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1860797377555726336
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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 10:34:31
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Restricted Document
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12473
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UniSZA
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1. Ghani, A.A.B., Chang, C.K., Leow, C.S. and Zakaria N.A. (2012). Sungai Pahang digital flood mapping: (2007) flood. International Journal River Basin Managemnent 10 (2): 139-148. 2. Abdullah, N. M., Toriman, M. E., Md Din, H., Abd Aziz, N. A., Kamarudin, M. K. A., Abdul Rani, N. S., Ata, F. M., Saad, M. H., Abdullah, N. W., Idris, M., Jamil, N. R. (2013). Influence of Spatial and Temporal Factors in Determining Rainfall Interception at Dipterocarp Forest Canopy, Lake Chini, Pahang. Malaysian Journal of Analytical Sciences 17 (1): 11–23. 3. Armas, I., Gogoaşe Nistoran D. E., Osaci-Costache, G. and Braşoveanu, L. (2013). Morpho-dynamic evolution patterns of Subcarpathian Prahova River (Romania). CATENA 100: 83-99. 4. Ashmore, P. E. and Rennie, C. D. (2013). Gravel-bed rivers: from particles to patterns. Earth Surface Processes and Landforms 38(2): 217-220. 5. Kamarudin, M. K. A., Toriman, M. E., Lun, P. I., Abdul Aziz, N. A. and Gasim, M. B. (2013). The hydrodynamic of Dong River, Hutan Lipur Lata Jarum, Pahang, Malaysia. Prudence Journal of Environmental Science Research 1(2): 5-11. 148. 6. Toriman, M.E, Gasim, M. B., Yusop, Z., Shahid, I., Mastura, S. A. S., Abdullah, P., Jaafar, M., Andul Aziz, N. A., Kamarudin, M. K. A., Jaafar, O., Karim, O., Juahir, H. and Jamil, N. R. (2012). Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment. American Journal of Environment Sciences 8: 417-423. 7. Syed Omar, S. A., Eh Rak, A., Ahmad Sanusi, A. F., and Md Yusoff, A. (2014). Benthic Macroinvertebrates Composition and Distribution at Sungai Dawai and Sungai Dekong in Lojing Highland, Gua Musang, Kelantan. Jurnal Teknologi 68 (3): 125-13. 8. Kamarudin, M.K.A., Idris, M. and Toriman, M.E. (2013). Analysis of Leptobarbus hoevenii in control environment at natural lakes. American Journal of Agricultural and Biological Sciences 8: 142-148. 9. Md Din, H.,Toriman, M. E., Mokhtar, M., Elfithri, R., Abd Aziz, N. A., Abdullah, N. M., Kamarudin, M.K.A., (2012). Loading Concentrations of Pollutant in Alur Ilmu at UKM Bangi Campus: Event Mean Concentration (EMC) Approach. Malaysian Journal of Analytical Sciences, 16 (3): 353–365. 10. Kamarudin, M. K. A., Toriman, M. E., Rosli, M. H., Juahir, H., Azid, A., Mohamed Zainuddin, S. F., Abdul Aziz, N. A. and Sulaiman, W. N. A. (2014). Analysis of Meander Evolution Studies on Effect from Land Use and Climate Change at Upstream Reach of Pahang River, Malaysia. Mitigation and Adaptation Strategies for Global Change: 1-16. 11. Lun, P. I., Gasim, M. B., Toriman, M. E., Rahim S. A. and Kamarudin, M. K. A. (2011). Hydrological Pattern of Pahang River Basin and Their Relation to Flood Historical Event. Jurnal e-Bangi 6(1): 29-37. 12. Azid, A., Che Hasnam, C. N., Juahir, H., Amran, M. A., Toriman, M. E., Kamarudin, M. K. A., Mohd Saudia, M.S., Gasim, M.B. and Mustafa, A.D. (2015). Coastal Erosion Measurement along Tanjung Lumpur to Cherok Paloh, Pahang during the Northeast Monsoon Season. Jurnal Teknologi 74 (1): 27–34. 13. Kamarudin, M.K.A., Toriman, M.E., Sarifah A., S.M, Idris, M., Jamil, N.R. and Gasim, M.B. (2009). Temporal Variability on Lowland River Sediment Properties and Yield. American Journal of Environmental Sciences 5(5): 657-663. 14. Heng, G. S. and Hing, T. T. (2000). Classifying Water Quality Along Sungai Pahang and its Tributaries. Sains Malaysiana 29: 257-272 1. 