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Examples of Class Divisions and Country Synopsis for Coastal Scenic Evaluations

  • Giorgio AnfusoEmail author
  • Allan T. Williams
  • Nelson Rangel-Buitrago
Chapter
Part of the Coastal Research Library book series (COASTALRL, volume 26)

Abstract

In the last decade, the book authors classified by means of a Coastal Scenic Evaluation System (CSES) technique using a checklist of 18 physical and 8 anthropogenic parameters, 952 coastal sites located around the world. Each parameter was rated from 1 (absence/poor quality) to 5 (outstanding quality) and a “D” value obtained which allowed site categorization into five classes: Class I (extremely attractive natural sites) to Class V (very unattractive urban sites). Almost 50% of investigated sites belonged to Class III (n = 197) and IV (n = 248). Class V sites (n = 209) were also well represented, followed by Class I (n = 155) and II sites (n = 143). Examples of each class from different locations are presented to give the reader a solid idea of the characteristic and essence of each class. Classes I and II generally correspond to natural sites in (or close to) protected areas with low or little human impacts giving high scenic values. Classes III and IV usually correspond with sites of intermediate to low scenic value because of poor scores of both physical and anthropogenic parameters. Class V sites are usually greatly affected by human impact and at many places, are linked to emplacement of chaotic defence structures built to halt/slow down coastal erosion processes. At places, scenic evaluation covered large areas, e.g. the Caribbean coast of Colombia, the Mediterranean coast of Morocco, the Andalusia region of Spain, Mediterranean Turkey and the whole coast of a country, e.g. Bonaire, Cuba and Wales. These are presented as case studies: the main physical characteristics, management issues and class distributions are described, allowing a complete overview on these areas.

