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1860797370310066176
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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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2015-11-05 09:41:20
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Restricted Document
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12444
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UniSZA
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1. Antonellini, M., P. Mollema, B. Giambastiani, K. Bishop, L. Caruso, A. Minchio, L., Pellegrini, M. Sabia, E. Ulazzi, and G. Gabbianelli, (2008). Saltwater intrusion in the coastal aquifer of the southern Po Plain, Italy. Hy drogeology Journal 16: 1541-1556. 2. Arnell, N. W., (2004). Climate change and global water recourses: SRES emissions and socio-economic scenari os. Global Environmental Change 14: 31-52. 3. Arnell, N.W., (1999). Climate change and global water resources, Global Environmental Change 9: 31–49. 4. Smedt, F. D. (1989). Introduction to River Water Quality Modeling, VUB Press, Brussels. pp: 232. 5. Ali, A., (1999). Climate change impact and adaptation assessment in Bangladesh, Climate Research 12: 109-116. 6. Cartwright, N., L. Li., and P. Nielsen, (2004). Response of the salt-freshwater interface in a coastal aquifer to a wave-induced groundwater pulse: field observations and modelling, Advances in Water Resources 27: 297-303. 7. Barlow, P. M. and Reichard, E. G., (2010). Saltwater intrusion in coastal regions of North America, Hydrogeol ogy Journal 18: 247-260. 8. Bobba, A. G., (2002). Numerical modeling of saltwater intrusion due to human activities and sea-level change i n the Godavari Delta, India. Hydrogeological Sciences Journal 47: 67-80. 9. Abd. Jalil H. (2005). Permodelan Hidrodinamik Sungai-Pendekatan Awal Menggunakan Infoworks RS, Institut Penyelidikan Hidraulik Kebangsaan Malaysia. pp:153. 10. Toriman, M. E, Hashim, N., Hassan, A. J., Mokhtar, M., Juahir, H., Gasim, M. B. and Abdullah, M. P. (2011). Study on the Impact of Tidal Effects on Water Quality Modelling of Juru River, Malaysia. Asian Journal of Sci entific Research 4: 129-138. 11. Jaafar, O., Toriman, M. E., Mastura, S. A. S., Gazim, M. B. Lan, P. I., Abdullah, P., Kamarudin, M. K. A. and Aziz, N. A. (2010). Modeling the Impacts of Ringlet Reservoir on Downstream Hydraulic Capacity of Bertam River Using XPSWMM in Cameron Highlands, Malaysia. Research Journal of Applied Sciences 5(2): 47-53. 12. Jaafar, O., Toriman, M. E., Mushrifah Idris, S.A. Sharifah Mastura, Juahir, H. Aziz, N. A. A., Kamarudin, M. K . A. and Jamil, N. R. (2010). Study of Water Level-Discharge Relationship Using Artificial Neural Network (A NN) in Sungai Gumum, Tasik Chini, Pahang, Malaysia. Research Journal of Applied Sciences 5(1): 20-26 13. Church, J. A., White, N. J., Aarup, T., Wilson, W. S., Woodworth, P. L., Domingues, C. M. Hunter, J. R. and Lambeck, K. (2008). Understanding global sea levels: past, present and future. Sustainability Science 3: 9-22. 14. Dausman, A. M. and Langevin, C. D. (2005). Movement of the saltwater interface in the Surficial Aquifer Syst em in response to hydrologic stresses and water- management practices, Broward County, Florida: USGS Scient ific Investigation Report : 2004-5256. 15. Pilkey, O. H., and Cooper, J. A. G. (2004). Society and sea level rise. Science 303: 1781-1782. 16. Chen, X., Zong, Y., Zhang, E., Xu, J and Li, S. (2001). Human impacts on the Changjiang (Yangtze) River basi n, China with special reference to the impacts of the dry season water discharges into the sea, Geomorphology 4 1: 111-123. 17. Giambastiani B. M. S., Antonellini, M., Oude Essink, H. P. and Stuurman, R. J. (2007). Saltwater intrusion in t he unconfined coastal aquifer of Ravenna (Italy): A numerical model, Journal of Hydrology 340: 91– 104. 18. Post, V. and Abarca, E. (2010). Preface: saltwater and freshwater interactions in coastal aquifers, Hydrogeology Journal 18: 1-4. 19. Werner, A. D. (2010). A review of seawater intrusion and its management in Australia, Hydrogeology Journal 18: 281-285.