15. Chan, N.W. (2012). Managing urban rivers and water quality in Malaysia for sustainable water resources. International Journal of Water Resources Development 28(2): 343-354. 16. Jabatan Perancangan Bandar dan Desa, JPBD. (2012). Laporan Penemuan-Kajian Pelan Pengurusan Khusus (Pemuliharaan) Tanah Tinggi Kinta-Cameron Highland- Lojing. Jabatan Perancangan Bandar dan Desa Negeri Kelantan. 17. DID. (2000). Urban Stormwater Management Manual for Malaysia. Kuala Lumpur: Department of Irrigation and Drainage. Malaysia. 18. Mohd Saudia, M. S., Azid, A., Juahir, H., Ezani, E., Toriman, M.E., Amran, M. A., Mustafaa, A. D., Azamana, F., Kamarudin, M.K.A. and Mohd Saudib, M. (2015). Flood Risk Pattern Recognition Using Integrated Chemometric Method and Artificial Neural Network: A Case Study in the Johor River Basin. Jurnal Teknologi 74 (1): 159–164. 19. Sarbu C., Pop H.F., (2005). Principal component analysis versus fuzzy principal component analysis A case study: the quality of Danube water (1985-1996). Talanta 65(5): 1215-1220. 20. Chabukdhara M. and Nema A. (2012). Assessment of heavy metal contamination in Hindon River sediments: a chemometric and geochemical approach. Chemosphere 87:945–953. 21. Mohd Saudia, M.S., Juahir, H., Azid, A., Kamarudin, M.K.A., Kasim, M. F., Toriman, M.E., Abdul Aziz, N. A. Che Hasnam, C.N. and Samsudin, M.S. (2015). Flood Risk Pattern Recognition Using Chemometric Technique: A Case Study In Kuantan River Basin, Jurnal Teknologi 72 (1): 137-141. 22. Zhou F., Liu Y. and Guo H., (2007). Application of Multivariate Statistical Methods to Water Quality Assessment of the Watercourses in Northwestern New Territories, Hong Kong. Environmental Monitoring and Assessment 132: 1-13.
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6776-01-FH02-ESERI-15-04085.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=12473
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12473 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12473 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 11 11 1417 766 2015-11-05 10:34:31 1417x766 6776-01-FH02-ESERI-15-04085.jpg UniSZA Private Access Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia] Malaysian Journal of Analytical Sciences Aktiviti penerokaan tanah di kawasan Tanah Tinggi tanpa mitigasi dapat memberi impak besar terhadap kesihatan persekitaran di dalam lembangan tersebut. Tanah Tinggi Lojing Gua Musang merupakan antara kawasan yang dibangunkan bagi aktiviti pertanian komersil. Sungai Belatop merupakan antara sungai yang terjejas dan memberi kesan terhadap bekalan sumber air penduduk setempat. Kajian ini dijalankan bagi mengetahui perkaitan antara pembangunan tanah dengan perubahan kualiti air sungai di Lembangan Sungai Belatop. Kajian dijalankan berdasarkan analisis data daripada Jabatan Alam Sekitar bermula dari Februari hingga Oktober 2012 secara berkala. Dapatan menunjukkan, pembangunan tanah di kawasan Tanah Tinggi Lojing telah memberi kesan nagetif kepada kualiti air di kawasan kajian. Dimana, nilai sedimen terampai (SS) adalah tinggi dengan nilai 1161 mg/L, nilai Turbidity mencapai 991(NTU) dan terus meningkat pada musim hujan kesan aliran permukaan yang menghakis permukaan tanah tidak berkenopi. Kandungan Magnisium juga telah meningkat iaitu 0.66 mg/L kepada 1.38 mg/L. Kandungan magnisium yang tinggi terhasil daripada penggunaan baja dalam aktiviti pertanian di kawasan kajian. Kandungan baja kimia yang berlebihan menyebabkan kandungan nilai kalsium (Ca) di lapangan bernilai 3.18 mg/L. Kandungan ferum dalam air juga telah melepasi 0.3 mg/L iaitu Kelas IIA/B dan Kelas III berdasarkan IKA. Justeru itu, beberapa cadangan dikemukan bagi mengurangkan masalah. 19 5 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 951-959 1. Ghani, A.A.B., Chang, C.K., Leow, C.S. and Zakaria N.A. (2012). Sungai Pahang digital flood mapping: (2007) flood. International Journal River Basin Managemnent 10 (2): 139-148. 