American Geophysical Union

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American Geophysical Union
American Geophysical Union logo.svg
American Geophysical Union building, front entrance.jpg
Front entrance to AGU building
Abbreviation AGU
Motto unselfish cooperation in research[1]
Formation 1919
Type Scientific society
Legal status Non-profit[2]
Purpose Geophysics, and many other fields in Earth and Space sciences
Headquarters Washington, D.C., United States
Coordinates Lua error in package.lua at line 80: module 'strict' not found.
Region served
Worldwide
Membership
62,000 individuals
President
Carol Finn[3][4]
Main organ
Eos, Transactions, American Geophysical Union
Affiliations International Union of Geodesy and Geophysics, American Association for the Advancement of Science,[5] American Institute of Physics,[6] National Academy of Sciences, American Geological Institute, Council of Engineering and Scientific Society Executives, International Council of Scientific Unions[7]
Budget
US$39 million[8]
Staff
115[9]
Volunteers
21,029[10]
Website www.agu.org

The American Geophysical Union (AGU) is a nonprofit organization of geophysicists, consisting of over 62,000 members from 144 countries. AGU's activities are focused on the organization and dissemination of scientific information in the interdisciplinary and international field of geophysics. The geophysical sciences involve four fundamental areas: atmospheric and ocean sciences; solid-Earth sciences; hydrologic sciences; and space sciences.

History

The AGU was established in December 1919 by the National Research Council (NRC) to represent the United States in the International Union of Geodesy and Geophysics (IUGG), and its first chairman was William Bowie of the United States Coast and Geodetic Survey (USCGS).[11][12]:267 For more than 50 years it operated as an unincorporated affiliate of the National Academy of Sciences. In 1972 AGU was incorporated in the District of Columbia and membership was opened to scientists and students worldwide.[13][14]

The AGU was intended to promote "pure" geophysics; exploration geophysics has its own society, the Society of Exploration Geophysicists.[14] In a March 1919 report by a committee chaired by Robert S. Woodward of the Carnegie Institution, geophysics was defined as a collection of "borderlands" (closely related, mutually dependent subjects): astronomy, geodesy, geology, meteorology, mareology (oceanography), seismology, terrestrial magnetism, terrestrial electricity, tides, and volcanology. The AGU was organized under seven sections: Geodesy, Seismology, Meteorology, Terrestrial magnetism and electricity, Oceanography, Volcanology, and Geophysical chemistry. Hydrology was added in 1930 and Tectonophysics in 1940. In suggesting the latter name, Norman Bowen evoked a familiar theme: to "designate this new borderline field between geophysics, physics and geology ... for the solution of problems of tectonics."[15]

The first meeting of the AGU took place on April 23, 1920. In attendance were 25 members. Up to 1930, the number of members was restricted and members were elected. In 1932 the first annual dues US$2 were imposed.[15] The membership grew to 4600 in 1950; 13,000 in 1980; and 26,000 in 1990.[14] As of 2013, it had 62,000 members from 144 countries.[16]

Publications

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AGU publishes the weekly Eos newspaper and nineteen peer-reviewed scientific journals:[17]

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  • Atmospheres
  • Biogeosciences
  • Earth Surface
  • Oceans
  • Planets
  • Solid Earth
  • Space Physics

The journal Radio Science is co-sponsored by the International Union of Radio Science.[18] The journal Earth Interactions is published in partnership with the American Meteorological Society (AMS)[19] and the Association of American Geographers (AAG).[20] In addition, International Journal of Geomagnetism and Aeronomy is no longer published and AGU distributes Chinese Journal of Geophysics and Nonlinear Processes in Geophysics.[17] Many of the journals have high impact factors, with Paleoceanography having the highest within paleontology and Reviews of Geophysics the second highest within geochemistry and geophysics as of 2010.[21] AGU has also been publishing books for more than 85 years.[22] It maintains a digital book library with 16 book series and over 550 book titles.[23]

