[Pleistocene megafauna]]). Evolution of anatomically modern [[human]]s. [[Last glacial period|Quaternary Ice Age]] continues with [[glaciations]] and [[interstadial]]s (and the accompanying fluctuations from 100 to 300 ppmv in [[Earth's atmosphere|atmospheric]] CO<sub>2</sub> levels<ref name="atmospheric-carbon-dioxide" />), further intensification of [[Greenhouse and Icehouse Earth|Icehouse Earth]] conditions, roughly 1.6 [[Year#SI_prefix_multipliers|Ma]]. [[Last glacial maximum]] (30000 [[before present|years ago]]), [[last glacial period]] (18000&ndash;15000 years ago). Dawn of human [[Lower Paleolithic#Cultures|stone-age cultures]], with [[Middle Paleolithic#Cultures|increasing technical complexity]] relative to previous ice age cultures, such as [[Upper Paleolithic#Cultures|engravings and clay statues]] (e.g. [[Venus of Lespugue]]), particularly in the [[Mediterranean]] and Europe. [[Lake Toba]] [[supervolcano]] erupts 75000 years before present, causing a [[volcanic winter]] that [[Toba catastrophe theory|pushes humanity to the brink of extinction]].  Pleistocene ends with [[Oldest Dryas]], [[Older Dryas]]/[[Allerød Oscillation|Allerød]] and [[Younger Dryas]] climate events, with Younger Dryas forming the boundary with the Holocene.
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|rowspan="4"| Flourishing and then extinction of many large [[mammal]]s ([[Pleistocene megafauna]]). Evolution of anatomically modern [[human]]s. [[Last glacial period|Quaternary Ice Age]] continues with [[glaciations]] and [[interstadial]]s (and the accompanying fluctuations from 100 to 300 ppmv in [[Earth's atmosphere|atmospheric]] CO<sub>2</sub> levels<ref name="Royer" /><ref name="atmospheric-carbon-dioxide" />), further intensification of [[Greenhouse and Icehouse Earth|Icehouse Earth]] conditions, roughly 1.6 [[Year#SI_prefix_multipliers|Ma]]. [[Last glacial maximum]] (30000 [[before present|years ago]]), [[last glacial period]] (18000&ndash;15000 years ago). Dawn of human [[Lower Paleolithic#Cultures|stone-age cultures]], with [[Middle Paleolithic#Cultures|increasing technical complexity]] relative to previous ice age cultures, such as [[Upper Paleolithic#Cultures|engravings and clay statues]] (e.g. [[Venus of Lespugue]]), particularly in the [[Mediterranean]] and Europe. [[Lake Toba]] [[supervolcano]] erupts 75000 years before present, causing a [[volcanic winter]] that [[Toba catastrophe theory|pushes humanity to the brink of extinction]].  Pleistocene ends with [[Oldest Dryas]], [[Older Dryas]]/[[Allerød Oscillation|Allerød]] and [[Younger Dryas]] climate events, with Younger Dryas forming the boundary with the Holocene.
 
|style="background:{{period color|Late Pleistocene}}"| 0.126
 
|style="background:{{period color|Late Pleistocene}}"| 0.126
 
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|-
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|rowspan="6" style="background:{{period color|Miocene}}"| [[Miocene]]
 
|rowspan="6" style="background:{{period color|Miocene}}"| [[Miocene]]
 
|style="background:{{period color|Messinian}}"| [[Messinian]]
 
