Analyzing Vulnerability of the Belize Coastal Tourism Sector

Determining vulnerability to climate change

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IV. CONCLUSION
References

5. Determining vulnerability to climate change

More than 70% of tourists visit Belize’s cayes and approximately 80% participates in reef based activities such as snorkelling and diving (BTB 2012). However, climate change has the potential to reduce the appeal of the coastal areas owed to heat stress, erosion and declining reef health (Singh et al. 2013). Table 4 - 6 shows the vulnerability and impact ranking for different coastal-marine areas in Belize.

Table 4: Showing weighted decision matrix applied to tourism climate change exposure indicators

Regions	Selected Weight Criteria* (1 = very low, 2 = low , 3 = Medium, 4 = High and 5 = Very High)				Vulnerability Rank
Regions	Sea Surface Temperature	Air Temperature	Hurricane Intensity	Rise in Sea level	Vulnerability Rank
Northern	3	3	1	4	Medium
Ambergris Caye	2	2	2	4	High
Central	3	3	2	4	High
Caye Caulker	2	2	2	4	High
Turneffe Atoll	2	2	2	4	High
Lighthouse Reef Atoll	2	2	2	4	High
South Northern	3	3	2	3	Medium
South Central	3	3	2	4	High
Southern	4	4	1	3	Medium

Table 5: Showing weighted decision matrix applied to tourism climate change sensitive indicators

Regions	Selected Weight Criteria* (1 = very low, low 2 = low, 3=medium, 4 = High, 5 = Very High)					Vulnerability Rank
Regions	Area of Reef cover	Reef Health	Area of Mangroves	Number of Hotels	Tourism Attractions	Vulnerability Rank
Northern	1	2	5	3	1	Medium
Ambergris Caye	2	2	3	5	5	High
Central	2	2	5	3	5	High
Caye Caulker	1	2	1	3	5	High
Turneffe Atoll	4	2	4	1	5	High
Lighthouse Reef Atoll	3	2	1	1	5	High
South Northern	5	2	2	3	5	Medium
South Central	3	3	3	4	5	High
Southern	4	4	4	3	2	Medium

Table 6: Showing overall potential impact to the key tourism vulnerable hotspots

Region	Vulnerability Component exposure	Vulnerability Component sensitivity	Potential Impact
Northern	Medium	Medium	Medium
Ambergris Caye	High	High	High
Central	High	High	High
Caye Caulker	High	High	High
Turneffe Atoll	High	High	High
Lighthouse Reef Atoll	High	High	High
South Northern Region	Medium	Medium	Medium
South Central Region	High	High	High
Southern Region	Medium	Medium	Medium

Figure 17 below shows the relative vulnerability of tourism areas to the potential impact by climate change threat factors. This assessment illustrates that the highest potential impact to the tourism areas will be to the popular destination of Ambergris Caye, Central Region, Caye Caulker, Turneffe Atoll, Lighthouse Reef Atoll and South Central Region. Considering this, there is a great need to prioritize these areas for adaptation interventions. The Northern Region, South Northern Region and Southern Region are likely to experience medium level impact, which is still of concern.

Figure 17: Relative vulnerability of tourism areas

Figure 18 below shows the potentially less vulnerable hotpot areas.

Figure 18: Less vulnerable hotspots

This assessment also illustrates areas that may be prioritized for future research into their potential for climate-compatible tourism development. These include: Northern Region, South Northern Region and Southern Region. These areas have the potential for low impact hotel development with proper guidelines as per established by the draft Integrated Coastal Zone Management Plan (ICZMP) 2013. In addition, more tourism recreation activities can support the tour operators within these areas. However, proper awareness on climate change must be given to these operators to enhance their knowledge about the impact of climate change on the tourism industry they heavily rely on for their livelihood.

IV. CONCLUSION

The potential impact of climate change on Belize’s tourism sector can occur indirectly through the degradation of coastal water quality, loss of beach, coral reef degradation and subsequent decline in fish stocks. This assessment shows that there will be a high potential impact of climate change on the Tourism Industry which could place the industry at risk in the future. It should be noted however that this study just looked at the physical vulnerability of the sector to key climate change variables and did not analyzed the adaptive capacity of the industry. It is therefore recommended that adaptive capacity of the sector be analyzed as part of a future study for Belize’s tourism industry to be able to better understand the full vulnerability of this sector.