AGU co-published (along with the AMS and the AAG) its first electronic journal, Earth Interactions, in 1997. It started its own electronic journal, Geochemistry, Geophysics, Geosystems, in December 1999.[24] It made a full transition to electronic publishing in 2001. For all its journals, the electronic version became the publication of record. This was accompanied by a new identification scheme for articles that entirely did away with sequential page numbers. Instead, each article had a digital object identifier (DOI). As an example, 10.1029/2001GL014304 consists of the publisher identifier (AGU), the year (2001), the journal code (GL), and an article number (014304). This new system was met with complaints from libraries and scientists. The article numbers provided no clue for libraries to find an article in printed versions, and even scientific databases were not set up to handle DOIs. AGU officials claimed that the problems were a temporary cost of being a frontrunner, but did retroactively assign each article a four-digit article number.[25]

In 2012 the journals and books, including over one and a half million pages of legacy content, were transferred to the Wiley Online Library. John Wiley & Sons were recognized for this work with the IT Project Team of the Year Award at the UK IT Industry Awards for 2013.[26][27][28]

The AGU hosts a number of blogs, collectively known as the AGU Blogosphere, informally publishing frequent updates on the Earth and space sciences.[29]

Texaco copyright case

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AGU publications are copyrighted, but in the United States many exceptions to the exclusive rights of copyright are allowed under the fair use provision, part of the Copyright Act of 1976. Making copies of publications are allowed for such uses as teaching and research as long as a set of four criteria are met. However, when Texaco's corporate library made systematic copies of journal articles for its collection, AGU and five other publishers took Texaco to court. The judges found for AGU. Texaco was fined and agreed to retroactively purchase a license from the Copyright Clearance Center.[30][31][32]

Executive

Presidents

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File:William Bowie NOAA.jpg
William Bowie, first chairman of the AGU.

The presidents of the AGU have been:[7][15]

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Executive directors

While more than 40 presidents have provided scientific leadership for the AGU since 1919, operational leadership has been provided by just four individuals. The first was John Adam Fleming, who was elected Secretary in 1925 and changed the name of his position to General Secretary. He served as a volunteer while working at the Department of Terrestrial Magnetism at the Carnegie Institution. By 1943, with the membership nearing 2,000, AGU recognized the need for a full-time professional administrator. The post was renamed Executive Secretary and Waldo E. Smith was hired. He served until 1970 and then Athelstan Spilhaus, Jr. was hired as Executive Director.[15][33] Christine McEntee replaced him in 2010.[7] Medals have been named after Fleming and Smith.[15]

Recognition

Medals

The AGU offers several medals and awards.[34] Its highest honor is the William Bowie Medal, and its namesake was the first recipient in 1939. It is awarded at most annually for "outstanding contributions to fundamental geophysics and for unselfish cooperation in research". Other medals include:[35]

  • The Walter H. Bucher Medal (established 1966), named after Walter Hermann Bucher, a former AGU president and major contributor to crustal problems, “for original contributions to the basic knowledge of the crust and lithosphere.”
  • The Maurice Ewing Medal (established 1974 and co-sponsored by the United States Navy), named after Maurice Ewing, a major contributor to oceanography, “for significant original contributions to the scientific understanding of the processes in the ocean; for the advancement of oceanographic engineering, technology, and instrumentation; and for outstanding service to the marine sciences.”
  • The John Adam Fleming Medal (established 1960), named after John Adam Fleming, a major contributor to magnetic standards and measurements, “for original research and technical leadership in geomagnetism, atmospheric electricity, aeronomy, space physics, and related sciences.”
  • The Harry H. Hess Medal (established 1984), named after Harry Hammond Hess, who made major contributions to the study of the oceanic lithosphere, “for outstanding achievements in research of the constitution and evolution of Earth and other planets”
  • The Robert E. Horton Medal (established 1974), named after Robert E. Horton, who provided many of the analytical concepts for understanding the hydrologic cycle, “for outstanding contributions to hydrology.”
  • The Inge Lehmann Medal (established 1995), named after Inge Lehmann, the discoverer of the Earth's inner core, “for outstanding contributions to the understanding of the structure, composition, and dynamics of the Earth’s mantle and core.”
  • The James B. Macelwane Medal (established 1961), named after James B. Macelwane, a former AGU president who was deeply interested in teaching young scientists, "to be awarded annually for significant contributions by outstanding young scientists." Recipients must be no more than 10 years past their highest degree.
  • The Roger Revelle Medal (established 1991), named after Roger Revelle, an oceanographer notable for his contribution to the understanding of global change, “for outstanding contributions in atmospheric sciences, atmosphere-ocean coupling, atmosphere-land coupling, biogeochemical cycles, climate, or related aspects of the Earth system”
  • The Waldo E. Smith Medal (established 1982), named after Waldo E. Smith, the first Executive Secretary of AGU, to recognize "individuals who have played unique leadership roles in such diverse areas as scientific associations, education, legislation, research, public understanding of science, management, and philanthropy, and whose accomplishments have greatly strengthened and helped advance the geophysical sciences."
  • The Charles A. Whitten Medal (established 1984), named after Charles A. Whitten, a former AGU General Secretary and geodesist, “for outstanding achievement in research on the form and dynamics of the Earth and planets.”

