The Effects of Cave Exploration Activity Towards Kilim Geoforest Park, Langkawi, Malaysia
DOI:
https://doi.org/10.11113/sh.v13n1.1717Keywords:
Bat Cave, Cave Exploration, TourismAbstract
There are many natural geological heritage sites located in Kilim, as the total area of the geoforest consists of karst rock that was formed 500 million years ago. Bat Cave is among the favourite spot for tourists to appreciate and explore geological heritage sites. The Bat Cave is a-200 million years’ minerals formation site and a habitat for thousands of bats in the geoforest area. However, excessive tourism activities have affected various natural resources and wildlife habitat of Kilim Karst Geoforest Park, Langkawi. The Bat Cave is one of the geological sites that is most probably affected by tourism activities. The aim of this paper is to identify local residents and tourists’ opinion in the effects of cave exploration and tourism activities to the habitat of bats and geo-physical characters of the Bat Cave, Kilim Karst Geoforest Park, Langkawi. The methodology employed in this study is based on questionnaire survey with 93% response rate (n=299). Questionnaires were distributed to tourists (65), local residents in Kilim (145) and staff (89) who are in charged in the tourism operation of Kilim Karst Geoforest Park. Findings of this study suggest that tourism activities such as cave exploration and sight-seeing activities caused deterioration towards the physical characteristics of natural resources and habitat of bats in the Bat Cave, Kilim Karst Geoforest Park, Langkawi. This is due to tourists not adhering to a proper procedure (e.g. frequent use of torch light) while exploring the cave. Respondents agree that there is a decline in the numbers of bat population in the cave. The management agency of Kilim Karst Geoforest Park needs to take steps in controlling or reducing the number of tourist arrivals by using tourism carrying capacity approach in order to promote stability. Exceeded population could cause destructions towards the resources. Degradation of natural resources indirectly would distract the natural symbiosis of the ecosystem.
References
Attallah, N. F. (2015). The estimation of physical and real carrying capacity with application on Egypt’s tourist sites. Journal of Tourism Research, 12(1), 67-85.
Biswas, J. (2010). Kotumsar Cave biodiversity: a review of cavernicoles and their troglobiotic traits. Biodiversity and conservation, 19(1), 275.
Biswas, J., 2009. The biodiversity of Krem Mawkhyrdop of Meghalaya, India, on the verge of extinction. Current Science, 96: 904-910.
Biswas, J., Shrotriya, S., Rajput, Y., & Sasmal, S. (2011). Impacts of ecotourism on bat habitats in caves of Kanger Valley National Park, India. Research Journal of Environmental Sciences, 5, 752-762.
Bowler, D. E., Buyung-Ali, L. M., Knight, T. M., & Pullin, A. S. (2010). A systematic review of evidence for the added benefits to health of exposure to natural environments. BMC Public Health, 10(1), 456.
Byers, A. (2005). Contemporary human impacts on Alpine ecosystems in the Sagarmatha (Mt. Everest) national park, Khumbu, Nepal. Annals of the association of American Geographers, 95(1), 112-140.
Hazebroek HP, Abang Kashim AM. (2006). A guide to Gunung Mulu National Park: A world heritage site in Sarawak, Malaysian Borneo. Kota Kinabalu, Sabah, Malaysia: Natural History Publications Sdn. Bhd.
Kostopoulou, S., & Kyritsis, I. (2006). A tourism carrying capacity indicator for protected areas. Anatolia, 17(1), 5-24.
Kunz, T. H., & Fenton, M. B. (Eds.). (2005). Bat ecology. University of Chicago Press.
Kurhade, S. Y. (2013). Methodological Framework for Evaluation of Tourism Carrying Capacity of Eco Sensitive Region. International Journal of Innovative Research in Science, Engineering and Technology, 2(3), 781-786.
Lagmoj, M. A., Shokry, A. K., Hashemi, S. A., & Zadegan, H. K. (2013). Defining the ecotourism carrying capacity of langeroud city (case study: Khorma Forest). Greener Journal of Social Sciences, 3(9), 447-457.
Lim, J. Lifestyle. Retrieved from https://says.com/my/lifestyle/caves-in-malaysia. 19 September 2020.
Marzuki, A., Rofe, M., & Mohd Hashim, N. A. (2014). Disputes on nature-based tourism development in Northern Peninsular Malaysia. Tourism Analysis, 19(4), 525-530.
Mohamad, D., Jaafar, M., & Marzuki, A. (2014). Langkawi Island, social aspect and the carrying capacity. In SHS Web of Conferences ,12, 01023. EDP Sciences.
Musadad, M., & Nurlena, N. (2017). Perceived Tourism Impacts in Pindul Cave, Yogyakarta, Indonesia. Journal of Business on Hospitality and Tourism, 2(1), 1-9.
O'Donnell, C. F. (2001). Home range and use of space by Chalinolobus tuberculatus, a temperate rainforest bat from New Zealand. Journal of Zoology, 253(2), 253-264.
Polit, D.F. and Hungler, B.P. (2013). Essentials of Nursing Research: Methods, Appraisal, and Utilization (8th Edition ed.). Philadelphia: Wolters Kluwer/Lippincott Williams and Wilkins
Pulido-Bosch, A., Martin-Rosales, W., López-Chicano, M., Rodriguez-Navarro, C. M., & Vallejos, A. (1997). Human impact in a tourist karstic cave (Aracena, Spain). Environmental Geology, 31(3-4), 142-149.
Rajan, B., Varghese, V. M., & Pradeepkumar, A. P. (2013). Beach carrying capacity analysis for sustainable tourism development in the South West Coast of India. Environmental Research, Engineering and Management, 63(1), 67-73.
Scroxton, N., Gagan, M. K., Dunbar, G. B., Ayliffe, L. K., Hantoro, W. S., Shen, C. C., & Sun, H. (2016). Natural attrition and growth frequency variations of stalagmites in southwest Sulawesi over the past 530,000 years. Palaeogeography, Palaeoclimatology, Palaeoecology, 441, 823-833.
Seaton, A. V., & Alford, P. (2005). The effects of globalisation on tourism promotion. In Tourism in the age of globalization, 111-136. Routledge.
Witbreuk, M. (2000). The effectiveness of cooperation: Regional transport systems as common pool resources. Paper presented at the 8th IASCP Conference, Bloomington, Indiana.
