CHAPTER 15—CENOZOIC EVENTS CHAPTER OVERVIEW The era we call Cenozoic is divided into three periods: Paleogene; Neogene; and Quaternary. The Cenozoic, although covering only the last 65 million years of Earth’s history, encompasses major worldwide changes. One such change occurred when the North Atlantic rift extended to the north, separating Greenland from Scandinavia and thereby destroying the land connection between Europe and North America. During late Eocene, Australia separated from Antarctica and then began its journey to its present location. This is considered the only major continental breakup during Cenozoic; however, it appears to have affected climates around the world. The stratigraphy of the Cenozoic of North America is explored with some of the more noteworthy exposures: the Gulf Coast, Rocky Mountains, High Plains, Basin and Range, Colorado Plateau, Columbia Plateau and Cascades, Sierra Nevada, and California are discussed. Cenozoic sedimentation and deformation outside North America is also discussed in order to complete this phase of Cenozoic history. Pleistocene glaciation is a focal point in this chapter which highlights the glacial and interglacial stages in North America and Europe as well as discussing variations in climatic conditions. LEARNING OBJECTIVES By reading and completing information within this chapter, you should gain an understanding of the following concepts: Sketch and label the three periods - Paleogene, Neogene, and Quaternary - and the epochs within each. Discuss the tectonic-climate connection. Locate on a map the major mountain systems that were formed by the northward moving African block as it collided with the southern margin of Europe. Explain the origin of the following physiographic features of North America – Rocky Mountains/High Plains, Basin and Range, Colorado Plateau, Columbia Plateau and Cascades, Sierra Nevada, and California. Describe the origin of the San Andreas Fault. Explain the orogenic events along the Tethys seaway and the orogenic events that led to the formation of the Alps, Carpathian, Pyrenees, Apennines, and Himalayas. Discuss the origin of Lake Molawi and Lake Tanganyika in eastern Africa. List the four Glacial/Interglacial Stages for North America and Europe from oldest to youngest. Discuss the impacts of Pleistocene glaciation. Explain the Milakovich effect (theory) and its possible interpretation of the Pleistocene glaciation including the three variables in your explanation. CHAPTER OUTLINE I. The Tectonics-Climate Connection II. Stability and Erosion Along the North American Margin III. Gulf Coast: Transgressing and Regressing Sea Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 1 IV. The Mighty Cordillera A. Sediment and Mineral Wealth B. Remarkable Fossils C. Majestic Scenery V. Creating the Basin and Range Province VI. Colorado Plateau Uplift VII. Columbia Plateau and Cascades Volcanism VIII. Sierra Nevada and California IX. The New West Coast Tectonics X. Meanwhile, Drama Overseas … A. Northern Europe B. Rifting Africa C. Semitropical Antarctica XI. Big Freeze: the Pleistocene Ice Age A. Pleistocene and Holocene Chronology B. Stratigraphy of Terrestrial Pleistocene Deposits C. Pleistocene Deep-Sea Sediments D. Many Impacts of Pleistocene Glaciation 1. Shifting Sea Level 2. Depressed Crust Rebounds 3. Redirecting Mighty Rivers 4. Forming Lakes, Great and Small 5. Washington’s Alien Land: the Channeled Scablands 6. Windblown Sediment XII. What Caused the Ice Age? A. Milankovitch Cycles B. Earth’s Albedo C. Other Factors XIII. Cenozoic Climates: Global Warming then Cooling Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 2 KEY TERMS (pages given in parentheses) albedo (500): The fraction of solar energy reflected back into space is termed the Earth’s albedo. channeled scablands (497): With the recession of the glacier, the ice dam broke, and tremendous floods of water rushed out catastrophically across eastern Washington, causing severe erosion and depositing huge volumes of gravel, boulders, and cobbles. The dissected region is appropriately termed the channeled scablands. This event was associated with the formation of Pleistocene lakes in the northwestern corner of the United States. discoasters (493): Calcareous, often star-shaped fossils believed to have been produced by goldenbrown algae related to coccoliths. kettle (496): A depression in glacial drift that is formed by the melting of a detached block of ice that was buried in the drift. little ice age (493): The four-century period (AD 1540 and 1890) when temperatures were often 1.5° C cooler than today in Europe and the United States. loess (497): Deposits of thick layers of windblown silt formed from fine-grained glacial sediments that have been spread across outwash plains and floodplains by wind transportation. Neogene (470): The middle period during Cenozoic that encompasses two ages, Miocene and Pliocene. Neogene is followed by the latter period of Cenozoic, called Quaternary, which is comprised of Pleistocene and Holocene. oil shale (476): A dark-colored shale rich in organic material that can be heated to liberate gaseous hydrocarbons. Paleogene (470): The initial period of Cenozoic that encompasses three ages, Paleocene, Eocene, and Oligocene. Pleistocene Ice Age (491): About one-third of the Earth’s land surface became buried beneath more than 40 million cubic kilometers of snow and ice. pluvial lakes (496): A lake formed in an earlier climate when rainfall was greater than at present. precession (499): The way the axis of rotation moves slowly in a circle that is completed every 26,000 years. stratified drift (494): Deposits of glacial clastics that have been sorted and stratified by the action of meltwater. Tethys sea (488): A great east-west trending sea which laid between Laurasia and Gondwonland during the Paleozoic and Mesozoic from which arose the Alpine-Himalayan mountain range. till (494): Unconsolidated, unsorted, unstratified glacial debris. varves (475): Seasonal layers of dark and light sediment formed in glacier-related lakes. Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 3 MULTIPLE-CHOICE QUESTIONS 1. During Cenozoic, the interiors of most continents were a. covered by epeiric seas. c. dry land with some lacustrine (lake) sedimentation. b. regions of evaporite deposition. d. regions of mountain building. 2. The Columbia Plateau formed as a result of a. block faulting and uplift. b. volcanic eruptions resulting in volcanic edifices which were later eroded to a flat-lying plateau. c. accumulation of thick successions of basaltic lavas erupted from fissures. d. glacial scouring of bedrock by Pleistocene continental glaciers. 3. The fraction of solar energy received by a planet from the sun that is reflected or reradiated back into space is called the a. albedo. c. insolation. b. ecliptic. d. refraction. 4. The location of the type section for most Cenozoic series is in the a. Ouachita Mountains. c. Michigan Basin. b. Paris Basin. d. Trans-Continental Arch. 5. During a volcanic eruption, sometimes clouds of hot gases and pyroclastic debris move rapidly down the slope of the volcano and deposit thick layers of volcanic debris. These are called a. lahars. c. debris flows. b. nuée ardente. d. ignimbrites. 6. Recent volcanic activity in the Cascade Mountains is a response to the subduction of the a. Farallon plate. c. Andean plate. b. Cocos plate. d. Juan de Fuca plate. 7. The Red Sea and the Gulf of Aden were formed when a. Arabia rifted from Africa. c. Madagascar and Australia rifted from Africa. b. Africa collided with Arabia. d. Europe collided with northern Africa. 8. Which of the following is not represent one of the Paleogene epochs? a. Paleocene c. Oligocene b. Eocene d. Pliocene 9. Freshwater limestones, fine, evenly laminated shales (varves), and oil shales are characteristic of what Eocene Formation? a. Owl Creek Formation c. White River Formation b. Green River Formation d. Fort Union Formation 10. The Pyrenees and the Atlas Mountains were formed by a. the collision of northern Africa with Europe. b. thrust faulting which displaced strata from southwestern Europe on to the northern African plate. c. sedimentation along the Tethys Seaway. d. rifting of Eurasia from Gondwana. 11. Windblown, fine-grained, quartz and silt grains that form extensive deposits in China and North America are called a. gangue. c. shale. b. loess. d. diatomite. Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 4 12. Sedimentary particles deposited by glaciers and then reworked by runoff and meltwater is called a. till. c. moraines. b. stratified drift. d. eskers. 13. Sedimentary layers deposited in ancient lakes that correspond to yearly cycles of deposition are called a. drift. c. varves. b. till. d. rills. 14. The order of glacial stages/interglacial stages in the Pleistocene from oldest to youngest is a. Nebraskan, Kansan, Illinoian, Wisconsin. c. Nebraskan, Illinoian, Kansan, Nebraskan. b. Wisconsin, Illinoian, Kansan, Wisconsin. d. Wisconsin, Kansan, Illinoian, Nebraskan. 15. Milankovich’s theory for Pleistocene glaciation, which accounts for the Earth’s movements, is based on three variables. The second variable refers to the way the axis of rotation moves slowly in a circle that is completed about every 26,000 years. It is called a. inclination. c. orbital spin. b. declination. d. precession. 16. A period of cooler and drier climatic condition from 1540 to 1890 AD was called the a. Messinian event. c. little ice age. b. Milankovich hypothesis. d. interglacial period. 17. The overall Cenozoic global temperature started to decrease during what epoch? a. Eocene c. Miocene b. Oligocene d. Pleistocene 18. The best record of Cenozoic strata in North America is found in the _______________ where eight transgressions and regressions are recorded. a. Colorado Plateau c. Gulf of Mexico Coastal Plain b. Cascade Range d. Atlantic Gulf Coast 19. The Florissant fossil beds were produced during _________________; it recorded the eruption of volcanoes that produced ash that buried countless insects, leaves, spores, pollen, fish, and some birds. a. Eocene c. Miocene b. Oligocene d. Pliocene 20. Crustal movements began during early _________________ that caused the elevation of the Sierra Nevada along a great fault producing the Basin and Range Province. a. Eocene c. Paleogene b. Oligocene d. Neogene Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 5 FILL IN THE BLANK 1. The western edge of North America during much of Cenozoic was the site of an eastward-dipping subduction zone. The oceanic plate that was being fed into the subduction zone has been named . 2. The Fort Union Formation, approximately 1800 meters thick, holds immense tonnage of what ore in its lower levels? _____________________ 3. The most complete and best record of Cenozoic strata in North America is found on the . 4. The recent activity at Mount St. Helens and the older eruptions that gave rise to the volcanic peaks of the Cascades are the surface expression of the North American plate and the plate. 