Awards

  • The Robert C. Cowen Award (established 1991), named after a long-time editor of The Christian Science Monitor, "for a journalist or a group that has made significant, lasting, and consistent contributions to accurate reporting or writing on the geophysical sciences for the general public."
  • The Excellence in Geophysical Education Award (established in 1995) “to acknowledge a sustained commitment to excellence in geophysical education by a team, individual, or group. To educators who have had a major impact on geophysical education at any level (kindergarten through postgraduate), who have been outstanding teachers and trainers for a number of years, or who have made a long-lasting, positive impact on geophysical education through professional service.”
  • The Charles S. Falkenberg Award (established in 2002), named after Falkenberg, who applied data visualization and information technology to earth sciences, to an individual “scientist under 45 years of age who has contributed to the quality of life, economic opportunities, and stewardship of the planet through the use of Earth science information and to the public awareness of the importance of understanding our planet.”
  • The Edward A. Flinn III Award (established 1990), named after a leader of the NASA Geodynamics Program who directed efforts to detect motion of the Earth's crust using laser ranging, to an “individual who personifies the Union’s motto ‘unselfish cooperation in research’ through their facilitating, coordinating, and implementing activities.”
  • The International Award (established 2007) “to recognize an individual scientist or a small team for making an outstanding contribution to furthering the Earth and space sciences and using science for the benefit of society in less favored nations.”
  • The David Perlman Award (established 2000), named after the science editor of the San Francisco Chronicle, "for excellence in researching and reporting a news story that meets one or more of the following criteria: brings new information or concepts about AGU sciences to the public's attention, identifies and corrects misconceptions about AGU sciences, or makes AGU sciences accessible and interesting to general audiences, without sacrificing accuracy."
  • The Athelstan Spilhaus Award (established 2006), named after Athelstan Frederick Spilhaus, Sr. who created the bathythermograph and also a long-running science cartoon, “for enhancement of the public understanding of Earth and space science.”
  • The Science for Solutions Award (established 2012) "for significant contributions in the application and use of Earth and space sciences to solve societal problems."
  • The Climate Communication Award (established 2011 and funded by Nature's Own, a purveyor of fossils and minerals) “for the communication of climate science.”
  • The William Kaula Award (established 2003), named after geophysicist and physical geodesist William M. Kaula, for "extraordinary dedication to, and exceptional efforts on behalf of, the Union’s publications program." (Awarded on even-numbered years.)[36]
  • The Walter Sullivan Award for Excellence in Science Journalism (established 2000), named after the renowned science writer of The New York Times, awarded annually for science feature writing.[37]

Fellowships

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AGU nominates members for fellowship in the society. According to the AGU website "To be elected a Fellow of AGU is a special tribute for those who have made exceptional scientific contributions. Nominated Fellows must have attained acknowledged eminence in the Earth and space sciences. This designation is conferred upon not more than 0.1% of all AGU members in any given year. New Fellows are chosen by a Committee of Fellows."[38]

Sections and focus groups

The AGU is divided into 11 sections that provide the main structure for managing volunteers, developing leaders and honoring scientists. These sections also reflect the breadth of science within Earth and space science: atmospheric sciences; biogeosciences; geodesy; geomagnetism and paleomagnetism; hydrology; ocean sciences; planetary sciences; seismology; space physics, aeronomy, and heliophysics; tectonophysics; volcanology, geochemistry, and petrology.[39]

There are also 12 focus groups that organize research involving two or more sections. These are atmospheric and space electricity; cryosphere sciences; Earth and planetary surface processes; Earth and space science informatics; mineral and rock physics; global environmental change; natural hazards; near surface geophysics; nonlinear geophysics; paleoceanography and paleoclimatology; study of the Earth's deep interior; and societal impacts and policy sciences.[39]

Meetings

Plenary session at an American Geophysical Union policy conference in Washington, DC in May 2012.

