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Chapter 19 - Submarine Cables and Pipelines

from Assessment of Other Human Activities and the Marine Environment

Published online by Cambridge University Press:  18 May 2017

Edited by
United Nations
United Nations
Affiliation:
Division for Ocean Affairs and the Law of the Sea, Office of Legal Affairs
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Summary

Submarine communications cables

Introduction to submarine communications cables

In the last 25 years, submarine cables have become a dominant element in the world's economy. It is not too much to say that, without them, it is hard to see how the present world economy could function. The Internet is essential to nearly all forms of international trade: 95 per cent of intercontinental, and a large proportion of other international, internet traffic travels by means of submarine cables. This is particularly significant in the financial sphere: for example, the SWIFT (Society for Worldwide Interbank Financial Telecommunication) system was transmitting financial data between 208 countries via submarine cables in 2010. As long ago as 2004, up to 7.4 trillion United States dollars were transferred or traded on a daily basis by cables (Rauscher, 2010). The last segment of international internet traffic that depended mainly on satellite communications was along the East coast of Africa: that was transferred to submarine cable with the opening of three submarine cables along the East coast of Africa in 2009-2012 (Terabit, 2014). Submarine cables have advantages over satellite links in reliability, signal speed, capacity and cost: the average unit cost per Mb/s capacity based on 2008 prices was 740,000 dollars for satellite transmission, but only 14,500 dollars for submarine cable transmission (Detecon, 2013).

Submarine telegraph traffic by cable began between England and France in 1850-1851. The first long-term successful transatlantic cable was laid between Newfoundland, Canada, and Ireland in 1866. The early cables consisted of copper wire insulated by gutta percha, and protected by an armoured outer casing. The crucial development that enabled the modern systems was the development of fibre-optic cables: glass fibres conveying signals by light rather than electric current. The first submarine fibre-optic cable was laid in 1986 between England and Belgium; the first transatlantic fibre-optic cable was laid in 1988 between France, the United Kingdom and the United States. It was just at that time that the Internet was beginning to take shape, and the development of the global fibre-optic network and the Internet proceeded hand in hand. The modern Internet would not have been possible without the vastly greater communications possibilities offered by fibre-optic cables (Carter et al., 2009).

Type
Chapter
Information
The First Global Integrated Marine Assessment
World Ocean Assessment I
 , pp. 277 - 284
Publisher: Cambridge University Press
Print publication year: 2017

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References

Acres, H. (2006). Literature Review: Potential electromagnetic field (EMF) effects on aquatic fauna associated with submerged electrical cables. Supplement to the Environmental Assessment Certificate (EAC) Application for the Vancouver Island Transmission Reinforcement (VITR) Project. Prepared for BC Hydro Environment & Sustainability Engineering, Victoria BC.
Arctic Fibre (2014). www.arcticfibre.com (accessed 10 November 2014).
APM (Alaska Public Media). (2015). “Arctic Fiber Project Delayed Into 2016” (http://www.alaskapublic.org/2014/12/23/arctic-fiber-project-delayed-into-2016/accessed 10 June 2015).
Burnett, D.R., Beckman, R.C. and Davenport, T.M. (eds.), (2014). Submarine Cables: The Handbook of Law and Policy, Nijhoff, Leiden (Netherlands) and Boston (USA) (ISBN 978-90-04-26032-0).
Carter, L., Burnett, D. Drew, S. Marle, G. Hagadorn, L. Bartlett-McNeil, D., and Irvine, N. (2009). Submarine Cables and the Oceans – Connecting the World. UNEP-WCMC Biodiversity Series No. 31. ICPC/UNEP/UNEP-WCMC, Cambridge (England.
Carter, L., Milliman, J.D., Talling, P.J., Gavey, R., and Wynn, R.B. (2012). Near-synchronous and delayed initiation of long run-out submarine sediment flows from a record-breaking river flood, offshore Taiwan, Geophysical Research Letters, Volume 39, 12, doi:10.1029/2012GL051172.Google Scholar
Carter, L., Gavey, R. Talling, P.J. and Liu, J.T. (2014). Insights into submarine geohazards from breaks in subsea telecommunication cables. Oceanography 27(2).Google Scholar
Detecon (2013). Detecon Asia-Pacific Ltd, Economic Impact of Submarine Cable Disruptions, prepared for Asia-Pacific Economic Cooperation Policy Support Unit (Document APEC#213-SE-01.2).
Hecht, J. (2012). Fibre optics to connect Japan to the UK – via the Arctic, New Scientist, 2856.Google Scholar
Milne, J. (1897). Sub-Oceanic Changes: Section III, The Geographical Journal, Vol. 10(3).Google Scholar
OSPAR (2008). OSPAR Commission, Background Document on potential problems associated with power cables other than those for oil and gas activities. London.
PUB (Singapore Public Utilities Board) (2014). The Singapore Water Story Water: From Vulnerability to Strength. http://www.pub.gov.sg/water/Pages/singaporewaterstory. aspx (accessed 25 October 2014).
Rauscher, K.F. (2010). ROGUCCI-Reliability of Global Undersea Cable Communications Infrastructure – Report. IEEE Communications Society, New York, USA.
Tasker, M.L., Amundin, M., Andre, M., Hawkins, A., Lang, W., Merck, T., Scholik-Schlomer, A., Teilmann, J., Thomsen, F., Werner, S. and Zakharia, M. (2010). Marine Strategy Framework Directive Task Group 11 Report, Underwater noise and other forms of energy, Luxembourg.
Telegeography (2013). Is dormant Polarnet project back on the agenda? Telegeography, (https://www.telegeography.com/products/commsupdate/articles/ 2013/01/28/is-dormant-polarnet-project-back-on-the-agenda/ accessed 10 October 2014).
Telegeography (2014). Submarine Cable Map 2014. Telegeography (http://submarine- cable-map-2014.telegeography.com/ accessed 30 September 2014).
Terabit (2014). Terabit Ltd/Submarine Telecoms Forum Inc, Submarine Cables Industry Report, Issue 3. (http://www.terabitconsulting.com/downloads/2014-submarinecable- market-industry-report.pdf accessed 20 August 2014).
UNESCO (1991). United Nations Education Scientific and Cultural Organization, Hydrology and Water Resources of Small Islands, A Practical Guide. Studies and Reports on Hydrology No. 49, UNESCO, Paris.
WHO (2005). World Health Organization, Electromagnetic Fields and Public Health – Effects of EMF on the Environment, (http://www.who.int/peh-emf/publications/ facts/envimpactemf_infosheet.pdf accessed on 21 November 2014). Geneva.

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