Abstract
Jamaica has a long history of damage to the built environment in coastal areas due to storm surge and tsunami. However, there is limited scientific data to aid the establishment of minimal setback distances and to inform mitigation strategies. Developers of coastal area require cost-effective methods to guide their decisions and to develop mitigation strategies to reduce the potential risk posed to development. This paper explores the use of wave-emplaced boulders to determine the wave heights from historical storm surge/tsunami on the North Coast of Jamaica. As most of the study area was undeveloped priory to 1960, there are limited historical written records of storm surges and/or tsunami impact for this specific site. This research undertook geomorphic mapping of the proposed study area to determine the presence, location, spatial distribution, size, density and volume of wave-emplaced boulders along a 2-km stretch of coastline earmarked for development. Based on the wave-emplaced boulders mapped, it was possible to determine the approximate wave heights associated with storms and/or tsunami required to deposit them. The implications for development are discussed. The study of wave-emplaced boulders has provided a rapid and cost-effective method to determine minimal setback distance and the approximate height of waves associated with storms and/or tsunami. The technique developed may be transferable to other areas of coastline earmarked for development along the Jamaican coastline.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bridge JS (2008) Discussion of articles in “sedimentary features of tsunami deposits”. Sediment Geol 211:94
Cornish V (1908) The Jamaica earthquake (1907). Geogr J 31(3):245–271
Digerfeldt G, Hendry MD (1987) An 8000 year Holocene sea-level record from Jamaica: implications or interpretation of Caribbean reef and coastal history. Coral Reefs 5:165–169
ECLAC, UNDP and PIOJ (2004) Assessment of the socioeconomic and environmental impact of hurricane Ivan on Jamaica. Report LC/MEX/L.636 LC/CAR/L.22. Available from: http://www.eclac.org/publicaciones/xml/1/20501/L636-completo.pdf
Etienne S, Paris R (2010) Boulder accumulations related to storms on the south coast of the Reykjanes Peninsula (Iceland). Geomorphology 114:55–70
Felton EA (2002) Sedimentology of rocky shorelines: 1. A review of the problem, with analytical methods, and insights gained from the Hulopoe Gravel and the modern rocky shoreline of Lanai, Hawaii. Sediment Geol 152:221–245
Folkes RL (1962) Spectral subdivision of limestone types. In: Ham WE (ed) Classification of carbonate rocks-a symposium: American Association of Petroleum Geologists. Memoir 1:62–84
Fookes PG, Lee EM, Griffiths JS (2007) Engineering geomorphology: theory and practice. CRC press LLC, Whittles Publishing, Caithness, p 281
Gleaner (2005) Ignore proper land use to our peril. The Jamaica Gleaner (Feb. 11. 2007). The Gleaner Company Limited, 7 North Street Kingston, Jamaica, West Indies
Goto K, Miyagi K, Kawamata H, Imamura F (2010) Discrimination of boulders deposited by tsunamis and storm waves at Ishigaki Island, Japan. Mar Geol 269:34–45
Khan S, Robinson E, Rowe D-A, Coutou R (2010) Size and mass of shoreline boulders moved and emplaced by recent hurricanes, Jamaica. Zeitschrift für Geomorphologie 54:281–299
Kjerfve B, Magill KE, Porter JW, Woodley JD (1986) Hindcasting of hurricane characteristics and observed storm damage on fringing reef, Jamaica, West Indies. J Mar Res 44:119–148
Lander JF, Whiteside LS, Patricia A, Lockridge PA (2002) A brief history of tsunamis in the Caribbean Sea. Sci Tsunami Hazards 20:57–94
Manning G (2007) Blame game over cause of Kennedy Grove floodings. The Jamaica Gleaner (Feb. 11. 2007). The Gleaner Company Limited, 7 North Street Kingston, Jamaica, West Indies
McCann WR (2005) Large earthquakes, tectonic/geomorphic features and tsunami hazard: possible methods for estimating the potential of tsunamigenic earthquakes and earthquake induced—landslide tsunamis in the Caribbean. http://nsfctw.uprm.edu/abstracts/McCann-Abstract.pdf. Accessed 10 Jan 2005
Mitchell S (2002) Field guide to the geological evolution of the Maastrichtian rocks of the Central Inlier, Jamaica. Caribb J Earth Sci 36:27–38. Geological Society of Jamaica
