Preliminary Study of the Effect of Tourism Activities on Litter Pollution: a Case Study on Padar Island, Komodo National Park, Indonesia

Cordova, Muhammad Reza; Purbonegoro, Triyoni; Puspitasari, Rachma; Subandi, Riyana; Kaisupy, Muhammad Taufik; Wibowo, Singgih Prasetyo Adi; Nurjamin; Suparmo; Sapulete, Serly

doi:10.12911/22998993/140265

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Tytuł artykułu

Preliminary Study of the Effect of Tourism Activities on Litter Pollution: a Case Study on Padar Island, Komodo National Park, Indonesia

Autorzy

Cordova Muhammad Reza , Purbonegoro Triyoni , Puspitasari Rachma , Subandi Riyana , Kaisupy Muhammad Taufik , Wibowo Singgih Prasetyo Adi , Nurjamin , Suparmo , Sapulete Serly

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DOI

10.12911/22998993/140265

Warianty tytułu

Języki publikacji

Abstrakty

Tourism is a significant socioeconomic activity in a coastal country such as Indonesia. However, it degrades the ecosystem quality when the increasing litter pollution is poorly managed in the marine tourism area. The purpose of this research was to assess the impact of tourism on the litter pollution on the Padar Island, Komodo National Park, Indonesia, specifically on the hiking track. According to the performed investigation, plastic litter was discovered dominant on the Padar Island (131 of 146 items). It was found that filter cigarette butts (49 items, 33.56%), candy wrapper (18 items, 12.33%), wet tissue/wet wipes (17 items, 11.64%) and outsole from shoe/sandals (13 items, 8.90%), dominated the litter collected. Smoking activity, food and beverage consumption, and hiking activity are all examples of activities that may result in litter from visitors in this national park area. Tourism impacts the litter pollution in the Padar Island hiking trail. Therefore, more robust awareness strategies and controls are required to reduce the litter pollution and prevent further consequences.

Słowa kluczowe

litter tourism hiking track Padar Island Komodo National Park Indonesia

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2021

Tom

Vol. 22, nr 8

Strony

131--139

Opis fizyczny

Bibliogr. 60 poz., rys., tab.

Twórcy

autor

Cordova Muhammad Reza

muhammad.reza.cordova@lipi.go.id

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

https://orcid.org/0000-0002-4756-9646

autor

Purbonegoro Triyoni

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

https://orcid.org/0000-0001-9059-9173

autor

Puspitasari Rachma

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

https://orcid.org/0000-0003-1995-0340

autor

Subandi Riyana

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

autor

Kaisupy Muhammad Taufik

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

autor

Wibowo Singgih Prasetyo Adi

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

autor

Nurjamin

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

autor

Suparmo

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

autor

Sapulete Serly

Research Center for Oceanography-Indonesian Institute of Sciences, Jl. Pasir Putih 1 No. 1, Jakarta, Indonesia

