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1860797980112584704
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INTELEK Repository
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Online Access
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https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
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2024-08-30 11:28:50
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Restricted Document
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15244
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UniSZA
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[1] Stanley Consultants, Inc. 1985. National Coastal Erosion Study. Kuala Lumpur, Malaysia. [2] Jacobson, D. B. 2008. Analysis of Coastal Erosion on Martha’s Vineyard, Massachusetts: A Paraglacial Island. Unpublished Master of Science Thesis, University of Massachusetts Amherst. [3] Basco, D. R. 1999. Overview of Beach Engineering in the United States of America. Final Report, Coastal Engineering Centre, Old Dominion University, Virginia. 116. [4] Garrison, T. 2005. Oceanography: An Invitation to Marine Science. 5th ed. Belmont, California: Brooks/Cole-Thomson Learning. [5] Burka, P. 1974. Shoreline Erosion: Implication for Public Right and Private Ownership. Coastal Zone Management Journal. 1(2): 175–191. [6] Bird, E. 2008. Coastal Geomorphology: An Introduction. 2nd ed. England: John Wiley & Sons Ltd. [7] Malaysian Meteorological Department. n.d. General Climate in Malaysia. http://www.met.gov.my/index.php?option=com_content&task=view&i d=75&Itemid=1089 (Accessed on 2nd February 2012). [8] Beer, T. 1997. Environmental Oceanography: An Introduction. 2nd ed. England: John Wiley & Sons Ltd. [9] Mohamed-Faizan, A. R. H. 2010. Spatio-temporal Study of Coastlines along Tanjung Lumpur-CherokPaloh Coast. Unpublished Bachelor of Biotechnology Thesis, International Islamic University Malaysia. [10] Barzani, M. G., Mohd-Ekhwan, T., Sahibin, A. R., Sujaul, M. I., Tan, C. C. & Hafizan, J. 2006. Hydrological and Water Quality and Land-use Assessment of Tasik Chini’s Feeder River, Pahang Malaysia. J. Geografia. 3(3): 1–16. [11] Rosnan, Y., Farizal, M. I., Zaini, M. M. & Noraisyah, S. 2009. Beach Morphology Profile, Sediment Characteristics and Littoral Environmental Observations Along Kelantan Coastal Area. Proceedings of 8th International Annual Symposium on Sustainability Science and Management, UMTAS, May 3rd–4 th 2009. UMT Press 2009: 457–464. [12] Dora, G. U., Kumar, S. K., Philip, C. S., Vinayaraj, P. & Gowthaman, R. 2011. Textural Characteristics of Foreshore Sediments Along Karnataka Shoreline, West Coast of India. Int. J. Sedim. Res. 26: 364– 377. [13] Azfar, A. M., Kamaruzzaman, B. Y., Jalal, K. C. A., Shahbuddin, S., & Rosnan, Y. 2008. Changes of Beach Profile and Sediment Characteristics Along Merang Coastal Area and Estuary. Future Challenge: An Integrated Approach Towards Science & Technology for Sustainable Development, International Conference on Advancement in Science and Technology (iCAST), Kulliyyah of Science, International Islamic University Malaysia. 13–15th. June. [14] Saravanan, S. & Chandrasekar, N. 2010. Monthly and Seasonal Variation in Beach Profile Along The Coast of Tiruchendur and Kanyakumari, Tamilnadu, India. Journal of Iberian Geology. 36(1): 39– 54. [15] Rosnan, Y. & Zaini, M. M. 2010. Grain-size Distribution and Subsurface Mapping at the Setiu Wetlands, Setiu, Terengganu. Environ Earth Sci. 60: 975–984. [16] Abuodha, J. O. Z. 2003. Grain Size Distribution and Composition of Modern Dune and Beach Sediments, Malindi Bay Coast, Kenya. Journal of African Earth Sciences. 36: 41–54. [17] Blott, S. J. & Pye, K. 2001. GRADISTAT: A Grain Size Distribution and Statistics Package for the Analysis of Unconsolidated Sediments. Earth Surface Process and Landforms. 26: 1237–1248. [18] Folk, R. L., & Ward, W. C. 1957. Brazos River Bar: A Study on Significance of Grain Size Parameters. Journal of Sediment Petrology. 31: 514–529. [19] Wentworth, C. K. 1922. A Scale of Grade and Class Terms for Clastic Sediments. J. Geology. 30: 377–392. [20] Addo, K. A. 2009. Detection of Coastal Erosion Hotspots in Accra, Ghana. Journal of Sustainable Development in Africa. 11(4): 253–265. [21] Mutalib, S. N. S. A., Juahir, H., Azid, A., Sharif, S. M., Latif, M. T., Aris, A. Z., Zain, S. M. and Dominick, D. 2013. Spatial and Temporal Air Quality Pattern Recognition Using Chemometric Techniques: A Case Study in Malaysia. Environ. Sci.: Processes & Impact. doi: 10.1039/c3em00161j. [22] McKenna-Jr., J. E. 2003. An Enhanced Cluster Analysis Program with Bootstrap Significance Testing for Ecological Community Analysis. Environ. Modell. Software. 18: 205. [23] Rosnan, Y., Zaini, M. M., Noraisyah, S., Lokman, H. M. & Nor Antonina, A. 2010. Beach Cycle and Sediment Characteristics Along Pahang Coastline. Proceedings of 9th International Annual Symposium on Sustainability Science and Management, Universiti Malaysia Terengganu, May 8th–11th 2010. UMT Press. 2: 764–767. [24] Rosnan, Y., Raj, J. K., Tajuddin, I. & Husain, M. L. 2003. Coastal Process Study Along the East Coast of Malaysia. In Investing in Innovation 2003. Material, Energy & Environment, ed. Zobir, H. et al. 19–24. Universiti Putra Malaysia Press, Serdang, Selangor, Malaysia. [25] Buller, A. T. & McManus, J. 1976. Sediment Sampling and Analysis. In Estuary Hydrolography and Sedimentation. A Handbook. K. R. Dyer (ed). Cambridge University Press. 87–130. [26] Dyer, K. R. 1985. Coastal and Estuarine Sediment Dynamic. London: John Wiley. 342.