2. Abdullah, N. M., Toriman, M. E., Md Din, H., Abd Aziz, N. A., Kamarudin, M. K. A., Abdul Rani, N. S., Ata, F. M., Saad, M. H., Abdullah, N. W., Idris, M., Jamil, N. R. (2013). Influence of Spatial and Temporal Factors in Determining Rainfall Interception at Dipterocarp Forest Canopy, Lake Chini, Pahang. Malaysian Journal of Analytical Sciences 17 (1): 11–23. 3. Armas, I., Gogoaşe Nistoran D. E., Osaci-Costache, G. and Braşoveanu, L. (2013). Morpho-dynamic evolution patterns of Subcarpathian Prahova River (Romania). CATENA 100: 83-99. 4. Ashmore, P. E. and Rennie, C. D. (2013). Gravel-bed rivers: from particles to patterns. Earth Surface Processes and Landforms 38(2): 217-220. 5. Kamarudin, M. K. A., Toriman, M. E., Lun, P. I., Abdul Aziz, N. A. and Gasim, M. B. (2013). The hydrodynamic of Dong River, Hutan Lipur Lata Jarum, Pahang, Malaysia. Prudence Journal of Environmental Science Research 1(2): 5-11. 148. 6. Toriman, M.E, Gasim, M. B., Yusop, Z., Shahid, I., Mastura, S. A. S., Abdullah, P., Jaafar, M., Andul Aziz, N. A., Kamarudin, M. K. A., Jaafar, O., Karim, O., Juahir, H. and Jamil, N. R. (2012). Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment. American Journal of Environment Sciences 8: 417-423. 7. Syed Omar, S. A., Eh Rak, A., Ahmad Sanusi, A. F., and Md Yusoff, A. (2014). Benthic Macroinvertebrates Composition and Distribution at Sungai Dawai and Sungai Dekong in Lojing Highland, Gua Musang, Kelantan. Jurnal Teknologi 68 (3): 125-13. 8. Kamarudin, M.K.A., Idris, M. and Toriman, M.E. (2013). Analysis of Leptobarbus hoevenii in control environment at natural lakes. American Journal of Agricultural and Biological Sciences 8: 142-148. 9. Md Din, H.,Toriman, M. E., Mokhtar, M., Elfithri, R., Abd Aziz, N. A., Abdullah, N. M., Kamarudin, M.K.A., (2012). Loading Concentrations of Pollutant in Alur Ilmu at UKM Bangi Campus: Event Mean Concentration (EMC) Approach. Malaysian Journal of Analytical Sciences, 16 (3): 353–365. 10. Kamarudin, M. K. A., Toriman, M. E., Rosli, M. H., Juahir, H., Azid, A., Mohamed Zainuddin, S. F., Abdul Aziz, N. A. and Sulaiman, W. N. A. (2014). Analysis of Meander Evolution Studies on Effect from Land Use and Climate Change at Upstream Reach of Pahang River, Malaysia. Mitigation and Adaptation Strategies for Global Change: 1-16. 11. Lun, P. I., Gasim, M. B., Toriman, M. E., Rahim S. A. and Kamarudin, M. K. A. (2011). Hydrological Pattern of Pahang River Basin and Their Relation to Flood Historical Event. Jurnal e-Bangi 6(1): 29-37. 12. Azid, A., Che Hasnam, C. N., Juahir, H., Amran, M. A., Toriman, M. E., Kamarudin, M. K. A., Mohd Saudia, M.S., Gasim, M.B. and Mustafa, A.D. (2015). Coastal Erosion Measurement along Tanjung Lumpur to Cherok Paloh, Pahang during the Northeast Monsoon Season. Jurnal Teknologi 74 (1): 27–34. 13. Kamarudin, M.K.A., Toriman, M.E., Sarifah A., S.M, Idris, M., Jamil, N.R. and Gasim, M.B. (2009). Temporal Variability on Lowland River Sediment Properties and Yield. American Journal of Environmental Sciences 5(5): 657-663. 14. Heng, G. S. and Hing, T. T. (2000). Classifying Water Quality Along Sungai Pahang and its Tributaries. Sains Malaysiana 29: 257-272 1. 15. Chan, N.W. (2012). Managing urban rivers and water quality in Malaysia for sustainable water resources. International Journal of Water Resources Development 28(2): 343-354. 16. Jabatan Perancangan Bandar dan Desa, JPBD. (2012). Laporan Penemuan-Kajian Pelan Pengurusan Khusus (Pemuliharaan) Tanah Tinggi Kinta-Cameron Highland- Lojing. Jabatan Perancangan Bandar dan Desa Negeri Kelantan. 17. DID. (2000). Urban Stormwater Management Manual for Malaysia. Kuala Lumpur: Department of Irrigation and Drainage. Malaysia. 