7.4: End of Chapter Review

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Test Your Knowledge

In what ways did early paleontologists shape our modern methods of fossil extraction and analysis?
What kind of information could you acquire from a single fossil? What could it tell you about the broader environment?
What factors would you take into consideration when deciding which dating method to use for a particular artifact?
How do stable isotopes help us reconstruct past environments and lifestyles?

GLOSSARY

Amino acid racemization: A chronometric dating method that measures the ratio of L-form to D-form amino acids in shell, bone, and teeth to establish elapsed time since death.

Anaerobic: An oxygen-free environment.

Anthropocene: The proposed name for our current geologic epoch based on human-driven climate change.

Argon-argon (Ar-Ar) dating: A chronometric dating method that measures the ratio of argon gas in volcanic rock to estimate time elapsed since the volcanic rock cooled and solidified. See also potassium-argon dating.

Atom: A small building block of matter.

Bezoars: Hard, concrete-like substances found in the intestines of fossil creatures.

Biostratigraphy: A relative dating method that uses other plant and animal remains occurring in the stratigraphic context to establish time depth.

Bog bodies: Bodies preserved in the peaty, waterlogged bogs, typically in northern Europe.

bya: Billion years ago.

Catastrophism: The theoretical perspective that Earth is young and that any changes in the landscape resulted from sudden catastrophic events like volcano eruptions and floods.

Chronometric dating: Dating methods that give estimated numbers of years for artifacts and sites.

Continental drift: The slow movement of continents over time.

Coprolite: Fossilized poop.

Cultural dating: The relative dating method that arranges human-made artifacts in a time frame from oldest to youngest based on material, production technique, style, and other features.

Deep Time: James Hutton’s theory that the world was much older than biblical explanations allowed. This age could be determined by gradual natural processes like soil erosion.

Dendrochronology: A chronometric dating method that uses the annual growth of trees to build a timeline into the past.

Electron spin resonance dating: A chronometric dating method that measures the background radiation accumulated in material over time.

Element: Matter that cannot be broken down into smaller matter.

Eon: The largest unit of geologic time, spanning billions of years and divided into subunits called eras, periods, and epochs.

Epochs: The smallest units of geologic time, spanning thousands to millions of years.

Eras: Units of geologic time that span millions to billions of years and that are subdivided into periods and epochs.

Extant: A word used to describe species that are currently alive today.

Extinct: A word used to describe species that are no longer represented by living organisms.

Fission track dating: A chronometric dating method that is based on the fission of ²⁸³U.

Fluorine dating: A relative dating method that analyzes the absorption of fluorine in bones from the surrounding soils.

Foraminifera: Microscopic single-celled organisms with a shell that are common in all marine environments. The fossil record of foraminifera extends back well over 500 million years.

Fossils: Mineralized copies of organisms or activity imprints.

Fossilization: The process by which an organism becomes a fossil.

Glacial periods: Periods characterized by low global temperatures and the expansion of ice sheets on Earth’s surface.

Holocene: The geologic epoch from 10 kya to present. (See the discussion on Anthropocene for the debate on the current epoch name.)

Ice mummy: A specimen of human remains that is naturally mummified by extreme low temperatures.

In matrix: When a fossil is embedded in a substance, such as igneous rock.

Isotopes: Variants of elements.

kya: Thousand years ago.

Law of Superposition: The scientific law that states that rock and soil are deposited in layers, with the youngest layers on top and the oldest layers on the bottom.

Lithification: The process by which the pressure of sediments squeeze extra water out of decaying remains and replace the voids that appear with minerals from the surrounding soil and groundwater.

Luminescence dating: The chronometric dating method based on the buildup of background radiation in pottery, clay, and soils.

Megafauna: Large animals such as mammoths and mastodons.

mya: Million years ago.

Paleomagnetic/geomagnetic reversal: Periods in Earth’s history when magnetic north and south move significantly from their current positions.

Pangea: A supercontinent that existed during the Paleozoic era.

Periods: Geologic time units that span millions of years and are subdivided into epochs.

Permineralization: When minerals from water impregnate or replace organic remains, leaving a fossilized copy of the organism.

Petrified wood: A fossilized piece of wood in which the original organism is completely replaced by minerals through petrifaction.

Potassium-argon (K-Ar) dating: A chronometric dating method that measures the ratio of argon gas in volcanic rock to estimate time elapsed since the volcanic rock cooled and solidified. See also argon-argon dating.

Pseudofossils: Natural rocks or mineral formations that can be mistaken for fossils.

Radioactive decay: The process of transforming the atom by spontaneously releasing energy.

Radiocarbon dating: The chronometric dating method based on the radioactive decay of ¹⁴C in organic remains.

Relative dating: Dating techniques that refer to a temporal sequence (i.e., older or younger than others in the reference) and do not estimate actual or absolute dates.

Sediment cores: A cylindrical sample of soil and sediments that can be analyzed to study plant and animal presence in a location, or more broadly to determine a regional environment.