Bibliografia

1. Araújo, M.C.B. & Costa, M.F. (2019). A critical review of the issue of cigarette butt pollution in coastal environments. Environmental Research, 172, 137–149.
2. Arbulú, I., Lozano, J., Rey-Maquieira, J. (2016). The challenges of municipal solid waste management systems provided by public-private partnerships in mature tourist destinations: The case of Mallorca. Waste Management, 51, 252–258.
3. Barnes, R.L. (2011). “Regulating the disposal of cigarette butts as toxic hazardous waste.” Tobacco Control, 20(Suppl 1), i45 LP-i48.
4. BPS Kabupaten Manggarai Barat. (2020). Kabupaten Manggarai Barat dalam angka, 2019.
5. Cheshire, A.C., Adler, E., Barbière, J., Cohen, Y., Evans, S., Jarayabhand, S., Jeftic, L., Jung, R.T., Kinsey, S., Kusui, E.T., Lavine, I., Manyara, P., Oosterbaan, L., Pereira, M.A., Sheavly, S., Tkalin, A., Varadarajan, S., Wenneker, B., Westphalen, G. (2009). UNEP/IOC Guidelines on Survey and Monitoring of Marine Litter. UNEP Regional Seas Reports and Studies No. 186. Nairobi, Kenya.
6. Čičková, H., Newton, G.L., Lacy, R.C., Kozánek, M. (2015). The use of fly larvae for organic waste treatment. Waste Management, 35, 68–80.
7. Cingolani, A.M., Barberá, I., Renison, D., Barri, F.R. (2016). Can persuasive and demonstrative messages to visitors reduce littering in river beaches? Waste Management, 58, 34–40.
8. Cordova, M.R. (2020). Marine Plastic Debris: Distribution, Abundance, and Impact on Our Seafood. Handbook of Research on Environmental and Human Health Impacts of Plastic Pollution, K.A. Wani, L. Ariana, and S.M. Zuber, eds., IGI Global, Hershey, PA, 94–121.
9. Cordova, M.R., Hadi, T.A., Prayudha, B. (2018). Occurrence and abundance of microplastics in coral reef sediment : a case study in Sekotong , LombokIndonesia. Advances in Environmental Sciences Bioflux, 10(1), 23–29.
10. Cordova, M.R. & Nurhati, I.S. (2019). Major sources and monthly variations in the release of landderived marine debris from the Greater Jakarta area, Indonesia. Scientific Reports, 9(1), 18730.
11. Cordova, M.R., Purbonegoro, T., Puspitasari, R., Subandi, R., Kaisupy, M.T., Wibowo, S.P. A., Nurjamin, N., Suparmo, S., Sapulete, S. (2020a). Transboundary debris in Indonesian frontier and outermost island: A preliminary case study of Nipah Island. OLDI (Oseanologi dan Limnologi di Indonesia), 5(3), 171.
12. Cordova, M.R., Riani, E., Shiomoto, A. (2020b). Microplastics ingestion by blue panchax fish (Aplocheilus sp.) from Ciliwung Estuary, Jakarta, Indonesia. Marine Pollution Bulletin, 161, 111763.
13. Cordova, M.R., Ulumuddin, Y.I., Purbonegoro, T., Shiomoto, A. (2021). Characterization of microplastics in mangrove sediment of Muara Angke Wildlife Reserve, Indonesia. Marine Pollution Bulletin, 163, 112012.
14. Forster, N.A., Tighe, M.K., Wilson, S.C. (2020). Microplastics in soils of wilderness areas: What is the significance of outdoor clothing and footwear? Geoderma, 378.
15. Fotopoulou, K.N., and Karapanagioti, H.K. (2015). “Surface properties of beached plastics.” Environmental Science and Pollution Research, 22(14), 11022–11032.
16. Gall, S.C., and Thompson, R.C. (2015). The impact of debris on marine life. Marine Pollution Bulletin, 92(1–2), 170–179.
17. Garcés-Ordóñez, O., Espinosa Díaz, L.F., Pereira Cardoso, R., Costa Muniz, M. (2020). The impact of tourism on marine litter pollution on Santa Marta beaches, Colombian Caribbean. Marine Pollution Bulletin, 160.
18. GESAMP. (2015). Sources, fate and effects of microplastics in the marine environment: a global assessment”. Reports and Studies GESAMP Joint Group of Experts on the Scientific Aspects of Marine Environmental Protection.
19. GESAMP. (2019). Guidelines for the monitoring and assessment of plastic litter in the ocean (Kershaw P.J., Turra A. and Galgani F. editors). GESAMP.
20. Ghosh, T. (2011). Coastal Tourism: Opportunity and Sustainability. Journal of Sustainable Development, 4(6).
21. Grelaud, M. & Ziveri, P. (2020). The generation of marine litter in Mediterranean island beaches as an effect of tourism and its mitigation. Scientific Reports, 10(1).