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6747-01-FH02-ESERI-15-04077.jpg
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norman
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oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12444
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12444 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12444 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 768 1419 16 16 1419x768 2015-11-05 09:41:20 6747-01-FH02-ESERI-15-04077.jpg UniSZA Private Access Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia] Malaysian Journal of Analytical Sciences Issues such as water pollution and extraction of water from Sungai Selangor system has been said to be the cause of ‘fading fireflies’. Salinity intrusion into estuary of the Sungai Selangor has been carried out on a hydrodynamic numerical modeling to access the parameter that governed the amount of salt in the river. The berembang trees on the river bank that become the fireflies’ habitat need some amount of salt for proper growth. Living at the lower reaches of Sungai Selangor, the fireflies are affected not only by the activities in their vicinity, but by activities in the entire river basin. Rapid economic development in the basin and the strong demand for the water resources puts pressure on the ecosystem. This research has been carried out to investigate the effect of water extraction along Sungai Selangor towards altering the amount of salt content in the river. The hydrodynamic modeling with regards to the salt content is expected to support long term assessment that may affect the berembang trees as a result of changes in the flow from upstream because of the water abstraction activity for domestic water supply. 19 5 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 1109-1119 1. Antonellini, M., P. Mollema, B. Giambastiani, K. Bishop, L. Caruso, A. Minchio, L., Pellegrini, M. Sabia, E. Ulazzi, and G. Gabbianelli, (2008). Saltwater intrusion in the coastal aquifer of the southern Po Plain, Italy. Hy drogeology Journal 16: 1541-1556. 2. Arnell, N. W., (2004). Climate change and global water recourses: SRES emissions and socio-economic scenari os. Global Environmental Change 14: 31-52. 3. Arnell, N.W., (1999). Climate change and global water resources, Global Environmental Change 9: 31–49. 4. Smedt, F. D. (1989). Introduction to River Water Quality Modeling, VUB Press, Brussels. pp: 232. 5. Ali, A., (1999). Climate change impact and adaptation assessment in Bangladesh, Climate Research 12: 109-116. 6. Cartwright, N., L. Li., and P. Nielsen, (2004). Response of the salt-freshwater interface in a coastal aquifer to a wave-induced groundwater pulse: field observations and modelling, Advances in Water Resources 27: 297-303. 7. Barlow, P. M. and Reichard, E. G., (2010). Saltwater intrusion in coastal regions of North America, Hydrogeol ogy Journal 18: 247-260. 8. Bobba, A. G., (2002). Numerical modeling of saltwater intrusion due to human activities and sea-level change i n the Godavari Delta, India. Hydrogeological Sciences Journal 47: 67-80. 9. Abd. Jalil H. (2005). Permodelan Hidrodinamik Sungai-Pendekatan Awal Menggunakan Infoworks RS, Institut Penyelidikan Hidraulik Kebangsaan Malaysia. pp:153. 10. Toriman, M. E, Hashim, N., Hassan, A. J., Mokhtar, M., Juahir, H., Gasim, M. B. and Abdullah, M. P. (2011). Study on the Impact of Tidal Effects on Water Quality Modelling of Juru River, Malaysia. Asian Journal of Sci entific Research 4: 129-138. 11. Jaafar, O., Toriman, M. E., Mastura, S. A. S., Gazim, M. B. Lan, P. I., Abdullah, P., Kamarudin, M. K. A. and Aziz, N. A. (2010). Modeling the Impacts of Ringlet Reservoir on Downstream Hydraulic Capacity of Bertam River Using XPSWMM in Cameron Highlands, Malaysia. Research Journal of Applied Sciences 5(2): 47-53. 12. Jaafar, O., Toriman, M. E., Mushrifah Idris, S.A. Sharifah Mastura, Juahir, H. Aziz, N. A. A., Kamarudin, M. K . A. and Jamil, N. R. (2010). Study of Water Level-Discharge Relationship Using Artificial Neural Network (A NN) in Sungai Gumum, Tasik Chini, Pahang, Malaysia. Research Journal of Applied Sciences 5(1): 20-26 13. Church, J. A., White, N. J., Aarup, T., Wilson, W. S., Woodworth, P. L., Domingues, C. M. Hunter, J. R. and Lambeck, K. (2008). Understanding global sea levels: past, present and future. Sustainability Science 3: 9-22. 14. Dausman, A. M. and Langevin, C. D. (2005). Movement of the saltwater interface in the Surficial Aquifer Syst em in response to hydrologic stresses and water- management practices, Broward County, Florida: USGS Scient ific Investigation Report : 2004-5256. 15. Pilkey, O. H., and Cooper, J. A. G. (2004). Society and sea level rise. Science 303: 1781-1782. 16. Chen, X., Zong, Y., Zhang, E., Xu, J and Li, S. (2001). Human impacts on the Changjiang (Yangtze) River basi n, China with special reference to the impacts of the dry season water discharges into the sea, Geomorphology 4 1: 111-123. 17. Giambastiani B. M. S., Antonellini, M., Oude Essink, H. P. and Stuurman, R. J. (2007). Saltwater intrusion in t he unconfined coastal aquifer of Ravenna (Italy): A numerical model, Journal of Hydrology 340: 91– 104. 18. Post, V. and Abarca, E. (2010). Preface: saltwater and freshwater interactions in coastal aquifers, Hydrogeology Journal 18: 1-4. 19. Werner, A. D. (2010). A review of seawater intrusion and its management in Australia, Hydrogeology Journal 18: 281-285.
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| spellingShingle |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
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| summary |
Issues such as water pollution and extraction of water from Sungai Selangor system has been said to be the cause of ‘fading fireflies’. Salinity intrusion into estuary of the Sungai Selangor has been carried out on a hydrodynamic numerical modeling to access the parameter that governed the amount of salt in the river. The berembang trees on the river bank that become the fireflies’ habitat need some amount of salt for proper growth. Living at the lower reaches of Sungai Selangor, the fireflies are affected not only by the activities in their vicinity, but by activities in the entire river basin. Rapid economic development in the basin and the strong demand for the water resources puts pressure on the ecosystem. This research has been carried out to investigate the effect of water extraction along Sungai Selangor towards altering the amount of salt content in the river. The hydrodynamic modeling with regards to the salt content is expected to support long term assessment that may affect the berembang trees as a result of changes in the flow from upstream because of the water abstraction activity for domestic water supply.
|
| title |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
|
| title_full |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
|
| title_fullStr |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
|
| title_full_unstemmed |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
|
| title_short |
Assessment of water salinity model using hydrodynamic numerical modelling in estuary of Selangor river, Malaysia [Penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai Selangor, Malaysia]
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| title_sort |
assessment of water salinity model using hydrodynamic numerical modelling in estuary of selangor river, malaysia [penilaian kemasinan air menggunakan pemodelan model berangka hidronamik di muara sungai selangor, malaysia]
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