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6067-01-FH02-ESERI-15-03321.pdf
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| person |
Hadi Nur
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| recordtype |
oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15244
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| spelling |
15244 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=15244 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal application/pdf Adobe Acrobat Pro DC 20 Paper Capture Plug-in with ClearScan 9 1.6 Hadi Nur 2024-08-30 11:28:50 6067-01-FH02-ESERI-15-03321.pdf UniSZA Private Access Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season Jurnal Teknologi The map of Tanjung Lumpur to Cherok Paloh from 1996 to 2004 revealed that there were significant changes on coastal profiles. If the problem remains unsolved within 5 to 10 years, the beaches in the area might be fully eroded. The main objective of this study is to measure erosion of the coastline along Tanjung Lumpur to Cherok Paloh, Pahang during the northeast monsoon (December 2013 to February 2014). Transit set and dry sieving method were used for beach profile and grain size characteristics measurement. GRADISTAT v8 program is used for sedimentological analysis. Cluster analysis was used to show the group of higher eroded, medium eroded and lower eroded. The study found that almost all of the beach profiles had increased in length and the beach slopes were steeper; meanwhile the sedimentological analysis indicated that all the stations were dominated by sandy type during the period of study. The action of higher waves, tides and currents were the biggest contribution to erosion during northeast monsoon. From this study, it can be concluded that almost all stations have undergone erosion during the northeast season. 74 1 Penerbit UTM Press Penerbit UTM Press 27-34 [1] Stanley Consultants, Inc. 1985. National Coastal Erosion Study. Kuala Lumpur, Malaysia. [2] Jacobson, D. B. 2008. Analysis of Coastal Erosion on Martha’s Vineyard, Massachusetts: A Paraglacial Island. Unpublished Master of Science Thesis, University of Massachusetts Amherst. [3] Basco, D. R. 1999. Overview of Beach Engineering in the United States of America. Final Report, Coastal Engineering Centre, Old Dominion University, Virginia. 116. [4] Garrison, T. 2005. Oceanography: An Invitation to Marine Science. 5th ed. Belmont, California: Brooks/Cole-Thomson Learning. [5] Burka, P. 1974. Shoreline Erosion: Implication for Public Right and Private Ownership. Coastal Zone Management Journal. 1(2): 175–191. [6] Bird, E. 2008. Coastal Geomorphology: An Introduction. 2nd ed. England: John Wiley & Sons Ltd. [7] Malaysian Meteorological Department. n.d. General Climate in Malaysia. http://www.met.gov.my/index.php?option=com_content&task=view&i d=75&Itemid=1089 (Accessed on 2nd February 2012). [8] Beer, T. 1997. Environmental Oceanography: An Introduction. 2nd ed. England: John Wiley & Sons Ltd. [9] Mohamed-Faizan, A. R. H. 2010. Spatio-temporal Study of Coastlines along Tanjung Lumpur-CherokPaloh Coast. Unpublished Bachelor of Biotechnology Thesis, International Islamic University Malaysia. [10] Barzani, M. G., Mohd-Ekhwan, T., Sahibin, A. R., Sujaul, M. I., Tan, C. C. & Hafizan, J. 2006. Hydrological and Water Quality and Land-use Assessment of Tasik Chini’s Feeder River, Pahang Malaysia. J. Geografia. 3(3): 1–16. [11] Rosnan, Y., Farizal, M. I., Zaini, M. M. & Noraisyah, S. 2009. Beach Morphology Profile, Sediment Characteristics and Littoral Environmental Observations Along Kelantan Coastal Area. Proceedings of 8th International Annual Symposium on Sustainability Science and Management, UMTAS, May 3rd–4 th 2009. UMT Press 2009: 457–464. [12] Dora, G. U., Kumar, S. K., Philip, C. S., Vinayaraj, P. & Gowthaman, R. 2011. Textural Characteristics of Foreshore Sediments Along Karnataka Shoreline, West Coast of India. Int. J. Sedim. Res. 26: 364– 377. [13] Azfar, A. M., Kamaruzzaman, B. Y., Jalal, K. C. A., Shahbuddin, S., & Rosnan, Y. 2008. Changes of Beach Profile and Sediment Characteristics Along Merang Coastal Area and Estuary. Future Challenge: An Integrated Approach Towards Science & Technology for Sustainable Development, International Conference on Advancement in Science and Technology (iCAST), Kulliyyah of Science, International Islamic University Malaysia. 