5. These calcareous, often star-shaped fossils believed to have been produced by golden-brown algae related to coccoliths are called . 6. The basin that is not only a sedimentary basin, but a structural basin as well and represents the type area during much of Cenozoic is called . 7. The lakes that were particularly numerous in the northern part of the Basin and Range Province of North America, where faulting produced more than 140 closed basins, were called 8. The large scale physiographic province formed by Cenozoic faulting, which includes portions of Nevada, Arizona, New Mexico and southern California, is called and Province. 9. West of the Columbia Plateau lies an uplifted belt that was also the site of extensive volcanic activity. It was further characterized by outpourings of more viscous lavas that resulted in what mountains? 10. The interfingering of permeable sands and impermeable clays provide ideal conditions for the eventual entrapment of oil and gas in what great wedge of sediments in North America? 11. During Oligocene, explosive volcanic activity in this area of Colorado produced a great deal of ash, which settled to the bottom of a neighboring lake, burying thousands of insects, leaves, fish, few birds, and trees. This area is called the . 12. The term used in Europe to describe dark, siliceous shales, poorly sorted sandstones, and cherts that accumulated between elongated submarine banks is . 13. The best-known feature resulting from the linked processes of uplift and erosion on the Colorado Plateau is of the Colorado River. 14. The sedimentary feature which consists of a thin, dark winter layer and a light-colored summer layer representing the depositional record of a single year is . 15. Cenozoic is divided into three periods: the _________________, _________________, and the ________________. Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. . Page 6 TRUE-FALSE 1. The great thickness of sediment (12,000 m) that has accumulated during Cenozoic in the Gulf Coast and Gulf of Mexico indicates that the area experienced considerable subsidence during deposition. 2. For the most part, the Lower Paleogene sediments of the Rocky Mountain region consist of gray siltstones, sandstones, carbonaceous shales, lignite, and coal. 3. The Basin and Range Province occupies a broad zone from Nevada and Western Utah southward into Central Mexico. 4. During Miocene, the Columbia Plateau formed volcanic activity. 5. Mount Kilimanjaro and Mount Kenya are isolated remnants of a great thrust sheet caused by the collision of India against eastern Africa. 6. According to the plate tectonic hypothesis, the crustal compression that resulted in the formation of the Pyrenees and Atlas Mountains was the result of a collision between northwestern Africa and southwestern Europe. 7. A branch of the Indian Ocean opened between Arabia and Africa during Cenozoic that created the Gulf of Aden and Red Sea. 8. The Mesozoic Tethys Seaway was closed by plate tectonic collisions during Cenozoic. 9. Lake Malaui and Lake Tanganyika, in eastern Africa, are the result of water accumulation in downfaulted blocks of crust formed during the current rifting activity in that region. 10. The Himalayan Mountains formed as a result of the collision of India with Eurasia during Cenozoic. Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 7 Chapter 15—Cenozoic Events ANSWER KEY Multiple Choice 1. c 2. c 3. a 4. b 5. b 6. d 7. a 8. d 9. b 10. a 11. b 12. b 13. c 14. a 15. d 16. c 17. c 18. c 19. b 20. d Fill Ins 1. Farallon plate 2. coal 3. Gulf Coastal Plain 4. Juan de Fuca 5. discoasters 6. Paris basin 7. pluvial lakes 8. Basin, Range 9. Cascade range 10. Gulf Coastal Plain 11. Florissant flora 12. flysch 13. Grand Canyon 14. varves 15. Paleogene, Neogene, Quaternary Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. True/False 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. T T T T F T T T T T Page 8 Chapter 15—Cenozoic Events RESPONSES TO QUESTIONS ACCOMPANYING SELECTED FIGURES FIGURE 15–1 (p. 471) Although not specifically mentioned in the chapter, one would surmise that fossils would be the evidence for a milder Antarctic climate during Eocene. Such evidence includes actual spore and pollen fossils from Eocene rocks in Antarctica. Before Antarctica separated from Australia, it was warmed by currents moving toward the continent from lower latitudes. With separation, cold polar currents entered the breach between the two landmasses, resulting in frigid conditions. FIGURE 15–6 (p. 474) In order to accommodate 27,000 feet of sediment in a shallow depositional basin, the basin would have had to subside as it was being filled. FIGURE A (p. 479) Bedrock of impermeable clays and shales, the absence of a protective cover of plants, and infrequent heavy rains are the primary conditions under which badlands are formed. FIGURE 15–18 (p. 484) Careful examination of the photograph reveals that the lava flow is covered by the pyroclastics (tephra). Therefore, the lava flow occurred before the eruption of the pyroclastic material. FIGURE 15–21 (p. 484) The vertical cracks constitute columnar jointing, a feature frequently formed in cooling lava flows. FIGURE 15–32 (p. 491) The outcrop pattern shows youngest rocks in the central area and older rocks encircling the central area, as is typical of erosionally truncated basins. FIGURE 15–38 (p. 494) Ground moraine is likely to be less well sorted, as it has often not been winnowed and sorted by meltwater. Chapter 15— Cenozoic Events © 2013 JOHN WILEY & SONS, INC. ALL RIGHTS RESERVED. Page 9