Book contents
- Frontmatter
- 1 Introduction
- PART I WORKERS AND PLACES
- PART II ANALYSIS AND EXPERIMENTATION
- PART III NEW OBJECTS AND IDEAS
- 20 Plate Tectonics
- 21 Geophysics and Geochemistry
- 22 Mathematical Models
- 23 Genes
- 24 Ecosystems
- 25 Immunology
- 26 Cancer
- 27 The Brain and the Behavioral Sciences
- 28 History of Biotechnology
- PART IV SCIENCE AND CULTURE
- Index
- References
21 - Geophysics and Geochemistry
from PART III - NEW OBJECTS AND IDEAS
Published online by Cambridge University Press: 28 November 2009
Book contents
- Frontmatter
- 1 Introduction
- PART I WORKERS AND PLACES
- PART II ANALYSIS AND EXPERIMENTATION
- PART III NEW OBJECTS AND IDEAS
- 20 Plate Tectonics
- 21 Geophysics and Geochemistry
- 22 Mathematical Models
- 23 Genes
- 24 Ecosystems
- 25 Immunology
- 26 Cancer
- 27 The Brain and the Behavioral Sciences
- 28 History of Biotechnology
- PART IV SCIENCE AND CULTURE
- Index
- References
Summary
Geophysics is the branch of experimental physics concerned with the earth, atmosphere, and hydrosphere. It includes such fields as meteorology and oceanography, but attention is restricted here to geodesy, gravimetry, seismology, and geomagnetism. Geochemistry is the study of the distribution and migration of the different elements in the earth, oceans, and atmosphere and therefore involves the chemical analyses of minerals, rocks, and the atmosphere, and mineral solutions. Modern geochemical research makes much use of studies of the radioisotopes of the different elements, which are also used for radiometric dating. In such work, the boundaries between geophysics, geochemistry, and geology are indistinct.
Geophysics is an important field, both practically, as in earthquake studies, and theoretically, as exemplified by geophysicists’ contributions to the establishment of plate tectonics (see Frankel, Chapter 20, this volume). Geochemistry is likewise important: practically, as in geochemical prospecting, and theoretically, especially regarding the earth’s origin and cyclic processes, some involving living organisms. Neither field has attracted the historical attention it deserves, although there are a number of useful sources that offer information and insights of relevance. Beacuse these areas are less well known than other aspects of the earth sciences, this chapter will include outlines of the major scientific developments before indicating what is known about their history.
- Type
- Chapter
- Information
- The Cambridge History of Science , pp. 395 - 415Publisher: Cambridge University PressPrint publication year: 2009
References
, “On the Pendulum Experiments Lately Made in the Horton Colliery,” Philosophical Transactions, 146 (1856).Google Scholar
, “On the Computation of the Effects of Mountain-Masses as Disturbing the Apparent Astronomical Latitude of Stations in Geodetic Survey,” Philosophical Transactions, Series B, 145 (1855);Google Scholar
, From Stone to Star: A View of Modern Geology (Cambridge, Mass.: Harvard University Press, 1992).Google Scholar
, , and , Geophysics in the Affairs of Man: A Personalized History of Exploration Geophysics and Its Allied Sciences of Seismology and Oceanography (Oxford: Pergamon Press, 1982).Google Scholar
, “Orogenesis and Deep Crustal Structure – Additional Evidence from Seismology,” Bulletin of the Geological Society of America, 65 (1954).CrossRefGoogle Scholar
, “Disquisitio Chemica de Terra Gemmarum,” Nova Acta Regiae Societatis Scientiarum Upsaliensis, 2 (1777).Google Scholar
