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Macrofossils, also known as megafossils, are the preserved remnants of organic beings and their activities that are large enough to be visible without a microscope. The term macrofossil stands in opposition to the term microfossil. Microfossils, by contrast, require substantial magnification for evaluation by fossil-hunters or professional paleontologists. As a result, most fossils observed in the field and most specimens are macrofossils. Macrofossils come in many varieties and form in various ways depending on their environment and what is being fossilized including plant, fungi and animal remnants.

Historical background

Etymology

The origins of the term macrofossil dates back to 1937 and was first used by G. D. Hanna, a US paleontologist and malacologist.

Scientific thought

Macrofossils have been subject to analysis since ancient times. Several Greek philosophers used fossilized shellfish to theorize the land was once covered by oceans. Macrofossils of body parts have been used to reconstruct extinct animals and provide basis for evolutionary lineages. Georges Cuvier, a naturalist, zoologist and the founding father of paleontology, along with other natural thinkers during the Age of Reason presented fossils as integral evidence in the changing views of natural philosophy at the time from the application of new mathematics and other emerging branches of science. This brought about the acceptance of paleontology as a true scientific discipline. This also greatly affected the development of geology and stratigraphy as new schools of science. This led to other scientific thinkers like Charles Darwin, a naturalist, biologist and geologist, to begin using macrofossils of evidence in a new scientific discipline called evolutionary biology.

Varieties

Plant macrofossils

Plant macrofossils include leaf, needle, cone, and stem debris; and can be used to identify types of plants formerly growing in the area. Such botanical macrofossil data provide a valuable complement to pollen and faunal data that can be used to reconstruct the prehistoric terrestrial environment. Algal macrofossils (for instance, brown kelp, sea lettuce and large stromatolites) are increasingly used to analyze prehistoric marine and aquatic ecosystems. The study of these fossils is called paleobotany. Plant macrofossils are increasingly being used along with pollen microfossils to reconstruct past climates.

Vertebrate macrofossils

Vertebrate macrofossils include the teeth, skulls, and bones. Vertebrate macrofossils are used to reconstruct extinct animals, determine their behaviors and how they evolved. Well preserved body fossils are of particular use in helping to reassemble extinct animal body structures.

Invertebrate macrofossils

Invertebrate macrofossils include remains such as shells, tests, faunal armor, and exoskeletons. The bodies of small and soft bodied invertebrates rarely fossilize. Meanwhile, large and hard bodied invertebrates more commonly fossilize. The study of these fossils is a subdivision of paleontology called invertebrate paleontology.

Fungi macrofossils

Fungi macrofossils include fungal bodies and filaments. Most fungi fossils are found in amber. Fungi fossils are under-researched compared to animal and plant fossils. Macrofossils of fungi are rarer and are more commonly found as microfossils. The study of these fossils is called paleomycology.

Trace macrofossils

Trace macrofossils are fossilized evidence of animal behavior. These may include tracks, burrows and dung (coprolites). Trace fossils are the primary type of fossils used by paleontologist to reconstruct extinct animal behaviors. The study of these fossils is called Ichnology.

Chemo macrofossils

Chemo-fossils are the fossilized chemical remains of an organism. For example coal is the fossilized chemical remains of extinct plant matter.

Image gallery

References

  1. "Macrofossil". Merriam Webster. Retrieved 4 March 2017.
  2. "Macrofossil Noun". Oxford English Dictionary. 2000. Retrieved 2024-03-25.
  3. "Shellers from the Past and Present". Chonchology. Retrieved 2024-03-24.
  4. Desmond, Adrian (1975). The Discovery of Marine Transgressions and the Explanation of Fossils in Antiquity. American Journal of Science, Volume 275. pp. 692–697.
  5. Garwood, Russel J (2012). Life as a paleontologist: Paleontology for dummies, Part 2. Cornell University.
  6. "Paleoecology". Digital Atlas of Ancient Life. Retrieved 2024-03-25.
  7. Birks, H H. "Macrofossil". Science Direct. Retrieved 2024-03-25.
  8. ^ "Fossils in Arkansas". www.geology.arkansas.gov. Retrieved 2024-03-25.
  9. "Paleomycology: Discovering the fungal contemporaries of dinosaurs :Cornell Mushroom Blog". Retrieved 2024-03-25.
  10. "Fossil Record of the Fungi". ucmp.berkeley.edu. Retrieved 2024-03-25.
  11. Blong, John C.; Whelton, Helen L.; van Asperen, Eline N.; Bull, Ian D.; Shillito, Lisa-Marie (2023). "Sequential biomolecular, macrofossil, and microfossil extraction from coprolites for reconstructing past behavior and environments". Frontiers in Ecology and Evolution. 11. doi:10.3389/fevo.2023.1131294. ISSN 2296-701X.
  12. Seilacher, D. Bathymetry of trace fossils. Marine Geology.
  13. Harrison, T M. Hadean Earth. Cham Springer.
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