Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lecture 29: Mass Extinctions. X X X X X X X X Phanerozoic Mass Extinctions biodiversity Mississippian Pennsylvanian Ma Jurassic Cambrian.

Published byAbner Thompson Modified over 9 years ago

Similar presentations

Presentation on theme: "Lecture 29: Mass Extinctions. X X X X X X X X Phanerozoic Mass Extinctions biodiversity Mississippian Pennsylvanian Ma Jurassic Cambrian."— Presentation transcript:

1 Lecture 29: Mass Extinctions

2 X X X X X X X X

3 Phanerozoic Mass Extinctions biodiversity Mississippian Pennsylvanian Ma Jurassic Cambrian

4 Apparent percentage of marine animals going extinct

5 O D P T C J

6 Magnitude (biodiversity loss during extinction event) X Intensity (duration of extinction event) Measure of extinction event

7 Ordovician Mass Extinction(s) Global cooling and widespread glaciers in southern continents Global sea level drops – continental shelves exposed Third largest Phanerozoic extinction event - 60% of marine invertebrates wiped out

8 Causes: * Rapid, multiple pulses of transgressions/regression * Widespread oceanic anoxia * Bolide impact? Kellwasser Event Hangenberg Event 416 354 Devonian Mass Extinction(s) Results: 22% of all families, 57% of genera and 75% of species extinct

9 Mississippian Extinction Results - Seventh largest mass extinction of the Phanerozoic Era: * Numerous brachiopod genera extinct globally, many others locally. Nearshore genera suffered very slightly higher rates of extinction. * Extinction did not select against genera because of their environmental breadth, number of regional occurrences (a proxy for relative abundance), species diversity, or body size. Extinction did strongly select against genera with narrow global latitudinal ranges. * Genera that survived late Mississippian mass extinction dominate global brachiopod faunas until the middle Permian. Causes: * Global cooling and south polar glaciation

10 Pennsylvanian Extinction Results: * Coal forest devastation – Once cosmopolitan ecosystem fragmented into smaller “islands”; cannot adapt to quickly increasing temperatures. * Vertebrate and invertebrate groups tied to coal forests die out – includes many amphibian groups and large insect species * Reptiles fare well – remember the amniote egg! Causes - Within a few thousand years: * Global temperatures become cooler and drier * Intense ice age and global sea level fall (300 ft.) * End-Carboniferous global warming

11 Mississippian/Pennsylvanian mass extinctions: Glaciation at southern pole – less water in ocean basins Uplift – increased sediment supply Pangea forms – less coastal area Permian mass extinction: Miss./Penn. causes, + Siberian Traps Bolide? Methane traps? Permian Mass Extinction

12 The most devastating of all mass extinctions. Nearly 96% of all marine and terrestrial species went extinct. Very rapid! In the sea rugose and tabulate corals, trilobites, many classes, orders and families of crinoids, brachiopods, ammonoids, as well as other echinoderm, mollusk, and vertebrate taxa went extinct. On land a total breakdown of terrestrial ecosystems occurred. Most vertebrate and plant groups went extinct. The Earth came close to a pre-Ediacaran (Late Proterozoic) state – i.e., being nearly devoid of multicellular animal and plant life. Cause(s) of the extinction are not totally known, but may include rapid global warming, anoxic oceans, widespread volcanism, methane gas release, and/or extraterrestrial impact.

13 * Triassic terrestrial and marine ecosystems devastated. * Soil formation was halted on land, seas were anoxic. * Land and seas populated by very few species – surviving species dominate ecosystems (low diversity but high abundance). * Triassic recovery from the mass extinction took nearly 6 Ma. Following the Permian mass extinction:

14 Triassic Mass Extinction Results: 20% of all marine families extinct (conodonts gone) At least 50% of all known species extinct (i.e., non-crocodile crurotarsans, some therapsids, many large amphibians) Extinction of groups of large reptiles allows for eventual dominance of dinosaurs during Jurassic Period Causes: Bolide? No Triassic-Jurassic impact crater identified Gradual climate change or sea level fluctuations? To sudden… Massive volcanic activity? Massive volumes of basaltic magma extruded (CAMP). Paleosols preserve huge spike in CO 2, HS 2, aerosols – would cause intense global warming or global cooling Biocalcification crisis? Organisms unable to utilize CaCO 3

15 Jurassic Extinction Results: “Minor” mass extinction, including most stegosaurids and sauropods, many genera of ammonoids, marine reptiles, and bivalves Causes: Unknown… extinct

16 Cretaceous Mass Extinction

17 Causes: * Asteroid impacts (Wetumpka, Manson, esp. Chicxulub) * Massive volcanic activity (Deccan Traps) – huge volumes of basaltic magma extruded, noxious gases released into atmosphere * Net effect is reduced sunlight and photosynthesis – collapse of food chain * Gradual sea level and climate changes? Evidence for end-Cretaceous cooling global temperatures…

18 Extinction of: Non-avian dinosaurs Mosasaurs Ammonites Pterosaurs Survivors - the more generalized, the better: 80% of cartilaginous fish 90% of bony fish Turtles Crocodilians Avian dinosaurs Squamate lizards Mammals Significant fuanal turnover of: Ostracodes Coccolithophores Radiolarians Foraminifera Terrestrial plants Mollusks Results of Cretaceous Mass Extinction extinct

Download ppt "Lecture 29: Mass Extinctions. X X X X X X X X Phanerozoic Mass Extinctions biodiversity Mississippian Pennsylvanian Ma Jurassic Cambrian."