|style="background:{{period color|Messinian}}"| [[Messinian]]
|rowspan="6"| [[Greenhouse and Icehouse Earth|Moderate Icehouse climate]], puncuated by [[ice age]]s; [[Orogeny]] in [[northern hemisphere]]. Modern [[mammal]] and [[bird]] families become recognizable.  [[Equidae|Horses]] and [[mastodon]]s diverse. [[Grass]]es become ubiquitous. First [[ape]]s appear (for reference see the article: "[[Sahelanthropus tchadensis]]"). [[Kaikoura Orogeny]] forms [[Southern Alps]] in New Zealand, continues today. Orogeny of the Alps in Europe slows, but continues to this day. [[Carpathian orogeny]] forms [[Carpathian Mountains]] in [[Central Europe|Central]] and [[Eastern Europe]]. [[Hellenic orogeny]] in Greece and Aegean Sea slows, but continues to this day. [[Middle Miocene Disruption]] occurs. Widespread forests slowly [[photosynthesis|draw in]] massive amounts of CO<sub>2</sub>, gradually lowering the level of atmospheric CO<sub>2</sub> from 650 ppmv down to around 100 ppmv<ref name="atmospheric-carbon-dioxide" />.
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|rowspan="6"| [[Greenhouse and Icehouse Earth|Moderate Icehouse climate]], puncuated by [[ice age]]s; [[Orogeny]] in [[northern hemisphere]]. Modern [[mammal]] and [[bird]] families become recognizable.  [[Equidae|Horses]] and [[mastodon]]s diverse. [[Grass]]es become ubiquitous. First [[ape]]s appear (for reference see the article: "[[Sahelanthropus tchadensis]]"). [[Kaikoura Orogeny]] forms [[Southern Alps]] in New Zealand, continues today. Orogeny of the Alps in Europe slows, but continues to this day. [[Carpathian orogeny]] forms [[Carpathian Mountains]] in [[Central Europe|Central]] and [[Eastern Europe]]. [[Hellenic orogeny]] in Greece and Aegean Sea slows, but continues to this day. [[Middle Miocene Disruption]] occurs. Widespread forests slowly [[photosynthesis|draw in]] massive amounts of CO<sub>2</sub>, gradually lowering the level of atmospheric CO<sub>2</sub> from 650 ppmv down to around 100 ppmv.<ref name="Royer" /><ref name="atmospheric-carbon-dioxide" />
 
|style="background:{{period color|Messinian}}"| 7.246<sup>*</sup>
 
|style="background:{{period color|Messinian}}"| 7.246<sup>*</sup>
 
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|rowspan="4" style="background:{{period color|Eocene}}"| [[Eocene]]
 
|rowspan="4" style="background:{{period color|Eocene}}"| [[Eocene]]
 
|style="background:{{period color|Priabonian}}"| [[Priabonian]]
 
|style="background:{{period color|Priabonian}}"| [[Priabonian]]
|rowspan="4"| [[Greenhouse and Icehouse Earth|Moderate, cooling climate]].  Archaic [[mammal]]s (e.g. [[Creodont]]s, [[Condylarth]]s, [[Uintatheriidae|Uintatheres]], etc) flourish and continue to develop during the epoch. Appearance of several "modern" mammal families. Primitive [[Cetacea|whales]] diversify.  First [[grass]]es. Reglaciation of Antarctica and formation of its [[ice cap]]; [[Azolla event]] triggers [[ice age]], and the [[Greenhouse and Icehouse Earth|Icehouse Earth]] climate that would follow it to this day, from the settlement and decay of [[seafloor]] [[algae]] drawing in massive amounts of atmospheric [[carbon dioxide]]<ref name="atmospheric-carbon-dioxide" />, lowering it from 3800 [[parts per million|ppmv]] down to 650 ppmv. End of [[Laramide Orogeny|Laramide]] and [[Sevier orogeny|Sevier Orogenies]] of the [[Rocky Mountains]] in North America. [[Orogeny]] of the [[Alps]] in Europe begins. [[Hellenic Orogeny]] begins in Greece and [[Aegean Sea]].
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|rowspan="4"| [[Greenhouse and Icehouse Earth|Moderate, cooling climate]].  Archaic [[mammal]]s (e.g. [[Creodont]]s, [[Condylarth]]s, [[Uintatheriidae|Uintatheres]], etc) flourish and continue to develop during the epoch. Appearance of several "modern" mammal families. Primitive [[Cetacea|whales]] diversify.  First [[grass]]es. Reglaciation of Antarctica and formation of its [[ice cap]]; [[Azolla event]] triggers [[ice age]], and the [[Greenhouse and Icehouse Earth|Icehouse Earth]] climate that would follow it to this day, from the settlement and decay of [[seafloor]] [[algae]] drawing in massive amounts of atmospheric [[carbon dioxide]],<ref name="Royer" /><ref name="atmospheric-carbon-dioxide" /> lowering it from 3800 [[parts per million|ppmv]] down to 650 ppmv. End of [[Laramide Orogeny|Laramide]] and [[Sevier orogeny|Sevier Orogenies]] of the [[Rocky Mountains]] in North America. [[Orogeny]] of the [[Alps]] in Europe begins. [[Hellenic Orogeny]] begins in Greece and [[Aegean Sea]].
 
