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1860797365033631744
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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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2015-11-04 14:38:26
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Restricted Document
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12424
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UniSZA
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1. 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. 2. 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. 3. 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. 4. 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. and 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. 5. 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. 1. 6. Majid, N. M., Hamzah, M. B. and Ahmad, S. (1979). Rainfall interception, throughfall and stemflow in a secondary forest. Pertanika 2(2):152-154. 7. Jamil, N. R., Toriman, M. E., Idris, M and Jing, L. W. (2010). Pengaruh kanopi hutan sekunder terhadap kadar pintasan bagi kitaran hidrologi di Tasik Chini, Pahang, Malaysia. Sains Malaysiana 39(2): 181187. 8. Toriman, M.E, M. B. Gasim, Z. Yusop, I. Shahid, S. A. S. Mastura, P. Abdullah, M. Jaafar, N.A. Abd Aziz, M. K., A. Kamarudin, O. Jaafar, O. Karim, H. Juahir & N. R. Jamil, (2012). Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment. American Journal Environmental Sciences 8: 417-423. 9. Ismail W. R. (1994). Pengantar Hidrologi. Kuala Lumpur: Dewan Bahasa dan Pustaka. 10. Md Din, H., Toriman, M. E., Mokhtar, M., Elfithri, R., Abd Aziz, N. A., Abdullah, N. M. and 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. 11. Helvey J. D. and Patric J. H. (1967). Canpoy and litter interception of rainfall by hardwoods of Eastern United States. Water Resource 1: 193-206. 12. Reynolds E. R. C. and Henderson C. S. (1967). Rainfall Interception by Beech, Larch and Norway Spruce. Forestry 40(2):165-184. 13. Rosley N. A. 2007. Analisis Pintasan, Jatuhan Langsung dan Aliran Batang di Hutan Pendidikan UKM, Bangi. Kertas Kerja Projek Ijazah Sarjana Muda, Universiti Kebangsaan Malaysia. 14. Toriman, M. E., Idris, M., and Jamil, N. R. (2010). Monitoring Spatial Variability of Lowland Dipterocarp Forest in Lake Chini Catchment, Malaysia. World Applied Sciences Journal 8 (1): 54-60. 15. Musa S. M. S. (1998). Pintasan: Peranan aliran batang (Steamlow) UKM Bangi. Tesis. Bangi: Universiti Kebangsaan Malaysia. 16. Low K. S. (1972). Interception loss in the humid forested areas (with special references to Sg. Lui catchment). Malay National 25: 104-111. 17. Mitchell J. A. (1930). Interception of Rainfall by Forest. Forestry 28: 101-102. 18. Crockford, R. H. and Richardson, D.P. (2000). Partitioning of rainfall into throughfall, stemflow and interception: Effect of forest type, ground cover and climate. Hydrology Process 14: 2903-2920. 19. Jones, J. A. A. (1997). Global Hidrology: process, resources and environmental management. England: Addison Wesley Longman Limited. 20. Chappell, N. A., Bidin, K. and Tych, W. (2001). Modelling rainfall and canopy controls on net-precipitation beneath selectively-Logged Tropical Forest. Plant Ecology 153: 215-229.
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6726-01-FH02-ESERI-15-04055.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=12424
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12424 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12424 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 768 1412 02 02 2015-11-04 14:38:26 1412x768 6726-01-FH02-ESERI-15-04055.jpg UniSZA Private Access Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang 13942506 Hutan dipterokap dan kawasan pertanian kelapa sawit merupakan dua lokasi yang mempunyai ciri pintasan, kelembapan tanih dan infiltrasi yang berbeza. Kajian imbangan air bagi proses kitaran hidrologi ini telah dijalankan di Lembangan Tasik Chini, Pahang, Malaysia selama sepuluh bulan bermula pada bulan April 2011 sehingga Januari 2012. Matlamat kajian ini adalah mengkaji ciri pintasan di dua variasi kanopi pokok dan kesan pintasan ke atas proses infiltrasi. Metod yang digunakan melibatkan data primer khususnya pengukuran aliran batang dan jatuhan langsung serta kadar kelembapan tanih bagi kedua-dua lokasi kajian. 104 batang pokok menjadi sampel iaitu 100 batang pokok di kawasan hutan dipterokap dan 4 batang pokok kelapa sawit serta 9 set jatuhan langsung dan 7 stesen alat pengukur kelembapan tanih. Hubungan regriasi digunakan untuk menganalisis kadar infiltrasi dan perhubungan antara pembolehubah pintasan dengan kadar kelembapan tanih dan hujan. Hasil kajian mendapati, 29.7% jumlah pintasan direkodkan dikawasan Plot A, 29.1% di kawasan Plot B dan 41.2% di kawasan kelapa sawit. Purata aliran batang bagi pokok di kawasan hutan sebanyak 8.65mm setiap pokok berbanding 12.7 mm bagi setiap pokok kelapa sawit. Purata bagi jatuhan langsung di kawasan kelapa sawit juga tinggi berbanding kawasan hutan iaitu 0.49 mm dan 0.42 mm. Hasil kajian menunjukkan ciri pintasan bagi kawasan hutan dipterokap dan kawasan kelapa sawit dipengaruhi oleh ciri fisiografi pokok seperti diameter batang pokok dan bentuk dahan pokok. Nilai pekali korelasi bagi hubungan antara jatuhan langsung dengan kadar kelembapan tanih di kawasan kelapa sawit adalah r² = 0.49 berbanding di kawasan hutan sebanyak r²= 0.42, hubungan yang positif bermakna apabila jumlah jatuhan langsung meningkat maka kadar kelembapan tanih juga akan meningkat. 