Morton RA, Richmond BM, Jaffe BE, Gelfenbaum G (2008) Coarse-clast ridge complexes of the Caribbean: a preliminary basis for distinguishing tsunami and storm-wave origins. J Sediment Res 78(9–10):624–637
Nott J (2003) Waves, coastal boulder deposits and the importance of the pre-transport setting. Earth Planet Sci Lett 210:269–276
Organization of American States (OAS) (1999) Storm surge mapping for Montego Bay, Jamaica. Organization of American States General Secretariat Unit for sustainable development and environment USAID-OAS Caribbean disaster mitigation project
Organization of American States (OAS) (2001) Storm surge mapping for Montego Bay, Jamaica. Caribbean disaster mitigation project implemented by the Organization of American States Unit of sustainable development and environment for the USAID Office of foreign disaster assistance and the Caribbean Regional Program
Peters R, Jaffe B (2010) Identification of tsunami deposits in the geologic record: developing criteria using recent tsunami deposits. US Geological Survey Open-File Report 2010–1239, p. 39. Retrieved 22 April 2011 from: http://pubs.usgs.gov/of/2010/1239/of2010-1239.pdf
Planning Institute of Jamaica (PIOJ) (2004) Jamaiaca macro-socio-economic and environmental assessment of the damage done by Hurricane Ivan, Sept 10–12, 2004. Planning Institute of Jamaica, Economic Commission for Latin America and the Caribbean, United Nations Development Programme
Planning Institute of Jamaica (PIOJ) (2012) Development trends in Jamaica’s coastal areas and the implications for climate change. Available from: http://www.pioj.gov.jm/Portals/0/Sustainable_Development/Climate%20Change%20and%20Jamaica.pdf. Accessed 4 July 2013
Robinson E, Khan SA (2011) Physical impacts by some recent Hurricanes on the Coast of Jamaica. Contributions to Geology UWI Mona, 5, p 164, CD
Robinson E, Rowe D-AC, Khan SA (2006) Wave-emplaced boulders on Jamaica ‘s rocky shores. Zeitschrift für Geomophologie Suppl 146:39–57
Robinson E, Khan SA, Rowe DAC, Coutou R, Johnson M (2008) Emplacement and evolution of debris deposits on coastal platforms, Jamaica. In: Kunkel C, Hahn S, ten Veen J, Rameil N, Immenhauser A (eds) 26th Regional Meeting of the International Association of Sedimentologists (IAS) held jointly with the SEPM-CES Sediment 2008 Meeting Abstract Volume. 1–3 September, Bochum, Germany. p 308
Rowe D-A, Khan S, Robinson E (2009) Hurricanes or tsunami? Comparative analysis of extensive boulder arrays along the southwest and north coasts of Jamaica: lessons for coastal management. In: McGregor D, Dodman D, Barker D (eds) Global change and Caribbean vulnerability. University of the West Indies Press, Kingston, pp 49–73
Scheffers A, Kelletat D (2003) Sedimentologic and geomorphologic tsunami imprints worldwide: a review. Earth Sci Rev 63(1–2):83–92
Survey Department of Jamaica (SDJ) (2004) 1:50,000 topographic sheet 4: St Ann. Survey department of Jamaica, Charles street
Tomlinson R (2011) Kingston’s Mayor slams past Housing ministers: blames them for allowing construction in disaster areas. Sunday observer (Sunday, July 03, 2011). Available from: http://www.jamaicaobserver.com/news/Kingston-s-Mayor-slams-past-Housing-ministers_9120395#ixzz1n84ygqiS
Town and Planning Department (TPD) (1957) The Town and Country Planning Act 1957. Government of Jamaica
USGS (2005) Summary of the Sumatra-Andaman Islands Earthquake and Tsunami of 26 December 2004. Retrieved on 6 Jan 2006 from: http://neic.usgs.gov/neis/eq_depot/2004/eq_041226/neic_slav_summary.html#sources
Weissert TP (1990) Tsunami travel time charts for the Caribbean. Sci Tsunami Hazards 8:67–78
Zahibo N, Pelinovsky E, Yalciner AC, Kurkin A, Koselkov A, Zaitsev A (2003) The 1867 Virgin Island tsunami. Nat Hazards Earth Syst Sci 3:367–376
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Miller, S., Rowe, DA., Brown, L. et al. Wave-emplaced boulders: implications for development of "prime real estate" seafront, North Coast Jamaica. Bull Eng Geol Environ 73, 109–122 (2014). https://doi.org/10.1007/s10064-013-0517-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10064-013-0517-0