Stable isotopes: Variants of elements that do not change over time without outside interference.

Stratigraphy: A relative dating method that is based on ordered layers or (strata) that build up over time.

Taphonomy: The study of what happens to an organism after death.

Tectonic Plate Theory: The scientific theory that Earth is divided into plates that are capable of movement.

Trace fossils: Fossilized remains of activity such as footprints.

Uniformitarianism: The theoretical perspective that the geologic processes observed today are the same as the processes operating in the past.

Unstable isotopes: Variants of elements that spontaneously change into stable isotopes over time.

FOR FURTHER EXPLORATION

Books

Bjornerud, Marcia. 2006. Reading the Rocks: The Autobiography of the Earth. New York: Basic Books.

Brusatte, Steve. 2018. The Rise and Fall of the Dinosaurs: A New History of a Lost World. New York: William Morrow.

Dolnick, Edward. 2011. The Clockwork Universe: Isaac Newton, the Royal Society, and the Birth of the Modern World. New York: Harper Collins.

Emling, Shelley. 2011. The Fossil Hunter: Dinosaurs, Evolution, and the Woman Whose Discoveries Changed the World. New York: St. Martin’s Griffin.

Hazen, Robert M. 2013. The Story of Earth: The First 4.5 Billion Years, From Stardust to Living Planet. New York: Viking Penguin.

Holmes, Richard. 2010. The Age of Wonder: The Romantic Generation and the Discovery of the Beauty and Terror of Science. New York: Vintage.

Horner, Jack, and James Gormer. 2009. How to Build a Dinosaur. Boston: Dutton Books.

Murck, Barbara. 2001. Geology: A Self-Teaching Guide. New York: John Wiley & Sons.

Palmer, Douglas. 2005. Earth Time: Exploring the Deep Past From Victorian England to the Grand Canyon. New York: John Wiley & Sons.

Prothero, Donald R. 2015. The Story of Life in 25 Fossils: Tales of Intrepid Fossil Hunters and the Wonder of Evolution. New York: Columbia University Press.

Pyne, Lydia. 2016. Seven Skeletons: The Evolution of the World’s Most Famous Human Fossils. New York: Viking Books.

Reinhard, Johan. 2006. Ice Maiden: Inca Mummies, Mountain Gods, and Sacred Sites in the Andes. Washington, D.C.: National Geographic.

Repcheck, Jack. 2009. The Man Who Found Time: James Hutton and the Discovery of the Earth’s Antiquity. New York: Basic Books.

Taylor, Paul D. 2014. A History of Life in 100 Fossils. Washington, D.C.: Smithsonian Books.

Ward, David. 2002. Smithsonian Handbooks: Fossils. Washington, D.C.: Smithsonian Books.

Winchester, Simon. 2009. The Map That Changed the World: William Smith and the Birth of Modern Geology. New York: Harper Perennial.

Videos

Andrew, Danielle. 2015. “What Did Neanderthals Sound Like?” Retrieved from IFL Science, April 1. http://www.iflscience.com/plants-and-animals/could-neanderthals-have-high-pitched-voices/

Coleman, David, dir. 2012. “Lucy.” Prehistoric Autopsy, part 3. 52 min. Glasgow, UK: BBC Productions. Video.

College Humor staff. 2015. “If Jurassic Park Were in Different Geologic Eras.” College Humor, June 26. www.collegehumor.com/video/7025308/if-jurassic-park-were-in-different-geological-eras

Smithsonian.com staff. 2018. “Is the Inca Maiden the World’s Best-Preserved Mummy?” Smithsonian.com, N.d. https://www.smithsonianmag.com/videos/category/history/is-this-the-worlds-best-preserved-mummy/

Townsley, Graham, dir. 2018. First Face of America. 53 min. PBS NOVA. www.pbs.org/wgbh/nova/evolution/first-face-america.html

Websites

Amber Museum: http://www.ambermuseum.eu/en/

East Tennessee State University Center of Excellence in Paleontology: https://www.etsu.edu/cas/paleontology/

Granger Historical Picture Archive: Granger.com

La Brea Tar Pits Museum: https://tarpits.org

Lyme Regis Philpot Museum: http://www.lymeregismuseum.co.uk

Natural History Museum of London, Mary Anning: http://www.nhm.ac.uk/discover/mary-anning-unsung-hero.html

Pech Merle Cave: http://en.pechmerle.com

Petrified Forest National Park (NE Arizona): https://www.nps.gov/pefo/index.htm

Poozeum: The No. 2 Wonder of the World: www.poozeum.com/poop-s-past.html

The Scoop on Poop!: https://www.floridamuseum.ufl.edu/exhibits/scoop/

Smithsonian National Museum of Natural History Department of Paleobiology: https://paleobiology.si.edu/fossiLab/projects.html

Smithsonian National Museum of Natural History Human Origins: http://humanorigins.si.edu