Encyclopedia of Coastal Science

2019 Edition
| Editors: Charles W. Finkl, Christopher Makowski

Mining of Coastal Materials

  • W. R. OsterkampEmail author
  • R. A. Morton
Reference work entry
DOI: https://doi.org/10.1007/978-3-319-93806-6_215

Mining is the process of extracting rock and mineral material from near-surface sources of the earth. It may include small, local borrow pits with no supporting infrastructure or large-scale operations with permanent facilities for removing, loading, and transporting the resource. Considering only coastal areas, those adjacent to the shoreline and extending seaward through the breaker (surf) zone (U.S. Army Coastal Engineering Research Center 1966) and landward through the highest surfaces subject to modern processes of wave alteration, the area represented (based on estimates by Kuenen 1950) is a little less than 1% of the global surface. The coastal zone, as used here, includes all parts of barrier islands, lagoons, tidal flats, and mangrove swamps, but does not include embayments and fiords, permanently exposed parts of deltas, lands bordering estuaries (such as the Bay of Fundy), and other inland tide-influenced areas.

Energy conditions within the coastal zone, as evidenced by the...

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Bibliography

  1. Blake NJ, Doyle LJ, Cutler JJ (1996) Impacts and direct effects of sand dredging for beach renourishment on the benthic organisms and geology of the West Florida shelf. Final report for the minerals management service, OCS report 95-0005, 109pGoogle Scholar
  2. Burnett WC, Riggs SR (eds) (1990) Phosphate deposits of the world, volume 3, Neogene to modern phosphates. Cambridge University Press, CambridgeGoogle Scholar
  3. Combe AJ, Soileau CW (1987) Behavior or man-made beach and dune, Grand Isle, Louisiana: coastal sediments ‘87. Am Soc Civil Eng 2:1232–1242Google Scholar
  4. Cruickshank MJ (1974) Model for assessment of benefit/cost ratios and environmental impacts of marine mining operation. In: Proceedings of the International Symposium on Minerals and the Environment, Institute of Mining and Metallurgy, LondonGoogle Scholar
  5. Cruickshank MJ, Hess HD (1975) Marine sand and gravel mining. Oceanus (Fall issue): 32–44Google Scholar
  6. Garnett RHT (2000a) Marine placer gold, with particular reference to Nome, Alaska. In: Cronan DS (ed) Handbook of marine mineral deposits. CRC Press, Boca Raton, pp 67–101Google Scholar
  7. Garnett RHT (2000b) Marine placer diamonds, with particular reference to southern Africa. In: Cronan DS (ed) Handbook of marine mineral deposits. CRC Press, Boca Raton, pp 103–141Google Scholar
  8. Hitchcock DR, Newell RC, Seiderer LJ (1999) Investigation of benthic and surface plumes associated with marine aggregate mining in the United Kingdom. Final contract report for the U.S. Department of the Interior, Minerals Management Service: Coastline Surveys Limited, Gloucestershire, UKGoogle Scholar
  9. Kudrass HR (2000) Marine placer deposits and sea-level changes. In: Cronan DS (ed) Handbook of marine mineral deposits. CRC Press, Boca Raton, pp 3–12Google Scholar
  10. Kuenen PH (1950) Marine geology. Wiley, New YorkGoogle Scholar
  11. Kuo CS (1995) The mineral industry of Indonesia. In: Minerals Yearbook, vol III. U.S. Geological Survey., Miscellaneous and Special Book, Reston, pp 79–86Google Scholar
  12. Langer WH, Glanzman VM (1993) Natural aggregate—building America’s future. U.S. Geological Survey Circular 1110, 39pGoogle Scholar
  13. Lyday TQ (1995) The mineral industry of Philippines. In: Yearbook M (ed) Volume III. U.S. Geological Survey, Miscellaneous and Special Book, pp 147–152Google Scholar
  14. Nichols, M., Cerco, C., Clinton, G., and Martinez, R., 1987. Coastal dunes for protection and sand resources. In: Proceedings of the 5th Symposium on Coastal and Ocean Management, 2, Washington, DC, pp 1302–1311Google Scholar
  15. Pearce F (1994) Rush for rock in the highlands. New Scientist 141:1907Google Scholar
  16. Rajamanickam GV (2000) Light-heavy minerals on the Indian continental shelf, including beaches. In: Cronan DS (ed) Handbook of marine mineral deposits. CRC Press, Boca Raton, pp 13–26Google Scholar
  17. Riggs SR (1979) Petrology of the tertiary phosphorite system of Florida. Econ Geol 74:195–220CrossRefGoogle Scholar
  18. Riggs SR, Ellison SP Jr, Fisher WL, Galloway WE, Jackson MLW, Morton RA (1991) Mineral resources and geopressured-geothermal energy. In: Salvador A (ed) The Gulf of Mexico Basin: the geology of North America. Geological Society of America, Boulder, pp 495–528Google Scholar
  19. Robinson AHW (1961) The hydrography of Start Bay and its relationship to beach changes at Hallsands. Geogr J 131:63–77CrossRefGoogle Scholar
  20. Rodriguez R (1994) Sand and gravel resources of Puerto Rico. In: Selected Issues in the USGS Marine and Coastal Geology Program: San Juan, Puerto Rico. U. S. Geological Survey, Reston, 2pGoogle Scholar
  21. U.S. Army Coastal Engineering Research Center (1966) Shore protection, planning, and design. Technical Report No. 4, 3rd edn. Government Printing Office, Washington, DC 580pGoogle Scholar
  22. Webb RMT, Morton RA (1996) Impacts of mining and urbanization along the north coast of Puerto Rico: a case study of the San Juan metropolitan area. Abstracts with Programs 1996, 109th annual meeting. Geological Society of America, Boulder, p A80Google Scholar
  23. Williams SJ (1986) Sand and gravel deposits within the United States exclusive economic zone: resource assessment and uses. In: Proceedings of the 18th annual offshore technology conference, Houston, TX, pp. 377–384Google Scholar
  24. Worth RH (1923) Hallsands and Start Bay, part 3. Trans Devon Assoc 55:131–147Google Scholar
  25. Yim WW-S (2000) Tin placer deposits on continental shelves. In: Cronan DS (ed) Handbook of marine mineral deposits. CRC Press, Boca Raton, pp 27–66Google Scholar
  26. Zack, Allen, 1986. Effects of sand removal on the shallow aquifer in the vicinity of the Camuy mangrove forest, Puerto Rico. In: Proceedings of the 3rd Caribbean Islands water resources congress, Puerto Rico Water Resources Association, pp. 41–48Google Scholar

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© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.US Geological SurveyTucsonUSA
  2. 2.Center for Coastal GeologyUS Geological SurveySt. PetersburgUSA