18. Mohd Saudia, M. S., Azid, A., Juahir, H., Ezani, E., Toriman, M.E., Amran, M. A., Mustafaa, A. D., Azamana, F., Kamarudin, M.K.A. and Mohd Saudib, M. (2015). Flood Risk Pattern Recognition Using Integrated Chemometric Method and Artificial Neural Network: A Case Study in the Johor River Basin. Jurnal Teknologi 74 (1): 159–164. 19. Sarbu C., Pop H.F., (2005). Principal component analysis versus fuzzy principal component analysis A case study: the quality of Danube water (1985-1996). Talanta 65(5): 1215-1220. 20. Chabukdhara M. and Nema A. (2012). Assessment of heavy metal contamination in Hindon River sediments: a chemometric and geochemical approach. Chemosphere 87:945–953. 21. Mohd Saudia, M.S., Juahir, H., Azid, A., Kamarudin, M.K.A., Kasim, M. F., Toriman, M.E., Abdul Aziz, N. A. Che Hasnam, C.N. and Samsudin, M.S. (2015). Flood Risk Pattern Recognition Using Chemometric Technique: A Case Study In Kuantan River Basin, Jurnal Teknologi 72 (1): 137-141. 22. Zhou F., Liu Y. and Guo H., (2007). Application of Multivariate Statistical Methods to Water Quality Assessment of the Watercourses in Northwestern New Territories, Hong Kong. Environmental Monitoring and Assessment 132: 1-13.
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Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
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| summary |
Aktiviti penerokaan tanah di kawasan Tanah Tinggi tanpa mitigasi dapat memberi impak besar terhadap kesihatan persekitaran di dalam lembangan tersebut. Tanah Tinggi Lojing Gua Musang merupakan antara kawasan yang dibangunkan bagi aktiviti pertanian komersil. Sungai Belatop merupakan antara sungai yang terjejas dan memberi kesan terhadap bekalan sumber air penduduk setempat. Kajian ini dijalankan bagi mengetahui perkaitan antara pembangunan tanah dengan perubahan kualiti air sungai di Lembangan Sungai Belatop. Kajian dijalankan berdasarkan analisis data daripada Jabatan Alam Sekitar bermula dari Februari hingga Oktober 2012 secara berkala. Dapatan menunjukkan, pembangunan tanah di kawasan Tanah Tinggi Lojing telah memberi kesan nagetif kepada kualiti air di kawasan kajian. Dimana, nilai sedimen terampai (SS) adalah tinggi dengan nilai 1161 mg/L, nilai Turbidity mencapai 991(NTU) dan terus meningkat pada musim hujan kesan aliran permukaan yang menghakis permukaan tanah tidak berkenopi. Kandungan Magnisium juga telah meningkat iaitu 0.66 mg/L kepada 1.38 mg/L. Kandungan magnisium yang tinggi terhasil daripada penggunaan baja dalam aktiviti pertanian di kawasan kajian. Kandungan baja kimia yang berlebihan menyebabkan kandungan nilai kalsium (Ca) di lapangan bernilai 3.18 mg/L. Kandungan ferum dalam air juga telah melepasi 0.3 mg/L iaitu Kelas IIA/B dan Kelas III berdasarkan IKA. Justeru itu, beberapa cadangan dikemukan bagi mengurangkan masalah.
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| title |
Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
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| title_full |
Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
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| title_fullStr |
Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
|
| title_full_unstemmed |
Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
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| title_short |
Land exploration study and water quality changes in tanah tinggi Lojing, Kelantan, Malaysia [Kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi Lojing, Kelantan, Malaysia]
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| title_sort |
land exploration study and water quality changes in tanah tinggi lojing, kelantan, malaysia [kajian penerokaan tanah dan perubahan kualiti air di tanah tinggi lojing, kelantan, malaysia]
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