19 5 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 1084-1092 1. 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. 2. 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. 3. 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. 4. 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. and 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. 5. 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. 1. 6. Majid, N. M., Hamzah, M. B. and Ahmad, S. (1979). Rainfall interception, throughfall and stemflow in a secondary forest. Pertanika 2(2):152-154. 7. Jamil, N. R., Toriman, M. E., Idris, M and Jing, L. W. (2010). Pengaruh kanopi hutan sekunder terhadap kadar pintasan bagi kitaran hidrologi di Tasik Chini, Pahang, Malaysia. Sains Malaysiana 39(2): 181187. 8. Toriman, M.E, M. B. Gasim, Z. Yusop, I. Shahid, S. A. S. Mastura, P. Abdullah, M. Jaafar, N.A. Abd Aziz, M. K., A. Kamarudin, O. Jaafar, O. Karim, H. Juahir & N. R. Jamil, (2012). Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment. American Journal Environmental Sciences 8: 417-423. 9. Ismail W. R. (1994). Pengantar Hidrologi. Kuala Lumpur: Dewan Bahasa dan Pustaka. 10. Md Din, H., Toriman, M. E., Mokhtar, M., Elfithri, R., Abd Aziz, N. A., Abdullah, N. M. and 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. 11. Helvey J. D. and Patric J. H. (1967). Canpoy and litter interception of rainfall by hardwoods of Eastern United States. Water Resource 1: 193-206. 12. Reynolds E. R. C. and Henderson C. S. (1967). Rainfall Interception by Beech, Larch and Norway Spruce. Forestry 40(2):165-184. 13. Rosley N. A. 2007. Analisis Pintasan, Jatuhan Langsung dan Aliran Batang di Hutan Pendidikan UKM, Bangi. Kertas Kerja Projek Ijazah Sarjana Muda, Universiti Kebangsaan Malaysia. 14. Toriman, M. E., Idris, M., and Jamil, N. R. (2010). Monitoring Spatial Variability of Lowland Dipterocarp Forest in Lake Chini Catchment, Malaysia. World Applied Sciences Journal 8 (1): 54-60. 15. Musa S. M. S. (1998). Pintasan: Peranan aliran batang (Steamlow) UKM Bangi. Tesis. Bangi: Universiti Kebangsaan Malaysia. 16. Low K. S. (1972). Interception loss in the humid forested areas (with special references to Sg. Lui catchment). Malay National 25: 104-111. 17. Mitchell J. A. (1930). Interception of Rainfall by Forest. Forestry 28: 101-102. 18. Crockford, R. H. and Richardson, D.P. (2000). Partitioning of rainfall into throughfall, stemflow and interception: Effect of forest type, ground cover and climate. Hydrology Process 14: 2903-2920. 19. Jones, J. A. A. (1997). Global Hidrology: process, resources and environmental management. England: Addison Wesley Longman Limited. 20. Chappell, N. A., Bidin, K. and Tych, W. (2001). Modelling rainfall and canopy controls on net-precipitation beneath selectively-Logged Tropical Forest. Plant Ecology 153: 215-229.
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Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| summary |
Hutan dipterokap dan kawasan pertanian kelapa sawit merupakan dua lokasi yang mempunyai ciri pintasan, kelembapan tanih dan infiltrasi yang berbeza. Kajian imbangan air bagi proses kitaran hidrologi ini telah dijalankan di Lembangan Tasik Chini, Pahang, Malaysia selama sepuluh bulan bermula pada bulan April 2011 sehingga Januari 2012. Matlamat kajian ini adalah mengkaji ciri pintasan di dua variasi kanopi pokok dan kesan pintasan ke atas proses infiltrasi. Metod yang digunakan melibatkan data primer khususnya pengukuran aliran batang dan jatuhan langsung serta kadar kelembapan tanih bagi kedua-dua lokasi kajian. 104 batang pokok menjadi sampel iaitu 100 batang pokok di kawasan hutan dipterokap dan 4 batang pokok kelapa sawit serta 9 set jatuhan langsung dan 7 stesen alat pengukur kelembapan tanih. Hubungan regriasi digunakan untuk menganalisis kadar infiltrasi dan perhubungan antara pembolehubah pintasan dengan kadar kelembapan tanih dan hujan. Hasil kajian mendapati, 29.7% jumlah pintasan direkodkan dikawasan Plot A, 29.1% di kawasan Plot B dan 41.2% di kawasan kelapa sawit. Purata aliran batang bagi pokok di kawasan hutan sebanyak 8.65mm setiap pokok berbanding 12.7 mm bagi setiap pokok kelapa sawit. Purata bagi jatuhan langsung di kawasan kelapa sawit juga tinggi berbanding kawasan hutan iaitu 0.49 mm dan 0.42 mm. Hasil kajian menunjukkan ciri pintasan bagi kawasan hutan dipterokap dan kawasan kelapa sawit dipengaruhi oleh ciri fisiografi pokok seperti diameter batang pokok dan bentuk dahan pokok. Nilai pekali korelasi bagi hubungan antara jatuhan langsung dengan kadar kelembapan tanih di kawasan kelapa sawit adalah r² = 0.49 berbanding di kawasan hutan sebanyak r²= 0.42, hubungan yang positif bermakna apabila jumlah jatuhan langsung meningkat maka kadar kelembapan tanih juga akan meningkat.
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| title |
Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| title_full |
Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| title_fullStr |
Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| title_full_unstemmed |
Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| title_short |
Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang
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| title_sort |
impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in tasik chini, pahang
|