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Outline 14: Paleozoic Life Radiation of the Animal Phyla Cambrian Life • The first animals evolved about 100 my before the start of the Cambrian. These are the Ediacaran fossils of the latest Proterozoic. • None of these animals had hard parts. • Base of the Cambrian defined by first animals with hard parts. Life at the end of the Proterozoic Cambrian Life • Early Cambrian fossils consist mostly of trilobites, brachiopods, archaeocyathids, and small little shells. Cambrian trilobites cruising on Saturday night Typical Cambrian trilobites Modern horseshoe crabs look similar to trilobites, but they are not closely related. Example of a “living fossil.” Trilobites are extinct. A living Inarticulate Brachiopod. Very common fossils in the Cambrian. Modern Inarticulate Brachiopods in their burrows Modern Inarticulate Brachiopods for dinner in southeastern Asia. Cambrian Archaeocyathids: Reef-Forming Animals Examples of small shelly fossils from the Early Cambrian. Scale bars are 0.1 mm. Cambrian Life • The Middle Cambrian Burgess Shale records the “Explosion of Life.” All known phyla had appeared by then. • A phylum is a major body plan. Examples: Mollusca, Annelida, Arthropoda, Chordata, etc. Animals got their start in the Ediacaran, followed by the Cambrian “Explosion of Life.” Sponges Kevin Peterson, Dartmouth The Cambrian Explosion made the cover of TIME. Burgess Shale Fossils • Most are soft-bodied fossils, a very rare kind of fossilization. • Of today’s 32 living phyla, 15 are found in the Burgess Shale. The other 17 are microscopic or too delicate to be preserved. • Another 10 extinct phyla are also found in the Burgess Shale. Burgess Shale Fossils • Assume that all 32 living phyla were alive in the Middle Cambrian. • Add the 10 extinct phyla for a total of 42 phyla. That’s more phyla than today! • Thus, Cambrian phyla were more diverse than today. A Paradox • There were more body plans (phyla) near the start of animal life than today. • However, there were many fewer species. • This doesn’t match the expectation of slow evolutionary diversification of life. The Pattern of Animal Evolution • • • • Initial radiation of phyla. Reduction by natural selection. No new phyla since the Cambrian. Diversification within remaining phyla. A Hypothesis • The genome of early animals was less rigid, not as “hardwired” as later animals. Adaptive mutations were more possible. • A wide variety of body plans were produced by mutations. • Natural selection eliminated some of these body plans. A Hypothesis • Body plans that survived became the modern phyla. • 500 m.y. of evolution has made genomes more rigid and more species rich. • Mutations required to make a new body plan would be lethal. Phyla were locked in. The Burgess Shale of British Columbia, Canada: record of the Cambrian Explosion Mt. Stephen in Yoho National Park, Canada Geologists at the Burgess Shale quarry Trilobites! Paleontologist collecting a slab of fossils Trilobites with preserved legs and antennae The strange animals of the Middle Cambrian Burgess Shale Opabinia and Amwiskia, representatives of two extinct phyla Opabinia The first sea scorpion on the attack! Marella, extinct class of arthropods Marella, extinct class of arthropods Marella as Cambrian road kill (or a squished bug?) Yohoia, an extinct class of arthropods Specimens of lobopods Living and fossil lobopods Burgess Shale worm Ottoia A spiny “worm,” Wiwaxia Hallucigenia, a spiny lobopod Which way is up? Hallucigenia Correct Interpretation Original Interpretation. Anomalocaris, the largest predator of the Cambrian and an extinct phylum. Trilobite with a bite mark, possibly from Anomalocaris Pikaia Anomalocaris in hot pursuit of Marella Pikaia, an early chordate Pikaia, a chordate from the Burgess Shale Yunnanozoan, a chordate from the early Cambrian of China Primitive chordates: Tunicates or Sea Squirts. Adults have a pharynx with gill slits. Larval forms are free-swimming and have a notochord. Fish are thought to have evolved from the larval form by precocious sexual maturation. Chordate evolution Branchiostoma, the lancelet; a primitive living chordate Invertebrates after the Cambrian Phylum Cnidaria: colonial corals Phylum Cnidaria: horn coral Skeleton of a modern coral A living sea anemone, relative of corals Living coral reefs Living coral reefs Phylum Bryozoa - fossils Phylum Bryozoa – living animals Phylum Brachiopoda BIVALVIA Phylum Mollusca Mollusca: Class Bivalvia Fossil marine bivalve, Kansas Phylum Mollusca: Class Gastropoda Phylum Mollusca: Class Cephalopoda Nautilus Nautilus A Paleozoic Cephaplopod Phylum Arthropoda An Ordovician Trilobite A Silurian Trilobite The Devonian Trilobite Phacops rana The compound eye of Phacops rana A death assemblage of Phacops rana Eurypterid or “Sea Scorpian”, Silurian of New York A Cenozoic crab Phylum Echinodermata Crinoid Blastoid A living crinoid at a depth of 692 m, Bahamas Slab of Mississippian crinoids – note the long stems for feeding high above the substrate Asteroid Ophiuroid Starfish feeding on bivalves Devonian starfish Echinoids: sand dollar (left) sea biscuit (below) Holothurian: sea cucumber