References

Aguilar E, Peterson TC, Ramírez Obando P, Frutos R, Retana JA, Solera M, Soley J, González García I, Araujo RM, Rosa Santos A, Valle VE, Brunet M, Aguilar L, Álvarez L, Bautista M, Castañon C, Herrera L, Ruano E, Sinay JJ, Sánchez E, Hernández Oviedo GI, Obed F, Salgado JE, Vázquez JL, Baca M, Gutiérrez M, Centella C, Espinosa J, Martínez D, Olmedo B, Ojeda Espinoza CE, Nuñez R, Haylock M, Benavides H, Mayorga R. 2005. Changes in precipitation and temperature extremes in Central America and northern South America, 1961–2003, J. Geophys. Res.,

Belize Tourism Board 2012. Travel and Tourism Statistics digest, 2012, 103 p.
Bender M.A, Knutson T.R, Tuleya R.E, Sirutis J.J, Vecchi G.A, Garner S.T, Held I.M 2010. Modeled Impact of Anthropogenic Warming on the Frequency of Intense Atlantic Hurricanes. Science AAAS. http://www.sciencemag.org/content/327/5964/454.short
Bindoff, N. L., Willebrand, J., Artale, V., Cazenave, A., Gregory, J., Gulev, S. et al. (2007). Observations: Oceanic Climate Change and Sea Level. In S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K. B. Averyt et al. (Eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.
CARIBSAVE Partnership (2012) Climate Change Risk Profile for Belize Retrieved September 12, 2014 from http://www.caribsave.org/assets/files/CCCRA%20Final%20Documents/FINAL%20Full%20Risk%20Profile%20CCCRA%20-%20Belize.pdf
CATIE/TNC. 2012. Climate Change vulnerability Analysis of the Caribbean Coast of Belize, Guatemala and Honduras. Climate change and watershed Tropical Agricultural Research and Higher Education Centre.

Cherrington E. A., B. E. Hernandez, N. A. Trejos, O. A. Smith, E. R. Anderson, A. I. Flores, and B.C. Garcia. 2010. Identification of threatened and resilient mangroves in the Belize Barrier Reef System. Technical Report. Water Center for the Humid Tropics of Latin America and the Caribbean (CATHALAC) / World Wildlife Fund. Panama City, Panama. 33 pp. Available online: http://maps.cathalac.org/Downloads/data/bz/bz_mangroves_1980-2010_highres.pdf.

Christensen, J. H., Hewitson, B., Busuioc, A., Chen, A., Gao, X., Held, I. et al. (2007). Regional Climate Projections. In S. Solomon, D. Qin, M. Manning, Z. Chen, M. Marquis, K. B. Averyt et al. (Eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, UK: Cambridge University Press.
Glynn PW, D'Croz L. 1990. Experimental evidence for high temperature stress as the cause of El Niño coincident coral mortality. Coral Reefs, 8: 181-191.
Holland G and C.L. Bruyere 2014. Recent hurricane response to global climate change. Springer Journal.

Intergovernmental Panel on Climate Change (IPCC) 2007. Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, eds. M.L. Parry, O.F. Canziani, J.P. Palutikof, P.J. van der Linden and C.E. Hanson. Cambridge , UK : Cambridge University Press, 976 pp.

NOAA Coral Reef Watch. 2011. NOAA Coral Reef Watch 5-km Satellite Virtual Station Time Series Data for Caribbean, Jan. 1, 2001-March. 31, 2011. Silver Spring, Maryland, USA: NOAA Coral Reef Watch. Data set accessed 2011-04-1 at http://coralreefwatch.noaa.gov/satellite/vs/index.html
Richardson, R. 2007. Tourism in Belize Vulnerability and Capacity Assessment. Michigan, USA: Michigan State University

Singh B, Obretin C, and Savoie M. 2013. Enhancing Belize’s resilience to adapt to the effects of climate change.

United Nations World Trade Organization (UNWTO), United Nations Environment Programme (UNEP) and World Meteorology Organization (WMO).2008. “Climate change and tourism: responding to global challenges”, (prepared by Scott, D. and others), UNWTO, Madrid, and UNEP, Paris.

1 See Table 1 for a full listing

2 Figure 1a

3 Figure 1b

4 Source: ICZMP 2014

5 WTO-UNEP-WMO 2008

6Glynn and D'Croz 1990

7 NOAA Coral Reef Watch 2011

8 CATIE/TNC 2012

9 http://coastwatch.noaa.gov/)

10 See Table 2 for details

11 IPCC, 2007

12 Bindoff et al.,2007

13 Christensen et al.,2007, p. 909

14 Source: Douglas, 1977

15 Snoussi etal. 2009).

16 IPCC 2007b

17 Bender M.A, Knutson T.R, Tuleya R.E, Sirutis J.J, Vecchi G.A, Garner S.T, Held I.M 2010

18 Holland G and C.L. Bruyere 2014

19 NOAA 2014

20 CATIE/TNC 2012

21 IPCC 2007

22 Data source: CATIE/TNC 2012

23 Data source: CATIE/TNC 2012

24 Source: CATIE/TNC 2012

25 Data source: CATIE/TNC 2012

26 Data source: BTFS, CATHALAC, INEGI, IGN-Guatemala, LIC, UK Ordinance Survey, USGS, 2014

27 Source: CARIBSAVE, 2012

28 Source: CARIBSAVE, 2012

29 Source: CARIBSAVE, 2012

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