, An Attempt to Establish a Pure Scientific System of Mineralogy, by the Application of Electro-Chemical Theory and the Chemical Proportions, trans. J. Black (London: Robert Baldwin; Edinburgh: William Blackwood, 1814);Google Scholar
, “Determination of the Axes of the Elliptical Spheroid of Revolution Which Most Nearly Corresponds with the Existing Measurements of the Arcs of the Meridian,” in Scientific Memoirs, Selected from the Transactions of Foreign Academies of Science and Learned Societies, ed. (London: Richard and John Taylor, 1841), vol. 2Google Scholar
, Lehrbuch der chemischen und physikalischen Geologie, 2 vols. in 4 (Bonn: A. Marcus, 1847–55);Google Scholar
, Nuclear Explosions and Earthquakes: The Parted Veil (San Francisco: W. H. Freeman, 1976).Google Scholar
, La Figure de la Terre Déterminée par les Observations faites au Pérou (Paris: C. A. Jombert, 1749);Google Scholar
, “On the Newtonian Constant of Gravitation,” Philosophical Transactions, Series A, 186 (1895);CrossRefGoogle Scholar
, Die Paragenesis der Mineralien: Mineralogisch, geognostich und chemisch beleuchtet, mit besonderer Rücksicht auf Bergbau (Freiberg: J. G. Engelhardt, 1849);Google Scholar
, “Recherches sur la Direction d’Aimantation des Roches Volcaniques,” Journal de Physique Théorique et Appliquée, 5 (1906).CrossRefGoogle Scholar
and , The History of Geophysics and Meteorology: An Annotated Bibliography (New York: Garland, 1985).Google Scholar
, “Nineteenth-Century Debates about the Inside of the Earth,” Annals of Science, 36 (1979).CrossRefGoogle Scholar
, , , and , “Seismic Investigations on the Palaeozoic Floor of East England,” Philosophical Transactions, Series A, 239 (1946).Google Scholar
, “The Secular Changes in the Earth’s Magnetic Field,”Monthly Notices of the Royal Astronomical Society Geophysical Supplement, 20 (1948);Google Scholar
, “The Magnetic Field within the Earth,” Proceedings of the Royal Society, Series A, 197 (1949).CrossRefGoogle Scholar
, Science in Culture (Flokestone: William Dawson; New York: Science History Publications, 1978).Google Scholar
, Theories of the Earth and Universe: A History of Dogma in the Earth Sciences (Stanford, Calif.: Stanford University Press, 1988).Google Scholar
, “Experiments to Determine the Density of the Earth,” Philosophical Transactions, 83 (1798).Google Scholar
, “The Magnetic Crusade: Science and Politics in Early Victorian Britain,” Isis, 70 (1979);CrossRefGoogle Scholar
, “Figure of the Earth,” in Sir Henry James, Comparisons of the Standards of Length of England, France, Belgium, Prussia, Russia, India, Australia (London: Her Majesty’s Stationery Office, 1866), vol. 1.Google Scholar
, Études et Expériences Synthétiques sur la Métamorphisme et sur la Formation des Roches Cristallines (Paris: Imprimerie Royale, 1860).Google Scholar
, “Sur le Magnétisme Polaire dans les Minéraux et dans les Roches,” Annales de Chimie et de Physiques, 25 (1849);Google Scholar
and , Essai de Statique Chimique des Étres Organisés (Paris: Fortin, Masson et Ce, 1841);Google Scholar
, “On Some of the Greater Problems of Physical Geology,” Bulletin of the Philosophical Society of Washington, 11 (1892).Google Scholar
, “The Earth’s Interior and Geomagnetism,” Review of Modern Physics, 22 (1950);CrossRefGoogle Scholar
, Two Hundred Years of Seismic Instruments in Italy (Bologna: Storia-Geofisica-Ambiente, 1992);Google Scholar
, “On Deflections of the Plumb Line in India,” in Account of the Operations of the Great Trigonometrical Survey of India, 22 vols. (Dehra Dun, 1870–1912), vol. 18, appendix 1;Google Scholar