22. Grillo, A.C. & Mello, T. J. (2021). Marine debris in the Fernando de Noronha Archipelago, a remote oceanic marine protected area in tropical SW Atlantic. Marine Pollution Bulletin, 164.
23. Hattam, C., Atkins, J.P., Beaumont, N., Börger, T., Böhnke-Henrichs, A., Burdon, D., De Groot, R., Hoefnagel, E., Nunes, P.A.L.D., Piwowarczyk, J., Sastre, S., Austen, M.C. (2015). Marine ecosystem services: Linking indicators to their classification. Ecological Indicators, 49, 61–75.
24. Hu, H., Zhang, J., Chu, G., Yang, J., Yu, P. (2018). Factors influencing tourists’ litter management behavior in mountainous tourism areas in China. Waste Management, 79, 273–286.
25. Iskandar, M.R., Surinati, D., Cordova, M.R., Siong, K. (2021). Pathways of floating marine debris in Jakarta Bay, Indonesia. Marine Pollution Bulletin, 169.
26. Kania, D. (2012). The Role of New Media in Facilitating Entrepreneurship in Tourism Case Study: Promoting Komodo Island in East Nusa Tenggara. Jurnal ULTIMA Comm, 4(1), 63–72.
27. Käppler, A., Windrich, F., Löder, M.G.J., Malanin, M., Fischer, D., Labrenz, M., Eichhorn, K. J., Voit, B. (2015). Identification of microplastics by FTIR and Raman microscopy: a novel silicon filter substrate opens the important spectral range below 1300 cm-1 for FTIR transmission measurements. Analytical and bioanalytical chemistry, 407(22), 6791–6801.
28. Kiessling, T., Salas, S., Mutafoglu, K., Thiel, M. (2017). Who cares about dirty beaches? Evaluating environmental awareness and action on coastal litter in Chile. Ocean and Coastal Management, 137, 82–95.
29. Lassen, C., Hansen, S.F., Magnusson, K., Hartmann, N.B., Rehne Jensen, P., Nielsen, T.G., Brinch, A. (2015). Microplastics Occurrence , effects and sources of releases to the environment in Denmark. Danish Environmental Protection Agency.
30. Law, K.L. (2017). Plastics in the Marine Environment. Annual Review of Marine Science. Annual Reviews, 9(1), 205–229.
31. Lechthaler, S., Waldschläger, K., Stauch, G., Schüttrumpf, H. (2020). The way of macroplastic through the environment. Environments MDPI, 7(10), 1–30.
32. Lippiatt, S., Opfer, S., Arthur, C. (2013). Marine Debris Monitoring and Assessment. NOAA Technical Memorandum NOS-OR&R-46. NOAA Technical Memorandum NOS-OR&R-46, (November), 82.
33. Löder, M.G.J., Kuczera, M., Mintenig, S., Lorenz, C., Gerdts, G. (2015). Focal plane array detectorbased micro-Fourier-transform infrared imaging for the analysis of microplastics in environmental samples. Environmental Chemistry, 12(5), 563–581.
34. Loizidou, X.I., Loizides, M.I., Orthodoxou, D.L. (2018). Persistent marine litter: small plastics and cigarette butts remain on beaches after organized beach cleanups. Environmental Monitoring and Assessment, 190(7).
35. Lu, Y., Yuan, J., Lu, X., Su, C., Zhang, Y., Wang, C., Cao, X., Li, Q., Su, J., Ittekkot, V., Garbutt, R. A., Bush, S., Fletcher, S., Wagey, T., Kachur, A., Sweijd, N. (2018). Major threats of pollution and climate change to global coastal ecosystems and enhanced management for sustainability. Environmental Pollution, 239, 670–680.
36. Martinez-Ribes, L., Basterretxea, G., Palmer, M., Tintoré, J. (2007). Origin and abundance of beach debris in the Balearic Islands. Scientia Marina, 71(2), 305–314.
37. McCoy, K.A., Hodgson, D.J., Clark, P.F., Morritt, D. (2020). The effects of wet wipe pollution on the Asian clam, Corbicula fluminea (Mollusca: Bivalvia) in the River Thames, London. Environmental Pollution, 264.
38. Muhar, A., Arnberger, A., Brandenburg, C. (2002). Methods for Visitor Monitoring in Recreational and Protected Areas: An Overview. Monitoring and Management of Visitor Flows in Recreational and Protected Areas, 1–6.
39. Newman, S., Watkins, E., Farmer, A., Brink, P. Ten, Schweitzer, J. P. (2015). The economics of marine litter. Marine Anthropogenic Litter.
40. Novotny, T.E., & Slaughter, E. (2014). Tobacco Product Waste: An Environmental Approach to Reduce Tobacco Consumption. Current environmental health reports, 1(3), 208–216.
41. Ó Briain, O., Marques Mendes, A.R., McCarron, S., Healy, M.G., and Morrison, L. (2020). The role of wet wipes and sanitary towels as a source of white microplastic fibres in the marine environment. Water Research, 182.