|style="background:{{period color|Priabonian}}"| 38.0
 
|style="background:{{period color|Priabonian}}"| 38.0
 
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|rowspan="3" style="background:{{period color|Late Jurassic}}"| [[Upper Jurassic|Late]]
 
|rowspan="3" style="background:{{period color|Late Jurassic}}"| [[Upper Jurassic|Late]]
 
|style="background:{{period color|Tithonian}}"| [[Tithonian]]
 
|style="background:{{period color|Tithonian}}"| [[Tithonian]]
|rowspan="11"| [[Gymnosperm]]s (especially [[conifer]]s, [[Bennettitales]] and [[cycad]]s) and [[fern]]s common. Many types of [[dinosaur]]s, such as [[sauropod]]s, [[carnosaur]]s, and [[stegosaur]]s. Mammals common but small. First [[bird]]s and [[Squamata|lizards]]. [[Ichthyosaur]]s and [[plesiosaur]]s diverse. [[Bivalvia|Bivalve]]s, [[Ammonite]]s and [[Belemnoidea|belemnites]] abundant. [[Sea urchin]]s very common, along with [[crinoid]]s, starfish, [[Porifera|sponges]], and [[Terebratulida|terebratulid]] and [[Rhynchonellida|rhynchonellid]] [[brachiopod]]s. Breakup of [[Pangaea]] into [[Gondwana]] and [[Laurasia]]. [[Nevadan orogeny]] in North America. [[Rangitata Orogeny|Rantigata]] and [[Cimmerian Orogeny|Cimmerian Orogenies]] taper off. Atmospheric CO<sub>2</sub> levels 4&ndash;5 times the present day levels (1200&ndash;1500 ppmv, compared to today's 385 ppmv<ref name="atmospheric-carbon-dioxide" />).
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|rowspan="11"| [[Gymnosperm]]s (especially [[conifer]]s, [[Bennettitales]] and [[cycad]]s) and [[fern]]s common. Many types of [[dinosaur]]s, such as [[sauropod]]s, [[carnosaur]]s, and [[stegosaur]]s. Mammals common but small. First [[bird]]s and [[Squamata|lizards]]. [[Ichthyosaur]]s and [[plesiosaur]]s diverse. [[Bivalvia|Bivalve]]s, [[Ammonite]]s and [[Belemnoidea|belemnites]] abundant. [[Sea urchin]]s very common, along with [[crinoid]]s, starfish, [[Porifera|sponges]], and [[Terebratulida|terebratulid]] and [[Rhynchonellida|rhynchonellid]] [[brachiopod]]s. Breakup of [[Pangaea]] into [[Gondwana]] and [[Laurasia]]. [[Nevadan orogeny]] in North America. [[Rangitata Orogeny|Rantigata]] and [[Cimmerian Orogeny|Cimmerian Orogenies]] taper off. Atmospheric CO<sub>2</sub> levels 4&ndash;5 times the present day levels (1200&ndash;1500 ppmv, compared to today's 385 ppmv<ref name="Royer" /><ref name="atmospheric-carbon-dioxide" />).
 