, “On the Variations of Gravity at Certain Stations of the Indian Arc of the Meridian in Relation to Their Bearing upon the Constitution of the Earth’s Crust,” Philosophical Magazine, 22 (1886).Google Scholar
, “The Contributions of Carl Friedrich Gauss to Geomagnetism,” Historia Mathematica, 6 (1979).CrossRefGoogle Scholar
and , “Coupling of Sedimentary Sulfur and Carbon Cycles – An Improved Model,” American Journal of Science, 284 (1984).CrossRefGoogle Scholar
, The Problem of the Earth’s Shape from Newton to Clairaut (Cambridge: Cambridge University Press, 1995).Google Scholar
, “Untersuchungen zur Frage, bis zu welcher Tiefe die Erde kristallin ist,” Zeitschrift für Geophysik, 2 (1926).Google Scholar
, History of the Earth Sciences during the Scientific and Industrial Revolutions with Special Reference on the Physical Geosciences (Amsterdam: Elsevier, 1976),Google Scholar
, “Lucien J. B. La Coste: Portrait of a Scientist-Inventor,” Earth in Space, 8 (1996).Google Scholar
, “The Geodetic Evidence of Isostasy, with a Consideration of the Depth and Completeness of the Isostatic Compensation and of the Bearing of the Evidence upon some of the Greater Problems of Geology,” Proceedings of the Washington Academy of Science, 8 (1906);Google Scholar
, The Figure of the Earth and Isostasy from Measurements in the United States (Washington, D.C.: U.S. Government Printing Office, 1909;Google Scholar
, “A Redetermination of the Constant of Gravitation,” Journal of Research of the National Bureau of Standards, 5 (1930).Google Scholar
, The Ecological Theater and the Evolutionary Play (New Haven, Conn.: Yale University Press, 1965).Google Scholar
, “An Account of Experiments for Determining the Length of the Pendulum Vibrating Seconds in the Latitude of London,” Philosophical Transactions, 108 (1818);CrossRefGoogle Scholar
, “Alexander von Humboldt and the Organization of International Collaboration in Geophysical Research,” Contemporary Physics, 1 (1959).CrossRefGoogle Scholar
, “Historical Foundations of Chemical Geology and Geochemistry,” Chemical Geology, 1 (1966);CrossRefGoogle Scholar
, “An Account of Observations Made on the Mountain of Schiehallion for Finding Its Attraction,” Philosophical Transactions, 65 (1775);CrossRefGoogle Scholar
, Gravity Expeditions at Sea, 1923–1932 (Delft: N.V. Technische Boekhandlung en Drukkerij J. Waltman Jr., 1934), vol. 2.Google Scholar
, “Du Magnétisme des Roches,” Comptes Rendus de l’Académie des Sciences, Paris, 37 (1853);Google Scholar
, “The Revival of the Physical Sciences in Britain, 1815–1840,” Osiris, 2 (1986).CrossRefGoogle Scholar
, “Das Beben vom 8. X. 1909,” Jahrbuch des meteorologischen Observatoriums in Zagreb (Agram) für das Jahr 1909, 9 (pt. 4, sec. 1) (1910),Google Scholar
, “The Chemist Breeders: The Research Schools of Liebig and Thomas Thomson,” Ambix, 14 (1972).Google Scholar
and , A Brief History of Geomagnetism (Washington, D.C.: Smithsonian Institution Press, 1987).Google Scholar
, “On the Direction of Magnetisation of Basalt in Japan, Tyôsen and Manchuria,” in Proceedings of the Fourth Pacific Science Congress Java, 1929 (Batavia–Bandoeng, 1930), vol. II B.Google Scholar
, “Report on the Great Earthquake of 12 June 1897,” Memoirs of the Geological Survey of India, 29 (1899);Google Scholar
, “The Constitution of the Earth as Revealed by Earthquakes,” Quarterly Journal of the Geological Society, 62 (1906).CrossRefGoogle Scholar
, Thinking about the Earth (London: Athlone Press; Cambridge, Mass.: Harvard University Press, 1996)Google Scholar
