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Sponges Cnidarians Arthropods Brachiopods Bryozoans Segmented worms Molluscs Echinoderms Chordates. Deuterostomes (anus forms before mouth). Coelomates (true body cavity). Animals with nerve and muscle cells. Multicellular animals. Cnidarians—Stuff to know.
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Sponges Cnidarians Arthropods Brachiopods Bryozoans Segmented worms Molluscs Echinoderms Chordates Deuterostomes (anus forms before mouth) Coelomates (true body cavity) Animals with nerve and muscle cells Multicellular animals Fossils & Evolution—Cnidaria
Cnidarians—Stuff to know • All bold font morphologic terms in text • Classification and stratigraphic ranges of paleontologically important groups • Skeletal mineralogy • Septal insertion patterns in rugosans and scleractinians • Hermatypic vs. ahermatypic ecology Fossils & Evolution—Cnidaria
Cnidarians—Be able to identify: • Order Scleractinia • Genus Diploria; Genus Montastrea; Genus Dichocoenia • Order Rugosa • Genus Hexagonaria; Genus Pachyphyllum • Order Tabulata • Genus Favosites; Genus Halysites; Genus Aulopora Fossils & Evolution—Cnidaria
Cnidaria—Phylum overview • Colonial and solitary invertebrates • Examples include hydroids, jellyfish, sea anemones, corals • Two body layers (ectoderm and endoderm) separated by middle, non-cellular (“jelly”) layer (mesogleoa) • No coelom (no true body cavity) • No organs • Primary radial symmetry • Possess specialized stinging structures (nematocysts) Fossils & Evolution—Cnidaria
Cnidaria—Phylum overview (cont.) • Body is a polyp (mouth up) or medusa (mouth down) • Digestive system is a central mouth that leads to a digestive cavity (enteron) • Mouth may be surrounded by tentacles • Muscle cells and nerve cells facilitate simple movements Fossils & Evolution—Cnidaria
Basic body forms Fossils & Evolution—Cnidaria
Cnidaria—Phylum overview (cont.) • Skeleton may be absent, internal, or external • If present, organic or calcareous • Aquatic (fresh and marine) • Suspension feeders • Sessile, planktonic, or nektonic • Stratigraphic range is Late Proterozoic (Ediacaran) to Recent Fossils & Evolution—Cnidaria
Classification • Class Hydrozoa (“hydroids,” unimportant as fossils) • Class Scyphozoa (jellyfish, unimportant as fossils) • Class Anthozoa (true corals and others) • Exclusively marine • Polyp stage only; no medusa • Free-swimming larvae Fossils & Evolution—Cnidaria
Cnidaria classification Note: Permian scleractinian-like forms are now known Fossils & Evolution—Cnidaria
Skeletal morphology • Coral skeletons are external and calcareous • Aragonite or calcite • Skeleton is secreted by the epidermis at the base of the polyp • Skeleton consists of basal plate, radial septa, and outer wall (theca) • As skeleton grows upward, new basal plates may be added • Tabulae (transverse plates) • Dissepiments (smaller, curved plates) Fossils & Evolution—Cnidaria
Polyp andskeleton Fossils & Evolution—Cnidaria
Skeletal morphology (cont.) • Polyp occupies the calice, the part of the skeleton above the last-formed tabula or dissepiments • Skeleton of one coral (solitary or colonial) is a corallum • Skeleton of one polyp in a colony is a corallite • Skeletal tissue between corallites in a colony is coenosteum Fossils & Evolution—Cnidaria
Skeletal morphology (cont.) Fossils & Evolution—Cnidaria
Skeletal morphology (cont.) Fossils & Evolution—Cnidaria
Skeletal morphology (cont.) Fossils & Evolution—Cnidaria
Septal insertion • Tabulates lack septa or possess only minor septa • Order of septal insertion is the most important aspect of classification in the rugose corals and scleractinians Fossils & Evolution—Cnidaria
Septal insertion in Rugose corals • First six septa are “protosepta” • Stage 1: cardinal and counter septa • Stage 2: alar septa (on either side of cardinal septum) • Stage 3: counterlateral septa (on either side of counter septum) • All subsequent septa (metasepta) are added on either side of cardinal septum and on counter side of alar septa • Septa cluster into four quadrants hence, “Tetracorals” Fossils & Evolution—Cnidaria
Septal insertion in Rugose corals Six protosepta x = cardinal sector y = alar sector Fossulae = gaps between sectors Fossils & Evolution—Cnidaria
Septal insertion in scleractinians • Stage 1: six protosepta • Stages 2 and higher: metasepta added in the center of spaces between existing septa • Metasepta added in groups of 6, 12, 24, 48, etc. Fossils & Evolution—Cnidaria
Septal insertion in scleractinians Fossils & Evolution—Cnidaria
Coral evolution • Among the common corals, tabulates (Early Ordovician-Permian) were first to originate • Rugose corals (Middle Ordovician-Permian) might have evolved from tabulates or they might have a separate ancestor • Scleractinians might have evolved from rugosans (?), or from a naked sea anemone • Permian “scleractinian-like” forms are known • Late Paleozoic aragonitic rugosans are known • No Early Triassic corals are known • Pattern of septal insertion is quite different in rugosans and scleractinians Fossils & Evolution—Cnidaria
Coralevolution Fossils & Evolution—Cnidaria
Coral ecology and reefs • Hermatypic = reef corals that possess zooxanthellae (symbiotic algae) • Shallow, tropical water (25–29°C; < 90 m depth) • Rapid skeletal growth • Oligotrophic (low nutrient) environments • Ahermatypic = non-reef corals without zooxanthellae • Wide environmental range (all latitudes) • Up to 6000 m depth; down to 1°C temp Fossils & Evolution—Cnidaria