Abstract
Sea level rise, increased erosion and flooding threaten vulnerable coastal communities globally. Monitoring the changes in the coastal zone enables the risk levels to be detected and quantified. Such information facilitates developing sustainable policies to effectively manage hazards in the coastal zone. This study used available geospatial data to assess the physical state of the Accra coast and established ground control points that will facilitate effective monitoring of change. The data used included a bathymetric map (hard copy) with last revision in 1992, digital topographic map (2002) of the coast, 2005 orthophoto map and the geology map of Accra. The reliability of the data was determined, and the data were analysed using GIS tool. Ten concrete ground control points were established, mapped using DGPS and connected to the Ghana national coordinate system to form a network for effective monitoring in the coastal zone. The results revealed that the western region of the Accra coast has lower elevations onshore which will facilitate inundation from sea level rise. Comparing nearshore bathymetric profiles indicates that the eastern coast is deeper relative to the central and western. This will enable waves to break closer to the coast under increasing sea level rise thereby dissipating energy to facilitate sediment transport. Computed potential sediment transport rate revealed that the rate ranges between 4.1 × 105 and 7.2 × 105 m3/year. Using the control points established as reference points to monitor the coastal system will enable changes that can result in hazard to be detected and quantified.
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References
Almar R, Norbert H, Anthony E, Bruno C, Nadia S, Raoul L, Trinity M-S, Georges D, Mayol Q, Matthieu D, Remy C, Jean-Pierre L, Yves P, Wahab SL, Gilles Z, Zacharie S, Appeaning Addo K, Raimundo I, Elodie K (2014). The Grand Popo beach 2013 experiment, Benin, West Africa: from short timescale processes to their integrated impact over long-term coastal evolution. In: Proceedings 13th international coastal symposium, pp 0749–0208)
Amlalo DS (2005) The protection, management and development of the marine and coastal environment of Ghana. http://www.fig.net/pub/figpub/pub36/chapters/chapter_10.pdf#search=%22causes%20of%20shoreline%20erosion%20in%20ghana%22. Accessed on 28 Sept 2013
Amoani KY, Appeaning Addo K, Laryea WS (2012) Short-term shoreline evolution trend assessment: a case study in Glefe, Ghana. Jàmbá J Disaster Risk Stud 4(1):7. doi:10.4102/jamba.v4i1.45 Art. #45
Appeaning Addo K (2014) Managing shoreline change under increasing sea level rise in Ghana. Coast Manag 42(6):555–567. doi:10.1080/08920753.2014.964820
Appeaning Addo K, Adeyemi M (2013) Assessing the impact of sea-level rise on a vulnerable coastal community in Accra, Ghana. Jàmbá J Disaster Risk Stud 5(1):8. doi:10.4102/jamba.v5i1.60 Art. #60
Appeaning Addo K, Walkden M, Mills JP (2008) Detection, measurement and prediction of shoreline recession in Accra, Ghana. ISPRS J Photogramm Remote Sens 63(5):543–558
Armah AK, Wiafe G, Kpelle DG (2005) Sea-level rise and coastal biodiversity in West Africa: a case study from Ghana. In: Low PS (ed) Climate change and Africa. University Press, Cambridge, pp 204–217
Baptista P, Coelho C, Pereira C, Bernardes C, Veloso-Gomes F (2014) Beach morphology and shoreline evolution: monitoring and modelling medium-term responses (Portuguese NW coast study site). Coast Eng 84:23–37
Bird ECF (2005) Coastline changes. In: Schwartz ML (ed) Encyclopedia of coastal science, Encyclopedia of Earth Sciences Series. Springer, The Netherlands, pp 319–323
Boak EH, Turner I (2005) Shoreline definition and detection: a review. J Coast Res 21(4):688–703
Bruun P (1962) Sea level rise as a cause of shore erosion. J Waterw Harb Div ASCE 88(1):117–130
Cazenave A, Llovel W (2010) Contemporary sea level rise. Annu Rev Mar Sci 2010(2):145–173
Church JA, Clark PU, Cazenave A, Gregory JM, Jevrejeva S, Levermann A, Merrifield MA., Milne GA, Nerem RS, Nunn PD, Payne AJ, Pfeffer WT, Stammer D, Unnikrishnan AS (2013) Sea level change supplementary material. In: Stocker TF, Qin D, Plattner GK, Tignor M, Allen SK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PM (eds) Climate change 2013: the physical science basis. Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change
Churcher C (2006) Linking national and regional efforts in ocean and coastal management: African perspectives. http://www.globaloceans.org/globalconferences/2006/pdf/AlbertOwusu-Sarpong.pdf Accessed on 18 Feb 2014
Dasgupta S, Laplante B, Meisner C, Wheeler D, Jianping YD (2007) The impact of sea level rise on developing countries: a comparative analysis. World Bank policy research working paper 4136
deGraft-Johnson KAA, Blay J, Nunoo FKE, Amankwah CC (2010). Biodiversity threats assessment of the western region of Ghana. The integrated coastal and fisheries governance (ICFG) initiative Ghana
Dornbusch U (2010) Ground survey methods for mixed sand and gravel beaches in intertidal environments: a comparison. J Coast Res 26(3):451–464
Duedall IW, Maul GA (2005) Demography of coastal populations. In: Schwartz ML (ed) Encyclopedia of coastal science., Encyclopedia of Earth Sciences SeriesSpringer, The Netherlands, pp 368–374