, Shocks and Rocks: Seismology in the Plate Tectonics Revolution (Washington, D.C.: American Geophysical Union, 1996).CrossRefGoogle Scholar
, The Rejection of Continental Drift: Theory and Method in American Earth Science (Oxford: Oxford University Press, 1998).Google Scholar
, “Charles Darwin on the Origin and Diversity of Igneous Rocks,” Earth Sciences History, 15 (1996).CrossRefGoogle Scholar
, “On the Attraction of the Himalayan Mountains and of the Elevated Regions beyond Them, upon the Plumb-Line in India,” Philosophical Transactions, Series B, 145 (1855);Google Scholar
, “History and Evolution of the World Data Centre System,” Journal of Geomagnetism and Geoelectricity Supplement, 43 (1991).Google Scholar
, Baron Eötvös of Vásárosnamény, “Untersuchungen auf dem Gebiete der Gravitation und des Erdmagnetismus,” Annalen der Physik und Chemie, 59 (1896).Google Scholar
, ed., International Dictionary of Geophysics, 2 vols. and maps (Oxford: Pergamon Press, 1967);Google Scholar
, “On the Causes of the Change of Colour which Takes Place in Certain Substances under the Influence of Heat,” Annals of Electricity, Magnetism and Chemistry, 5 (1840)Google Scholar
, “The Diurnal Variation of Terrestrial Magnetism,” Philosophical Transactions, Series A, 180 (1889);CrossRefGoogle Scholar
, “On Migmatites and Associated Pre-Cambrian Rocks of Southwestern Finland,” Bulletin de la Commission Géologique de Finland, no. 58 (1923);Google Scholar
, Patronage, Practice, and the Culture of American Science: Alexander Dallas Bache and the U.S. Coast Survey (Cambridge: Cambridge University Press, 1994).Google Scholar
, “The Boliden Gravimeter – A New Instrument for Ore Prospecting,” Bulletin of the Institution of Mining and Metallurgy, no. 402 (1938),Google Scholar
, A History of the Mathematical Theories of Attraction and the Figure of the Earth (London: Macmillan, 1873), vol. 1, chap. 11;Google Scholar
and , “Origin of Granite in the Light of Experimental Studies in the System NaAlSi3O8—SiO2—H2O,” Memoir of the Geological Society of America, No. 74 (New York: Geological Society of America, 1958);Google Scholar
, “The Form of the Geoid as Determined by Measurements in the United States,” in Report of the Eighth International Geographic Congress (Washington, D.C.: U.S. Government Printing Office, 1905);
, The Biosphere, trans. David B. Langmuir (New York: Springer, 1997) (first Russian edition, 1926).Google Scholar
, Die organische Chemie in ihrer Anwendung auf Agricultur und Physiologie (Braunschweig: Vieweg und Sohn, 1840).Google Scholar
, “Der neue Pendelapparat des k. k. Militär-geographischen Instituts,” Zeitschrift für Instrumentenkunde, 8 (1888).Google Scholar
, “On the Activity of Deep-Focus Earthquakes in the Japan Islands and Neighborhood,” Geophysical Magazine, Tokio, 8 (1935);Google Scholar
explores the role of living things in geochemical cycles in Life as a Geological Force (New York: Norton, 1991).Google Scholar
and , “Experimentelle Gesteinsmetamorphose – II: Bildung von anatektischen granitischen Schmelzen bei der Metamorphose von NaCl – führenden kalkfreien Tonen,” Geochimica et Cosmochimica Acta, 15 (1958).Google Scholar
, “Development and Promotion of the Initial Scientific Program for the Geophysical Laboratory,” in The Earth, the Heavens and the Carnegie Institution of Washington, ed. (Washington, D.C.: American Geophysical Union, 1994).Google Scholar
, Inventing Canada: Early Victorian Science and the Idea of a Transcontinental Nation (Toronto: University of Toronto Press, 1987), pt. II.Google Scholar
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