Paleontology
(essay)
Paleontology is the study of ancient life forms - plant, animal, bacterial, and others - by means of the fossil record they have left behind. Paleontologists search for, unearth, and examine fossils to determine every aspect of these ancient life forms, including their body structure, geographic distribution, adaptation to environment, interaction with other species and other members of their own species, taxonomic relationship with ancient and modern life forms, and behavioral traits. The term paleontology is a combination of three ancient Greek words, "paleo," "Ontos," and "logos," which mean ancient, being, and knowledge respectively. p> Paleontology is closely related to geology, the study of the structure of the Earth. Indeed, the work of paleontologists often informs that of historical geologists, as fossils provide critical information for the understanding of the structure and age of the Earth's crust. More specifically, paleontological finds have been critical to the geology sub-discipline of stratigraphy, or the study of how stratification or layering occurs in the Earth's crust. Aside from geology, paleontology has also provided key evidence for the theory of evolution. While largely an academic discipline, paleontology has its practical side too, as the distribution of various types of fossils have proven, in some cases, to be useful guides to the discovery of hydrocarbon reserves such as oil and natural gas, which are, essentially, the compressed remains of the ancient life forms studied by paleontologists.
Paleontology is subdivided into various disciplines depending on the life forms being studied. These include paleo-zoology (the study of ancient animals, itself divided into vertebrate paleozoology and invertebrate paleo-zoology), paleo-botany (plants), micropaleontology (bacteria and other microscopic life forms), palynology (pollen and spores), and paleo-anthropology (humans), among others. (While this article will touch on this last discipline, readers can find fuller coverage in the article: "Humanity, Origins of".) Other sub-disciplines of paleontology, including paleo-ecology, paleo-geography, and paleo-climatology, focus on the environment in which ancient life forms lived and how ancient life forms affected that environment. A new and burgeoning sub-discipline is paleo-biology, which applies the findings of modern biology, particularly those concerning the genetic makeup of life, to the study of ancient life forms. p> The discipline of paleontology is one of the oldest within the natural sciences, dating back in Europe to the seventeenth century, and among the most controversial, as its basic suppositions about the great age of life on Earth and the changes in life forms over time appear to contradict biblical and other religious accounts of creation. p> Historians often refer to the general period in European history in which paleontology was born as the "age of reason," a time when thinkers began to explore the world around them and move beyond theological explanations of natural phenomena. Among the first things that caught the attention of these early naturalists were fossils, many of which bore very little resemblance to existing life forms. By the turn of the nineteenth century, scientists-most notably the French naturalist, Georges Cuvier - were hypothesizing that the fossils were, in fact, evidence of extinct forms of life and, as such, pointed to a much more complex and lengthy history of the Earth than that offered in the biblical account of creation. The work of English naturalists Charles Darwin and Alfred Wallace in the middle years of the nineteenth century provided, with the idea of ​​natural selection, the theoretical framework for the understanding of how species adaptation and extinction occurred. p> Key discoveries of the twentieth century that have informed the work of paleontologists have included the asteroid theory of mass extinction, and plate tectonics, or the theory of continental drift. Key twentieth century technologies aiding paleontologists include radiometric dating, which allows precise dating of fossils based on the radioactive decay of the elements of which they are composed, and DNA analysis, which allows scientists to trace the evolution of fossilized life forms at the molecular level.
Science and Methodology
Paleontologists largely work with several types of evidence. The first are the imprints life forms have left in rock, usually by means of the sedimentation process though, occasionally, through volcanic activity as well. Such imprints are not fossils in the technical sense, though they constitute such in the popular mind. The second form of evidence used by paleontologists are true fossils, that is, the remains of life forms or, more typically, the hard parts of life forms, such as teeth and bones, in which the organic molecul...