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Chapter 15. The Cambrian Explosion and Beyond. Multicelluarity. First multicellular organisms began approximately 600 Mya First animals about 565 Mya In about 40 My nearly every major animal phylum appeared in fossil record The Cambrian Explosion The Phanerozoic Eon Visible life.
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Chapter 15 The Cambrian Explosion and Beyond
Multicelluarity • First multicellular organisms began approximately 600 Mya • First animals about 565 Mya • In about 40 My nearly every major animal phylum appeared in fossil record • The Cambrian Explosion • The Phanerozoic Eon • Visible life
Nature of the Fossil Record • Fossil = any trace left by an organism that lived in the past • Fossils originally defined boundaries of eons, eras, periods, and epochs • Which part of the organism is preserved and available for study? • What kinds of habitats produce fossils?
Nature of the Fossil Record • Four categories of fossils • Compression and Impression • Organic matter is buried in water- or wind-borne sediment before decomposition • Weight of sediment causes impression in material below • Permineralized fossils • Structures buried in sediment and dissolved minerals precipitate in cells
Nature of the Fossil Record • Four categories of fossils • Casts and Molds • Remains decay or shells dissolve after being buried in sediment • Molds are unfilled spaces • Casts form when new material infiltrates space, fills it, and hardens to rock
Nature of the Fossil Record • Four categories of fossils • Unaltered remains • Preserved in environments that discourage loss from weathering, scavenging, and decomposition • Humans in peat bogs, mammoths in ice, dried dung from giant ground sloths, animals trapped in amber • Rarest type of fossil
Nature of the Fossil Record • Key factors for fossilization • Durability • Burial • Lack of oxygen • Fossils are primarily hard structures deposited in river deltas, beaches, floodplains, marshes, and sea floors
Nature of the Fossil Record • Biases in fossil record • Geographic • Lowland and marine habitats • Taxonomic • Marine organisms dominate fossil record but make up only 10% of extant species • Soft parts such as flowers almost never preserved • Temporal • Most recent species dominate • Not destroyed by tectonic activity yet
Nature of the Fossil Record • Geologic time scale divided into eons, eras, periods, epochs, and stages • Determined by diagnostic fossils • Absolute dated after discovery of radioactive isotopes • Before relative dating used • Lengths of time units not equal • Three eras of Phanerozoic • Paleozoic, Mesozoic, Cenozoic
The Cambrian Explosion • Nearly all animal phyla that ever existed first appear in fossil record during Cambrian • Very short geologic time • Animal body plans (bauplans) diversified incredibly during this time • Three key divisions of body plans determined by embryology
The Cambrian Explosion • Diploblasts and Triploblasts • Two or three embryonic layers • Ectoderm, Endoderm, and Mesoderm • Endoderm forms gut • Ectoderm forms skin • Mesoderm forms muscles, and most organs • Radially symmetrical animals are diploblastic • Bilateria are triploblastic
The Cambrian Explosion • Coelomates, Pseudocoelomates, and Acoelomates • Coelom = fluid filled cavity derived from mesoderm • Increases mobility • Acoelomates include flatworms • Pseudocoelomates include roundworms • Cavity not completely lined by peritoneum
The Cambrian Explosion • Protostomes and Deuterostomes • All have true coeloms • Difference in gastrulation • Protostomes form mouth first • Flatworms, roundworms, arthropods, annelids, mollusks • Deuterostomes form anus first • Echinoderms and Chordates
The Cambrian Explosion • All of these bauplans arose during Cambrian Explosion • Other major morphological innovations too • Segmented bodies • Shells • Appendages • Notochords
The Cambrian Explosion • Two major fossil faunas give evidence of emergence of new bauplans • Ediacaran faunas • 565—544 Mya • Burgess Shale • 520—515 Mya
The Cambrian Explosion • Ediacaran faunas • First discovered in Australia in 1940s • Now found at 20 sites around world • Late Precambrian • Compression and impression soft-bodied fossils • Sponges and jellyfish • Maybe annelids, arthropods, and mollusks
The Cambrian Explosion • Burgess Shale • Found in British Columbia • Chengjian Biota found in Yunnan, China • 525—520 Mya • Impression and compression fossils • Arthropods, annelids, mollusks, chordates • Agnathans • Little overlap with Ediacaran faunas
The Cambrian Explosion • Earliest members of most animal lineages appeared suddenly in fossil record at same time around globe • No obvious precursor older than Ediacaran fauna • Was the Cambrian Explosion really explosive?
The Cambrian Explosion • Estimated phylogeny of all animals using DNA sequence data • Did the branching events take place 565—525 Mya? • Molecular clock estimated earliest branches to be 900 Mya • Way before Cambrian Period • Chordates and echinoderms 1 Bya • Protostomes and deuterostomes 1.2 Bya
The Cambrian Explosion • Results indicate much earlier radiation and no Cambrian “explosion” • If true, older fossils should be found • Earliest chordate is from Chengjiang fauna 530 Mya • Therefore, chordates must be older than this time
The Cambrian Explosion • If molecular clock is correct, animal lineages are much older • But morphological explosion did occur in Cambrian • Maybe ecological explosion • New benthic and pelagic predators filling open niches • Rising oxygen in sea water made larger size possible • New ways of feeding and locomoting
Macroevolutionary Patterns • Adaptive radiation = single species quickly diversifies into many species • Hawaiian Drosophila • Galápagos finches • New ecological niches available to species • Can examine a phylogeny and see long later branches and short internodes
Macroevolutionary Patterns • Stasis • Long periods of little morphological change followed by rapid periods of speciation • Darwin proposed speciation was gradual • Eldredge and Gould (1972) proposed punctuated equilibrium • Stasis and rapid diversification • “Fits and starts” • Part of argument is problem of scale • Slow for biologists is rapid for paleontologists
Macroevolutionary Patterns • Punctuated equilibrium • Includes anagenesis = change in a species without diverging into other species • Phyletic transformation • Opposite is cladogenesis = one species splitting into two • Some species appear to demonstrate stasis • Living fossils • Horseshoe crabs, ginkos
Extinction • Rate of global extinctions has not been constant • Raup broke last 543 My into 1 My increments to examine constancy of extinction rate • Found several mass extinctions • Over 60% of living species went extinct
Extinction • Benton quantified how many extinctions occurred over last 510 My • Found the Big Five • Terminal Ordovician 440 Mya • Late Devonian 365 Mya • End Permian 250 Mya • End Triassic 215 Mya • Cretaceous-Tertiary (K-T) 65 Mya
Extinction • Over 96% of all extinctions did not occur during mass extinction events • Background extinctions • Likelihood of any clade becoming extinct is constant and independent of how long taxa have been in existence • Survivorship curves indicate this • Geographic range of species correlates negatively with extinction probability
Extinction • K-T High Impact Extinction • It is now well-known that an asteroid at least 10 km in diameter struck Chicxulub, Mexico causing the K-T extinction • Evidence from irridium deposits, shocked quartz, and microtekites • Glass spheres created by high impact and temperature