|style="background:{{period color|Tithonian}}"| 152.1 ±&nbsp;0.9
 
|style="background:{{period color|Tithonian}}"| 152.1 ±&nbsp;0.9
 
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|rowspan="3" style="background:{{period color|Furongian}}"| [[Furongian]]
 
|rowspan="3" style="background:{{period color|Furongian}}"| [[Furongian]]
 
|style="background:{{period color|Stage 10}}"| [[Cambrian#Subdivisions|Stage 10]]
 
|style="background:{{period color|Stage 10}}"| [[Cambrian#Subdivisions|Stage 10]]
|rowspan="10"| Major diversification of life in the [[Cambrian Explosion]]. Numerous fossils; most modern [[Animalia|animal]][[Phylum|phyla]] appear. First [[chordate]]s appear, along with a number of extinct, problematic phyla. Reef-building [[Archaeocyatha]] abundant; then vanish. [[Trilobite]]s, [[priapulid]] worms, [[Porifera|sponges]], inarticulate [[brachiopod]]s (unhinged lampshells), and many other animals numerous. [[Anomalocarid]]s are giant predators, while many Ediacaran fauna die out. [[Prokaryote]]s, [[protist]]s (e.g., [[foram]]s), [[fungus|fungi]] and [[algae]] continue to present day. [[Gondwana]] emerges. [[Petermann Orogeny]] on the [[Australia (Continent)|Australian Continent]] tapers off (550&ndash;535 [[Year#SI_prefix_multipliers|Ma]]). Ross Orogeny in Antarctica. [[Adelaide Geosyncline|Adelaide Geosyncline (Delamerian Orogeny)]], majority of orogenic activity from 514&ndash;500[[Year#SI_prefix_multipliers|Ma]]. [[Lachlan Orogeny]] on [[Australia (Continent)|Australian Continent]], c. 540&ndash;440[[Year#SI_prefix_multipliers|Ma]]. [[Earth's atmosphere|Atmospheric]] CO<sub>2</sub> content roughly 20&ndash;35 times present-day ([[Holocene]]) levels (6000 ppmv compared to today's 385 ppmv)<ref name="atmospheric-carbon-dioxide" />
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|rowspan="10"| Major diversification of life in the [[Cambrian Explosion]]. Numerous fossils; most modern [[Animalia|animal]][[Phylum|phyla]] appear. First [[chordate]]s appear, along with a number of extinct, problematic phyla. Reef-building [[Archaeocyatha]] abundant; then vanish. [[Trilobite]]s, [[priapulid]] worms, [[Porifera|sponges]], inarticulate [[brachiopod]]s (unhinged lampshells), and many other animals numerous. [[Anomalocarid]]s are giant predators, while many Ediacaran fauna die out. [[Prokaryote]]s, [[protist]]s (e.g., [[foram]]s), [[fungus|fungi]] and [[algae]] continue to present day. [[Gondwana]] emerges. [[Petermann Orogeny]] on the [[Australia (Continent)|Australian Continent]] tapers off (550&ndash;535 [[Year#SI_prefix_multipliers|Ma]]). Ross Orogeny in Antarctica. [[Adelaide Geosyncline|Adelaide Geosyncline (Delamerian Orogeny)]], majority of orogenic activity from 514&ndash;500[[Year#SI_prefix_multipliers|Ma]]. [[Lachlan Orogeny]] on [[Australia (Continent)|Australian Continent]], c. 540&ndash;440[[Year#SI_prefix_multipliers|Ma]]. [[Earth's atmosphere|Atmospheric]] CO<sub>2</sub> content roughly 20&ndash;35 times present-day ([[Holocene]]) levels (6000 ppmv compared to today's 385 ppmv)<ref name="Royer" /><ref name="atmospheric-carbon-dioxide" />
 
|style="background:{{period color|Stage 10}}"| c. 489.5
 
|style="background:{{period color|Stage 10}}"| c. 489.5
 
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Revision as of 17:15, 11 August 2013