13–15th. June. [14] Saravanan, S. & Chandrasekar, N. 2010. Monthly and Seasonal Variation in Beach Profile Along The Coast of Tiruchendur and Kanyakumari, Tamilnadu, India. Journal of Iberian Geology. 36(1): 39– 54. [15] Rosnan, Y. & Zaini, M. M. 2010. Grain-size Distribution and Subsurface Mapping at the Setiu Wetlands, Setiu, Terengganu. Environ Earth Sci. 60: 975–984. [16] Abuodha, J. O. Z. 2003. Grain Size Distribution and Composition of Modern Dune and Beach Sediments, Malindi Bay Coast, Kenya. Journal of African Earth Sciences. 36: 41–54. [17] Blott, S. J. & Pye, K. 2001. GRADISTAT: A Grain Size Distribution and Statistics Package for the Analysis of Unconsolidated Sediments. Earth Surface Process and Landforms. 26: 1237–1248. [18] Folk, R. L., & Ward, W. C. 1957. Brazos River Bar: A Study on Significance of Grain Size Parameters. Journal of Sediment Petrology. 31: 514–529. [19] Wentworth, C. K. 1922. A Scale of Grade and Class Terms for Clastic Sediments. J. Geology. 30: 377–392. [20] Addo, K. A. 2009. Detection of Coastal Erosion Hotspots in Accra, Ghana. Journal of Sustainable Development in Africa. 11(4): 253–265. [21] Mutalib, S. N. S. A., Juahir, H., Azid, A., Sharif, S. M., Latif, M. T., Aris, A. Z., Zain, S. M. and Dominick, D. 2013. Spatial and Temporal Air Quality Pattern Recognition Using Chemometric Techniques: A Case Study in Malaysia. Environ. Sci.: Processes & Impact. doi: 10.1039/c3em00161j. [22] McKenna-Jr., J. E. 2003. An Enhanced Cluster Analysis Program with Bootstrap Significance Testing for Ecological Community Analysis. Environ. Modell. Software. 18: 205. [23] Rosnan, Y., Zaini, M. M., Noraisyah, S., Lokman, H. M. & Nor Antonina, A. 2010. Beach Cycle and Sediment Characteristics Along Pahang Coastline. Proceedings of 9th International Annual Symposium on Sustainability Science and Management, Universiti Malaysia Terengganu, May 8th–11th 2010. UMT Press. 2: 764–767. [24] Rosnan, Y., Raj, J. K., Tajuddin, I. & Husain, M. L. 2003. Coastal Process Study Along the East Coast of Malaysia. In Investing in Innovation 2003. Material, Energy & Environment, ed. Zobir, H. et al. 19–24. Universiti Putra Malaysia Press, Serdang, Selangor, Malaysia. [25] Buller, A. T. & McManus, J. 1976. Sediment Sampling and Analysis. In Estuary Hydrolography and Sedimentation. A Handbook. K. R. Dyer (ed). Cambridge University Press. 87–130. [26] Dyer, K. R. 1985. Coastal and Estuarine Sediment Dynamic. London: John Wiley. 342.
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| spellingShingle |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
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| summary |
The map of Tanjung Lumpur to Cherok Paloh from 1996 to 2004 revealed that there were significant changes on coastal profiles. If the problem remains unsolved within 5 to 10 years, the beaches in the area might be fully eroded. The main objective of this study is to measure erosion of the coastline along Tanjung Lumpur to Cherok Paloh, Pahang during the northeast monsoon (December 2013 to February 2014). Transit set and dry sieving method were used for beach profile and grain size characteristics measurement. GRADISTAT v8 program is used for sedimentological analysis. Cluster analysis was used to show the group of higher eroded, medium eroded and lower eroded. The study found that almost all of the beach profiles had increased in length and the beach slopes were steeper; meanwhile the sedimentological analysis indicated that all the stations were dominated by sandy type during the period of study. The action of higher waves, tides and currents were the biggest contribution to erosion during northeast monsoon. From this study, it can be concluded that almost all stations have undergone erosion during the northeast season.
|
| title |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
|
| title_full |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
|
| title_fullStr |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
|
| title_full_unstemmed |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
|
| title_short |
Coastal Erosion Measurement Along Tanjung Lumpur to Cherok Paloh, Pahang During the Northeast Monsoon Season
|
| title_sort |
coastal erosion measurement along tanjung lumpur to cherok paloh, pahang during the northeast monsoon season
|