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Download Chapter 11: The Early-to-Middle Paleozoic World
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Chapter11 – The Early-to-Middle Paleozoic World 11.1 Beginnings of the Phanerozoic Eon Continents drifted into warm, tropical latitides Sea level was much higher than today o Warm, shallow epicontinental seas spread across the continents As the continents moved, some of them collided, forming mountain chains 11.2 Tectonic Cycle: Impacts on the Hydrosphere, Atmosphere, and Rock Cycle Sea Level, CO2, and Sedimentary Facies o The Paleozoic tectonic cycle began with one or more supercontinents present o The rifting and continued movement of continents cause seafloor spreading centers to displace large amounts of water out of the ocean basins, producing epicontinental seas and decreasing Earth’s albedo o Rifting, subduction and volcanism produced large amounts of CO2; no plants yet existed on land to draw it down o The Transcontinental Arch and other broad structural highs and basins appeared at various times during the Phanerozoic, in response to tectonic activity or plate movements Ocean Circulation and Chemistry o The widespeard seas, low albedo, high CO2 levels, and the circulation of surface waters at low latitudes contributed to warming the Earth o Circulation within the deep oceans was relatively sluggish, which implies that the oceans held relatively little oxygen; at times the oxygen minimum zone spread into epicontinental seas o Widespread limestone deposition in the shallow epeiric seas suggests high levels of calcium and carbonate ions in the seawater; their abundance resulted from extensive continental weathering due to high levels of CO2 in the atmosphere o The CCD may have shallowed well up onto the continental slope due to limestone deposition in shallow water starving the deep sea of CaCO3 o Hard parts of marine organisms were more prone to consist of the mineral calcite (“i.e., “calcite seas” prevailed) 11.3 Tectonic Cycle and Orogeny Physiographic Provinces of the Appalachian Mountains o The origenic episodes of the southern margin of Laurentia are primarily responsible for the modern physiographic provinces of the eastern portion of North America, including the Appalachian Mountains Orogenic Episodes o Taconic Orogeny – involved the uplift of a volcanic arc as the Iapetus Ocean began to close o Acadian Orogeny – during this event the microcontinent Avalonia was trapped between plates as Iapetus continued closing o Antler Orogeny – terranes were accreted to what is now the western margin of North America © 2013 Jones and Bartlett Learning, LLC o Ellesmere Orogeny – may have involved the collision of Laurentia with an island arc 11.4 Impact of Orogeny on Earth Systems The orogenic phases account for sea-level regression during the first half of the Paleozoic tectonic cycle o Changes in ocean circulation also resulted By the Late Ordovician, Gondwana lay over the south pole and became glaciated o This enhanced deep ocean circulation, oxygenation of the deep ocean, and marine photosynthesis (by stimulating the upwelling of nurtrients) 11.5 Diversification of the Marine Biosphere Plankton and Microfossils o Acritarchs rediversified and were responsible for much of the photosynthesis in the ocean during the Early-to-Middle Paleozoic o Major zooplankton groups include radiolarians, graptolites, conodonts, and certain trilobite species Benthic Ecosystems o The Cambrian Fauna was dominated by invertebrate trilobites and inarticulate brachiopods o The Paleozoic Fauna included articulate brachiopods, nautiloid and ammonoid cephalopods, bryozoans, crinoids, and blastoids o Communities exhibited tiering (suspension feeding at different levels above and below the seafloor), demonstrating that food chains were lengthening and food webs becoming more complex Reefs o Reefs are biogenic, wave-resistant structures; they are one of the most diverse ecosystems on Earth o The organisms that form reefs has changed through time, a phenomenon called ecological replacement o Cambrian reefs made by stromatolites were later replaced by archaeocyathid reefs o Stromatoporoids became the dominant reef builders of the Middle Paleozoic; rugose and tabulate corals were also present 11.6 Marine Realm Invades the Terrestrial Biosphere Invertebrates o Arthropods expanded their range into marginal marine, freshwater and terrestrial habitats Fish o Fish are the most primitive group of vertebrates; they appeared in the Cambrian in nearshore marine environments o Jawless ostracoderms were later replaced by jawed acanthodians, placoderms and more modern groups such as sharks and early bony fish o One group of bony fish, the lobe-finned fish, are thought to be ancestral to the amphibians Amphibians and the Invasion of Land © 2013 Jones and Bartlett Learning, LLC o Paleozoic amphibians were different from their modern counterparts (frogs, toads, and salamanders); they ranged greatly in size, shape, and niche o Early amphibians conquered come barriers to the invasion of land (gravity and air-breathing), although they remained tied to water for reproduction Land Plants and the “Greening” of the Continents o During the Cambrian, only cyanobacterial films, fungi and lichens existed on land o The earliest land plants probably had to remain close to water for reproduction o Plant fragments have been found from Ordovician deposits; by the Silurian, more advanced land plants definitely appeared, containing vascular tissue o Spore-bearing ferns, sphenopsids, and lycopsids appeared in the Devonian, along with the first seed plants (seed ferns) o The evolution and diversification of land plants was probably crucial for the invasion of land by vertebrates and their subsequent evolution 11.7 Extinction Life suffered a series of setbacks during extinctions in the Cambrian, Late Ordovician and Late Devonian o The Late Ordovician extinction is thought to have resulted from glaciation and global cooling o The spread of terrestrial forests may have contributed to the Late Devonian extinction through indirectly causing ocean anoxia, although other factors were probably also involved © 2013 Jones and Bartlett Learning, LLC