Abstract
The context: Europe is a knowledge-based society. This aspiration can only be sustained when it rests on a strong fundament provided by basic science. Through a strong relationship between basic science and applied science, society can benefit in all relevant issue areas. Through basic science, the understanding of the Earth system can be improved and the even more far-reaching questions about the place of Earth in the universe and the emergence of life can be approached.
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References
European Commission. Key Figures 2005 on Science, Technology and Innovation. Brussels: European Commission, 2005.
UNESCO. UNESCO Science Report 2005. Paris: UNESCO, 2005.
European Science Foundation. Humans in Outer Space: Interdisciplinary Odysseys. SCH-ESSC Position Paper. Strasbourg: European Science Foundation, 2008; eds. Codignola, Luca and Kai-Uwe Schrogl. Humans in Outer Space: Interdisciplinary Odysseys. Vienna, New York: Springer, 2009.
Blamont Jacques. Le Chiffre et le Songe. Paris: Odile Jacob, 1993.
See: Mazur, Peter. “Limits to Life at Low Temperatures and at Reduced Water Contents and Water Activitie.” Origins of Life and Evolution of Biospheres 10.2 (1980): 137–159; and Mazur, Peter. “Cryobiology: The Freezing of Biological Systems.” Science 168 (1970): 939–949; cf. also: Clarke, Arthur C. 2001: A Space Odyssey. New York: New American Library, 1968; and 2001: A Space Odyssey. Dir. Stanley Kubrick. Metro Goldwyn Mayer, 1968.
Cf. Wilcox, Don. “The Voyage that Lasted 600 Years.” Amazing Stories 14.10 (1940); Heinlein, Robert A. “Universe.” Astounding Science-Fiction 126 (1941); Adams, Douglas. The Restaurant at the End of the Universe. London: Pan Macmillan, 1980; Russo, Richard P. Ship of Fools. New York: Ace Books, 2001.
Launius, Roger D. and McCurdy, Howard E. Robots in Space: Technology, Evolution and Interplanetary Travel. Baltimore: John Hopkins University Press, 2008.
See: Smith, Lesley J. and Catherine, Doldirina. “Remote Sensing: A Case for Moving Space Data towards the Public Good.” Space Policy 24.1 (2008): 22–32; see also: Blamont, Jacques. “We the People: Consequences of the Revolution in the Management of Space Applications.” Space Policy 24.1 (2008): 13–21.
Dutton, John A. “Opportunities and Priorities in a New Era for Weather and Climate Services.” Bulletin of the American Meteorological Society 83 (2002): 1303–1311.
Committee on NASA-NOAA Transition from Research to Operations; National Research Council. Satellite Observations of the Earth’s Environment: Accelerating the Transition of Research to Operations. Washington, D.C.: National Academic Press, 2003.
Massonnet, Didier, et al. “The Displacement Field of the Landers Earthquake Mapped by Radar Interferometry.” Nature 364.6433 (1993): 138–142.
See: European Science Foundation. A Strategy for Earth Observation from Space. Strasbourg: European Science Foundation, 1992; see also: European Science Foundation. Recommendations to the ESA Council Meeting at Ministerial Level. Strasbourg: ESF, 2005.
European Space Agency. “ESA Leads Endeavour to Save Earth Science Data.” 10 Mar. 2008. http:// www.esa.int/esaEO/SEMDFQK26DF_index_0.html
Gall, Robert L., MacDonald, Alexander E., and Serafin, Robert J. “Transition of Weather Research to Operations: Opportunities and Challenges.” Bulletin of the American Meteorological Society 83 (2002): 377–391.
European Space Agency. “Satellites Take Sustainability to New Heights.” 25 Mar. 2008. http:// www.esa.int/esaEO/SEM8P5M5NDF_index_0.html; and: Hatfield Consultants. “Remote Sensing for Sustainable Development Reporting in the Oil Sands.” 2008. http://www.hatfieldgroup.com/default.aspx?p=/services/gis_rs/oil+sands.
European Space Agency. The Changing Earth: New Scientific Challenges for ESA’s Living Planet Programme. ESA SP-1304. Paris: European Space Agency, 2006.
Massonnet, Didier, et al., 1993 (see endnote 11).
Fialko, Yuri, et al. “Three-Dimensional Deformation Caused by the Bam, Iran, Earthquake and the Origin of Shallow Slip Deficit.” Nature 435.7040 (2005): 295–299.