References

  1. Anfuso G, Martinez del Pozo JA, Nachite D (2010) Coastal vulnerability in the Mediterranean sector between Fnideq and M’diq (North of Morocco). Comptes rendus de l’Academie Bulgare des. Sciences 63(4):561–570Google Scholar
  2. Anfuso G, Williams AT, Cabrera Hernández JA, Pranzini E (2014) Coastal scenic assessment and tourism management in western Cuba. Tour Manag 42:307–320CrossRefGoogle Scholar
  3. Anfuso G, Williams AT, Casas Martínez G, Botero CM, Cabrera Hernández JA, Pranzini E (2017) Evaluation of the scenic value of 100 beaches in Cuba: implications for coastal tourism management. Ocean Coast Manag 142:173–185CrossRefGoogle Scholar
  4. Avella F, Burgos B, Osorio A, Parra E, Vilardy S, Botero C, Ramos A, Mendoza J, Sierra P, López A, Alonso D, Reyna J, Mojica D (2009) Gestión del litoral en Colombia. Reto de un país de tres costas. In: Manejo Costero Integrado y Política Pública en Iberoamérica: Un Diagnóstico. Necesidad de cambio. In: Arenas P, Chica A (eds) Red Iberoamericana en Manejo Costero Integrado. CYTED, Cadiz, pp 175–209Google Scholar
  5. Boumeaza T, Sbai A, Salmon M, Ozer A (2010) Impacts écologiques des aménagements touristiques sur le littoral de Saïdia, Maroc oriental, Méditerranée. Rivages méditerranéens 115:93–102Google Scholar
  6. Cerviñno J, Cubillo JM (2005) Hotel and tourism development in Cuba: opportunities, management challenges and future trends. Cornell Hotel Restaurant Adm Q 46(2):223–246CrossRefGoogle Scholar
  7. Cristiano S, Rockett G, Portz L, Anfuso G, Gruber N, Williams AT (2016) Evaluation of coastal scenery in urban beaches: Torres, Rio Grande do Sul, Brazil. JICZM 16(1):71–78Google Scholar
  8. Ergin A (2009) Case study; a holistic approach to beach management at Çıralı, Turkey: a model of conservation, integrated management and sustainable development. In: Williams AT, Micallef A (eds) Beach management: principles and practice. Earthscan, London, pp 355–358Google Scholar
  9. Ergin A, Karaesmen E, Williams AT, Micallef A (2004) A new methodology for evaluating coastal scenery: fuzzy logic systems. Area 36:367–386CrossRefGoogle Scholar
  10. Ergin A, Williams AT, Micallef A (2006) Coastal scenery: appreciation and evaluation. J Coast Res 22(2):958–964CrossRefGoogle Scholar
  11. Iglesias B, Anfuso A, Utega A, Arenas P, Williams AT (2017) Scenic value of the Basque Country and Catalonia coasts (Spain): impacts of tourist occupation. J Coast Conserv.  https://doi.org/10.1007/s11852-017-0570-0
  12. Langley RA (2006) Coastal scenic assessment of the North Canterbury coast, New Zealand. Unpub. MA thesis. Univ. of Canterbury, Christchurch, New Zealand, 65 ppGoogle Scholar
  13. Manno G, Anfuso G, Messina E, Williams AT, Suffo M, Liguori V (2016) Decadal evolution of coastline armouring along the Mediterranean Andalusia littoral (South of Spain). Ocean Coast Manag 124:84–99CrossRefGoogle Scholar
  14. Nachite D (2009) Diagnostic environnemental – PAC Rif central du Maroc, activité GIZC, PAP/CAR, January 2009, 74pp. https://www.academia.edu/6233802/PAC-Morocco-diagnostic_environnemental
  15. Oliveira T, Scherer M, Anfuso G, Almeida F, Diederichsen S, Williams AT (2016) Classification of Coastal Beach scenarios in Santa Catarina Island, Florianópolis – Brazil. Desenvolvimento e Meio Ambiente 39:217–229CrossRefGoogle Scholar
  16. Phillips MR, Edwards A, Williams AT (2010) An incremental scenic assessment of the Glamorgan Heritage Coast, UK. Geogr J 176(4):291–303CrossRefGoogle Scholar
  17. Pranzini E, Anfuso G, Botero C, Cabrera A, Apin Campos Y, Casas Martinez G, Williams AT (2016) Sand colour at Cuba and its influence on beach nourishment and management. Ocean Coast Manag 126:51–60CrossRefGoogle Scholar
  18. Rangel-Buitrago N, Anfuso G, Correa I, Ergin A, Williams AT (2013) Assessing and managing scenery of the Caribbean Coast of Colombia. Tour Manag 35:41–58CrossRefGoogle Scholar
  19. Rangel-Buitrago N, Anfuso G, Williams AT (2015) Coastal erosion along the Caribbean coast of Colombia: magnitudes, causes and management. Ocean Coast Manag 114:129–144CrossRefGoogle Scholar
  20. Rangel-Buitrago N, Williams AT, Anfuso G, Arias M, Gracia CA (2017) Magnitudes, sources, and management of beach litter along the Atlantico department coastline, Caribbean coast of Colombia. Ocean Coast Manag 138:142–157CrossRefGoogle Scholar
  21. Rangel-Buitrago N, Williams AT, Anfuso G (2018) Hard protection structures as a principal coastal erosion management strategy along the Caribbean coast of Colombia. A chronicle of pitfalls. Ocean Coast Manag 156:58–75.  https://doi.org/10.1016/j.ocecoaman.2017.04.006 CrossRefGoogle Scholar
  22. Ullah Z, Johnson D, Micallef A, Williams AT (2010) From the Mediterranean to Pakistan and back – coastal scenic assessment for tourism development in Pakistan. J Coast Conserv Manag 14(4):285–293CrossRefGoogle Scholar
  23. UNEP/GPA (2003) Diagnosis of the Erosion Processes in the Caribbean Sandy BeachesGoogle Scholar
  24. Williams AT (1987) Coastal conservation policy development in England and Wales with special reference to the heritage coast concept. J Coast Res 31(1):99–106Google Scholar
  25. Williams AT (1992) The quiet conservators: heritage coasts of England and Wales. Ocean Coast Manag 17(2):151–168CrossRefGoogle Scholar
  26. Williams AT, Khattabi A (2015) Beach scenery, Nador, Morocco. J Coast Conserv Manag 19(5):743–755CrossRefGoogle Scholar
  27. Williams AT, Micallef A (eds) (2009) Beach management: principles and practices. Earthscan, London 480 ppGoogle Scholar
  28. Williams AT, Micallef A, Anfuso G, Gallego-Fernandez JB (2012) Andalucia, Spain: an assessment of coastal scenery. J Landsc Res 37(3):327–350CrossRefGoogle Scholar
  29. Williams AT, Rangel-Buitrago N, Anfuso G, Cervantes O, Botero C (2016) Litter impacts on scenery and tourism on the Colombian North Caribbean coast. Tour Manag 55:209–224CrossRefGoogle Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2019

Authors and Affiliations

  • Giorgio Anfuso
    • 1
    Email author
  • Allan T. Williams
    • 2
    • 3
  • Nelson Rangel-Buitrago
    • 4
  1. 1.Departamento de Ciencias de la Tierra, Facultad de Ciencias del Mar y AmbientalesUniversidad de CádizCádizSpain
  2. 2.Faculty of Architecture, Computing and EngineeringUniversity of Wales, Trinity Saint DavidSwanseaUK
  3. 3.CICA NOVANova Universidad de LisboaLisbonPortugal
  4. 4.Departamentos de Física y Biologia, Facultad de Ciencias BásicasUniversidad del AtlánticoBarranquillaColombia

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