Similar presentations

The geologic time scale shows Earth’s past.

The geologic time scale shows Earth’s past.
Earth’s Past.

Earth’s Past.
Extinctions and how to change diversity 1. Sepkoski’s Curves and others. 2. How to change diversity 3. Models of diversity increase 4. Perturbations to.

Extinctions and how to change diversity 1. Sepkoski’s Curves and others. 2. How to change diversity 3. Models of diversity increase 4. Perturbations to.
Mass Extinction By Joe Baraona. What is Mass Extinction? “The extinction of a large number of species within a relatively short period of geological time,

Mass Extinction By Joe Baraona. What is Mass Extinction? “The extinction of a large number of species within a relatively short period of geological time,
The Terminal Permian Extinction Greatest mass extinction ever Greatest mass extinction ever 90-95% of marine taxa 90-95% of marine taxa Approximately.

The Terminal Permian Extinction Greatest mass extinction ever Greatest mass extinction ever 90-95% of marine taxa 90-95% of marine taxa Approximately.
For the exam, you must know all of the information listed on the slides (unless otherwise stated), but not all of the dates. Here are the dates that you.

For the exam, you must know all of the information listed on the slides (unless otherwise stated), but not all of the dates. Here are the dates that you.
GEOLOGIC TIME SCALE. PRECAMBRIAN ERA  5,000 – 544 MYA.  The beginnings of life, approximately 1,200 MYA.  Single and multiple celled organisms- lived.

GEOLOGIC TIME SCALE. PRECAMBRIAN ERA  5,000 – 544 MYA.  The beginnings of life, approximately 1,200 MYA.  Single and multiple celled organisms- lived.
Geologic Timescale.

Geologic Timescale.
A history including how life evolved, how the geosphere changed and major extinction events.

A history including how life evolved, how the geosphere changed and major extinction events.
The Permian Mass Extinction. What causes extinctions? 1.Competition from other organisms -Everything needs some space to live. -If there isn’t enough.

The Permian Mass Extinction. What causes extinctions? 1.Competition from other organisms -Everything needs some space to live. -If there isn’t enough.
Earth’s History. Origin of the Earth Nebular Hypothesis –Bodies of our solar system condensed from an enormous cloud –Cloud began contracting, spinning,

Earth’s History. Origin of the Earth Nebular Hypothesis –Bodies of our solar system condensed from an enormous cloud –Cloud began contracting, spinning,
Geological Timeline Heather Mortensen. Precambrian Era : Hadean Eon 4.6 to 3.9 billion years ago, Archean Eon 3.9 to 2.5 billion years ago, Proterozoic.

Geological Timeline Heather Mortensen. Precambrian Era : Hadean Eon 4.6 to 3.9 billion years ago, Archean Eon 3.9 to 2.5 billion years ago, Proterozoic.
Permian-Triassic Extinction “The Mother of all Extinctions” Anne Kleinhenz.

Permian-Triassic Extinction “The Mother of all Extinctions” Anne Kleinhenz.
Geologic Time Scale (Earth is 4.6 billion years old)

Geologic Time Scale (Earth is 4.6 billion years old)
End Show Slide 1 of 30 Copyright Pearson Prentice Hall Biology.

End Show Slide 1 of 30 Copyright Pearson Prentice Hall Biology.

Paleozoic Life Invertebrates. Major invertebrate phyla evolved in the Cambrian Trace fossils common Echinoderms diverse Trilobites, inarticulate brachiopods,

Paleozoic Life Invertebrates. Major invertebrate phyla evolved in the Cambrian Trace fossils common Echinoderms diverse Trilobites, inarticulate brachiopods,
Hadean (4.5 to 3.96 bya) Earth accreted from bolides. Material differentiated into core, mantle, crust and atmosphere. Hostile conditions. Early crust.

Hadean (4.5 to 3.96 bya) Earth accreted from bolides. Material differentiated into core, mantle, crust and atmosphere. Hostile conditions. Early crust.
GEOLOGIC TIME Time scale app?. PRECAMBRAIN Longest era Longest era Earth was inhospitable Earth was inhospitable Still cooling Still cooling No atmosphere.

GEOLOGIC TIME Time scale app?. PRECAMBRAIN Longest era Longest era Earth was inhospitable Earth was inhospitable Still cooling Still cooling No atmosphere.
PALEOZOIC ERA (542 Mya - 251 Mya) Andrea Villalba, Fabiola Ferrabone, Alfredo de Obaldia, Nicole Cortez.

PALEOZOIC ERA (542 Mya Mya) Andrea Villalba, Fabiola Ferrabone, Alfredo de Obaldia, Nicole Cortez.

Similar presentations

Ads by Google