Rapley, Chris. “Understanding the Poles of the Earth, Moon and Mars.” Presentation to an SSB-COSPAR Symposium, International Public Seminar Series, Paris, 27 Mar. 2008.
German Aerospace Center. “CO2 Levels Measured from Space for the First Time by German SCIAMACHY Instrument.” 16 May 2007. http://www.dlr.de/en/desktopdefault.aspx/tabid-614/987_read-9092
Hertzfeld, Henry, and Williamson, Ray A. “Socioeconomic Benefits of Earth Science Research.” IAF-02-B.5.01. Paper presented at the 53rd International Astronautical Congress, Houston, TX, 18 October 2002.
European Space Agency. “Colloquium on Scientific and Fundamental Aspects of the Galileo Programme.” 26 Sept. 2007. http://www.esa.int/esaNA/SEMO9N6H07F_galileo_0.html
European Space Agency. “Medical Care from Space: Telemedicine.” 3 Mar. 2008: http://telecom. esa.int/telecom/www/object/index.cfm?fobjectid=8264
See: SpaceWeather.com, http:/www.spaceweather.com
See: ESA Space Weather Web Server http://www.esa-spaceweather.net; and: European Space Weather Portal, http://www.spaceweather.eu
Hawking, Stephen. Radio Interviews with BBC (UK) on 30 Nov. 2006 and ABC Radio Australia on 2 Dec. 2006.
European Space Science Committee; European Science Foundation. ESSC-ESF Report on Near-Earth Object Research. Strasbourg: European Science Foundation, 2004; and: UK Task Force. Report on Potentially Hazardous Near-Earth Objects. DTI/Pub 4990/5k/9/00/NP.URN00/1041, 2000.
See: NASA. “99942 Apophis (2004 MN4) Impact Risk.” 1 Dec. 2007. http://neo.jpl.nasa.gov/risk/a99942.html
See: Hadamcik, E., et al. “Laboratory Measurements of the Light Scattered by Clouds of Solid Particles by Imaging Technique.” Light Scattering Reviews 4: Single Light Scattering and Radiative Transfer. Ed. Alexander A. Kokhanovsky. Berlin: Springer (forthcoming); see also: Worms, Jean-Claude, et al. “Results of the PROGRA2 Experiment: An Experimental Study in Microgravity of Scattered Polarized Light by Dust Particles with Large Size Parameter.” Icarus 142 (1999): 281–297.
UNOOSA. Near-Earth Objects Interim Report of the Action Team on Near-Earth Objects (2007–2008) UN Doc. A/AC.105/C.1/L.295, 2008.14.
Chapman, Clark R. “Meteoroids, Meteors, and the NEO Impact Hazard.” Earth, Moon, and Planets 102.1–4 (2008): 417–424.
See: NASA, Near Earth Object Program, http://neo.jpl.nasa.gov/index.html
COSPAR Planetary Protection Policy, approved by the COSPAR Bureau and Council, World Space Congress, Houston, TX, on 20 Oct. 2002. Amended on 24 Mar. 2005.
Williamson, Mark. Spacecraft Technology: The Early Years. London: Institution of Electrical Engineers, 2006. p. 136.
Williamson, Mark. “Catch the Wave.” Institution of Electrical Engineers Review 51 (2005):30–34.
Turnill, Reginald, ed. Jane’s Spaceflight Directory. London: Jane’s Publishing Company, 1987. p. 84.
Glaser, Peter E. “Power from the Sun: Its Future” Science Magazine 162 (1968): 857–861.
Williamson, Mark. Space: The Fragile Frontier Reston: American Institute of Aeronautics and Astronautics, 2006. p. 43.
United Nations. Our Common Future. Report of the World Commission on Environment and Development. Published as Annex to General Assembly Doc. A/42/427 “Development and International Co-operation: Environment.” 2 Aug. 1987.
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Lago, M.T., Worms, JC., Williamson, M. (2009). Knowledge. In: Schrogl, KU., Mathieu, C., Lukaszczyk, A. (eds) Threats, Risks and Sustainability — Answers by Space. Studies in Space Policy, vol 2. Springer, Vienna. https://doi.org/10.1007/978-3-211-87450-9_2
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DOI: https://doi.org/10.1007/978-3-211-87450-9_2
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