42. Ocif, J., Cappaert, J., Rich, B. (2004). A method for using an ultrasonic thickness gauge to assess outsole wear in running shoes. Proceedings of the IEEE Annual Northeast Bioengineering Conference, NEBEC, 174–175.
43. Pantoja Munoz, L., Gonzalez Baez, A., McKinney, D., Garelick, H. (2018). Characterisation of ‘flushable’ and ‘non-flushable’ commercial wet wipes using microRaman, FTIR spectroscopy and fluorescence microscopy: to flush or not to flush. Environmental Science and Pollution Research, 25(20), 20268–20279.
44. Pervez, R., Wang, Y., Ali, I., Ali, J., Ahmed, S. (2020). The analysis of the accumulation of solid waste debris in the summer season along the Shilaoren Beach Qingdao, China. Regional Studies in Marine Science, 34.
45. Pickering, C. M., Rossi, S., Barros, A. (2011). Assessing the impacts of mountain biking and hiking on subalpine grassland in australia using an experimental protocol. Journal of Environmental Management, 92(12), 3049–3057.
46. Purwiyanto, A. I. S., Suteja, Y., Trisno, Ningrum, P. S., Putri, W. A. E., Rozirwan, Agustriani, F., Fauziyah, Cordova, M. R., Koropitan, A.F. (2020). Concentration and adsorption of Pb and Cu in microplastics: Case study in aquatic environment. Marine Pollution Bulletin, 158, 111380.
47. De Ramos, B., Alencar, M.V., Rodrigues, F.L., Lacerda, A.L. de F., Proietti, M.C. (2021). Spatio-temporal characterization of litter at a touristic sandy beach in South Brazil. Environmental Pollution, 280.
48. Rech, S., Borrell Pichs, Y.J., García-Vazquez, E. (2018). Anthropogenic marine litter composition in coastal areas may be a predictor of potentially invasive rafting fauna. PLoS ONE, 13(1).
49. Silva, M.L. da, Castro, R.O., Sales, A.S., Araújo, F.V. de. (2018). Marine debris on beaches of Arraial do Cabo, RJ, Brazil: An important coastal tourist destination. Marine Pollution Bulletin, 130, 153–158.
50. Slaughter, E., Gersberg, R.M., Watanabe, K., Rudolph, J., Stransky, C., Novotny, T.E. (2011). Toxicity of cigarette butts, and their chemical components, to marine and freshwater fish. Tobacco Control, 20(Suppl 1), i25 LP-i29.
51. Suteja, Y., Atmadipoera, A.S., Riani, E., Nurjaya, I. W., Nugroho, D., Cordova, M.R. (2021). Spatial and temporal distribution of microplastic in surface water of tropical estuary: Case study in Benoa Bay, Bali, Indonesia. Marine Pollution Bulletin, 163, 111979.
52. Syakti, A.D., Bouhroum, R., Hidayati, N.V., Koenawan, C. J., Boulkamh, A., Sulistyo, I., Lebarillier, S., Akhlus, S., Doumenq, P., Wong-Wah-Chung, P. (2017). Beach macro-litter monitoring and floating microplastic in a coastal area of Indonesia. Marine Pollution Bulletin, 122(1–2), 217–225.
53. Syakti, A.D., Jacob, M., Birrien, T., Suhana, M.P., Aziz, M.Y., Salim, A., Doumenq, P., Louarn, G. (2019). Daily apportionment of stranded plastic debris in the Bintan Coastal area, Indonesia. Marine Pollution Bulletin, 149.
54. UNEP. (2018). Single-use Plastics A Roadmap for Sustentability. United Nations Enviroment Program (UNEP).
55. Westerman, P.W. & Bicudo, J.R. (2005). Management considerations for organic waste use in agriculture. Bioresource Technology, 96(2), 215–221.
56. Widaningrum, A. & Damanik, J. (2016). Improving tourism destination governance: Case of Labuan Bajo City and the Komodo National Park, Indonesia. Social Sciences (Pakistan), 11(21), 5043–5051.
57. Wilson, S.P. & Verlis, K.M. (2017). The ugly face of tourism: Marine debris pollution linked to visitation in the southern Great Barrier Reef, Australia. Marine Pollution Bulletin, 117(1–2), 239–246.
58. Wolf, I.D., Hagenloh, G., Croft, D.B. (2012). Visitor monitoring along roads and hiking trails: How to determine usage levels in tourist sites. Tourism Management, 33(1), 16–28.
59. Zhao, J., Yang, R., Yu, J. (2013). Interfacial effect on photo-oxidation of PP via model blends. Polymer Degradation and Stability, 98(10), 1981–1987.
60. Zhao, S., Zhu, L., Li, D. (2015). Characterization of small plastic debris on tourism beaches around the South China Sea. Regional Studies in Marine Science, 1, 55–62.

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Bibliografia

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