AGU holds annual meetings in San Francisco every December (known as the Fall meeting) and every Spring (April through May) in locations around the world. The latter grew out of AGU's annual Spring meeting, which had been held for many years in Baltimore, until declining interest caused AGU to move the meeting to different locations, starting with Boston in 1998. With the 2003 meeting in Nice, France, it became known as the Joint Assembly because AGU co-sponsors it with other societies such as the Geochemical Society, the Mineralogical Society of America (MSA), the Canadian Geophysical Union (CGU), and the European Geosciences Union (EGU). The Fall Meeting had more than 20,000 attendees in 2012.[40]

In addition to the two meetings that cover all areas of the geophysical sciences, AGU sponsors many specialized meetings that are intended to serve the needs of particular scientific disciplines or geographical areas, including the Ocean Sciences Meetings and Western Pacific Geophysical Meetings which are held in even numbered years. Small, highly focused meetings are offered through the Chapman Conferences.[41]

The large numbers and international participation in the Fall Meeting results in a large contribution to greenhouse gases. The 9500 participants in the 2002 meeting traveled an average of 8,000 kilometres (5,000 mi) to attend, producing 1.3 metric tons of carbon dioxide, or one-sixteenth of the average yearly emissions for Americans. The AGU has made some adjustments such as asking shuttle bus drivers to turn off their engines when they are not moving, but 95% of the emissions come from jet fuel. In an unpublished study, David Scott and Lawrence Plug of Dalhousie University estimated that the AGU could reduce emissions by 7.7% if it moved the Fall Meeting to Denver, Colorado.[42][43]

Science and policy

On occasion the AGU Council issues position statements on matters affecting public policy that are related to geophysics. These include biological evolution, natural hazards, science education and funding, and climate change.[44] The AGU issued a position statement on climate change in December 2003, and revised and reaffirmed the statement in 2012. The revised statement begins:

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The Earth's climate is now clearly out of balance and is warming. Many components of the climate system—including the temperatures of the atmosphere, land and ocean, the extent of sea ice and mountain glaciers, the sea level, the distribution of precipitation, and the length of seasons—are now changing at rates and in patterns that are not natural and are best explained by the increased atmospheric abundances of greenhouse gases and aerosols generated by human activity during the 20th century.

— AGU Council, Human Impacts on Climate[45]

In 2011, AGU created a Task Force on Scientific Ethics, " to review and update existing policies and procedures for dealing with scientific misconduct."[46] This effort received a setback when its chairman, Peter Gleick, announced that he had lied to obtain internal documents from the Heartland Institute and then leaked them to the public.[47] Gleick, a climate scientist and recipient of the MacArthur Fellowship, said he was motivated by frustration with the efforts of groups such as the Heartland Institute to attack climate science and scientists, but admitted that it was a serious lapse of judgement.[48] He resigned from the task force on February 16, 2012, and was replaced by Linda Gundersen, director of the Office of Science Quality and Integrity at the United States Geological Survey (USGS).[46]

Members of the AGU who work in politically-controversial fields have come under legal attack. For example, Michael Mann, a Fellow of the AGU and lead author of the original "hockey stick graph" study, faced a legal demand to turn over his private emails from Kenneth Cuccinelli II, at the time the attorney general of the state of Virginia, a conservative Republican who argues that there is no persuasive evidence that human activity is warming the planet. The court rejected Cuccinelli's demand.[49] However, such legal challenges continue, so in 2012 AGU entered in a partnership with the Climate Science Legal Defense Fund to offer legal counseling at the Fall Meeting.[50]

See also

References

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  29. Lua error in package.lua at line 80: module 'strict' not found.AGU Blogosphere
  30. American Geophysical Union v. Texaco, Inc., 60 F.3d 913 (2d Cir 1995).
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Further reading

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