EPA (2003) Information for Africa climate technology transfer (IACTT). http://www.epa.gov.gh/iACTT/Ghana_VA%20Coastal%20Zone%20.pdf Accessed on 12 Mar 2014
Fish MR, Cote IM, Gill JA, Jones AP, Renshoff S, Watkinson AR (2005) Predicting the impact of sea-level rise on Caribbean Sea turtle nesting habitat. Conserv Biol 19(2):482–491
Givens JM (1999) Positional accuracy handbook: using the national standard for spatial data accuracy to measure and report geographic data quality. http://server.admin.state.mn.us/pdf/1999/lmic/nssda_o.pdf. Accessed on 17 Apr 2007
Graham D, Sault M, Bailey JC (2003) National Ocean service shoreline—past, present, and future. J Coast Res SI38:14–32
Hapke CJ, Plant N (2010) Predicting coastal cliff erosion using a Bayesian probabilistic model. Mar Geol 278:140–149
Harley MD, Turner IL, Short AD, Ranasinghe R (2011) Assessment and integration of conventional, RTK-GPS and image-derived beach survey methods for daily to decadal coastal monitoring. Coast Eng 58(2):194–205
Irvine ML (2012) Coastal monitoring in Newfoundland and Labrador. Geological survey report 12-1, pp 191–197
Jana A, Biswas A, Maiti S, Bhattacharya AK (2014) Shoreline changes in response to sea level rise along Digha Coast, Eastern India: an analytical approach of remote sensing, GIS and statistical techniques. J Coast Conserv 18(3):145–155
Kolednik D (2014) Coastal monitoring for change detection using multi-temporal LIDAR data. In: Proceedings of CESCG 2014: the 18th central European seminar on computer graphics
Leatherman SP, Whitman D, Zhang K (2005) Airborne laser terrain mapping and light detection and ranging. In: Schwartz ML (ed) Encyclopedia of coastal science., Encyclopedia of Earth Sciences SeriesSpringer, The Netherlands, pp 21–23
Mello CAB, Dos Santos TJ, Medeiros HR, Pereira PS (2013) Shoreline segmentation as a proxy to coastal erosion detection. In: Proceedings of the 2013 IEEE international conference on systems, man, and cybernetics, SMC 2013. Manchester, United Kingdom, 13–16 Oct 2013, Category number E5154, Code 102429. Article number 6721964, pp 1217–1222
MESSINA (2006) Practical guide: monitoring and modelling the shoreline. Isle of Wight Council, Province of Ragusa
Meyssignac B, Cazenave A (2012) Sea level: a review of present-day and recent-past changes and variability. J Geodyn 58(2012):96–109
Moore LJ (2000) Shoreline mapping techniques. J Coast Res 16(1):111–124
Muff R, Efa E (2006). Ghana–Germany technical cooperation project: environmental and engineering geology for urban planning in the Accra–Tema Area. Explanatory notes for the geological map for urban planning 1:50,000 of greater Accra metropolitan area. Accra, Ghana
Nicholls RJ, Cazenave A (2010) Sea-level rise and its impact on coastal zones. Science 328(5985):1517–1520
Nicholls RJ, Hanson S, Herweijer C, Patmore N, Hallegatte S, Corfee-Morlot J, Chateau J, Muir-Wood R (2008) Ranking port cities with high exposure and vulnerability to climate extremes: exposure estimates. OECD environment working papers no. 1. OECD Publishing, Paris
Osei-Wusuansa H (2000) Implications of accelerated sea-level rise (ASLR) and climate change for Ghana. In: Proceedings of SURVAS expert workshop on: African vulnerability and adaptation to impacts of accelerated sea-level rise (ASLR), Cairo, Egypt, pp 24–27
Pethick J (2001) Coastal management and sea-level rise. Catena 42:307–322
Pickering MD, Wells NC, Horsburgh KJ, Green JAM (2011) The impact of future sea level rise on the European Shelf tides. Cont Shelf Res 35(2012):1–15
Ruggiero R, Kaminsky GM, Gelfenbaum G (2003) Linking proxy-based and datum based shorelines on high-energy coastline: implications for shoreline change analysis. J Coast Res SI38:57–82
Sagoe-Addy K, Appeaning Addo K (2013) Effect of predicted sea level rise on tourism facilities along Ghana’s Accra coast. J Coast Conserv Manag 17(1):155–166. doi:10.1007/s11852-012-0227-y
Thieler ER, O’Connell JF, Schupp CA (2001) The Massachusetts shoreline change project: 1800 to 1994. Technical report. US Geological Survey Administrative Report
USACE (1984) Shore protection manual: U.S. Army Corps of Engineers, 4th edn. Coastal Engineering Research Centre, Washington, DC
Walkden MJA, Hall JW (2005) A predictive mesoscale model of the erosion and profile development of soft rock shores. Coast Eng 52(6):535–563
Wellens-Mensah J, Armah AK, Amlalo DS, Tetteh K (2002) Ghana national report phase 1: integrated problem analysis. GEF MSP sub-saharan Africa project (GF/6010-0016): development and protection of the coastal and marine environment in sub-saharan Africa. Accra, Ghana
Wiafe G, Boateng I, Appeaning Addo K, Quashigah PN, Ababio SD, Laryea S (2013) Handbook of coastal processes and management in Ghana. The Choir Press, Gloucester
Woodroffe CD (2003) Coasts: form, process and evolution. University Press, Cambridge
Zhang Y (2011) Coastal environmental monitoring using remotely sensed data and GIS techniques in the Modern Yellow River delta, China. Environ Monit Assess 179:15–29. doi:10.1007/s10661-010-1716-9
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Appeaning Addo, K. Monitoring sea level rise-induced hazards along the coast of Accra in Ghana. Nat Hazards 78, 1293–1307 (2015). https://doi.org/10.1007/s11069-015-1771-1
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DOI: https://doi.org/10.1007/s11069-015-1771-1