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1860797423523201024
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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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2015-12-30 15:47:44
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Restricted Document
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12658
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UniSZA
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1. Sulaiman W. N. A, Heshmatpoor A. and Rosli M. H. (2010). Identification of flood source areas in Pahang River Basin Peninsular Malaysia, Environment Asia (special issue) 3: 73-78. 2. Saher F. N, Ali N. M, Abdul Kadir T. A, Teruggi G. and Hossain M. A. (2012). Environmental degradation inMalaysia’s Pahang river basin and its relation with river pollution: strategic plan from assesement to mitigation using geo-informatics. International conference on energy, environment and sustainable development, EEM-25. 3. Jusoh, J. (2005). Hydrological Forecasting of Pahang River basin using the Rainfall-Runoff Model HEC-HMS, Universiti Teknologi Mara. 4. Jabatan Meteorologi Malaysia, JMM. ( 2010). 5. Gasim M. B, Toriman M. E, Idris M, Lun P. I, Kamaruddin M. K. A, Nor Azlina A. A, Mokhtar M, and Sharifah Mastura, M. A. (2013). River flow condition and dynamic state analysis of Pahang river. American Journal of Applied Sciences 10 (1): 45-47. 6. Adnan N. A. and Atkinson P.M. (2008). Hydrometeorological trend analysis in a monsoon catchment. 8th annual meeting of the EMS volume 5, EMS2008-A-00368. 7. Jayawardene H. K. W. I, Sonnadara D. U. J. and Jayewardene D.R (2005). Trends of Rainfall in Sri Lanka over the Last Century. Sri Lankan Journal Physic 6: 7-17. 8. Simeonov, V., Stefanov, S. and Tsakovski, S. (2000). Environmetrical Treatment of Water Quality Survey Data from Yantra River, Bulgaria. Microchimica Acta 134: 15–21. 9. Hamilton J. P, Whitelaw G. S. and Fenech A. (2001). Mean annual temperature and annual precipitation trends at Canadian biosphere reserves. Environmental Monitoring and Assessment 67: 239–275. 10. Yue S. and Wang C. (2004). The Mann-Kendall Test Modified by Effective Sample Size to Detect Trend in Serially Correlated Hydrological Series. Water Resources Management 18: 201-18. 11. Jamaludin S. and Sayang M. D. (2010). Trend in Peninsular Malaysia Rainfall Data During The Southwest Monsoon and Northeast Monsoon Season: 1975-2004. Sains Malaysiana 39(4): 533-542. 12. Flood Disaster Archive (2009), National Security Council of Malaysia. 13. Department of Drainage and Irrigation (DID, JPS) Flood Archive (2010). 14. Mann, H. B. (1945). Nonparametric tests against trend. Econometrica 13: 245-259. 15. Kendall, M. G. (1975). Rank Correlation Methods. 4th edition. London: Charles Griffin.
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6965-01-FH02-ESERI-15-04692.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=12658
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12658 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12658 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 1422 762 47 47 2015-12-30 15:47:44 1422x762 6965-01-FH02-ESERI-15-04692.jpg UniSZA Private Access Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall] Malaysian Journal of Analytical Sciences Flood is common in Pahang especially during northeast monsoon season from November to February. Three river cross station: Lubuk Paku, Sg. Yap and Temerloh were selected as area of this study. The stream flow and water level data were gathered from DID record. Data set for this study were analysed by using non-parametric analysis, Mann-Kendall Trend Test. The results that obtained from stream flow and water level analysis indicate that there are positively significant trend for Lubuk Paku (0.001) and Sg. Yap (< 0.05. Temerloh (0.178) data from 1963-2011 recorded no trend for stream flow parameter but negative trend for water level parameter. Hydrological pattern and trend are extremely affected by outside factors such as north east monsoon season that occurred in South China Sea and affected Pahang during November to March. There are other factors such as development and management of the areas which can be considered as factors affected the data and results. Hydrological Pattern is important to indicate the river trend such as stream flow and water level. It can be used as flood mitigation by local authorities. 19 6 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 1327-1334 1. Sulaiman W. N. A, Heshmatpoor A. and Rosli M. H. (2010). Identification of flood source areas in Pahang River Basin Peninsular Malaysia, Environment Asia (special issue) 3: 73-78. 2. Saher F. N, Ali N. M, Abdul Kadir T. A, Teruggi G. and Hossain M. A. (2012). Environmental degradation inMalaysia’s Pahang river basin and its relation with river pollution: strategic plan from assesement to mitigation using geo-informatics. International conference on energy, environment and sustainable development, EEM-25. 3. Jusoh, J. (2005). Hydrological Forecasting of Pahang River basin using the Rainfall-Runoff Model HEC-HMS, Universiti Teknologi Mara. 4. Jabatan Meteorologi Malaysia, JMM. ( 2010). 5. Gasim M. B, Toriman M. E, Idris M, Lun P. I, Kamaruddin M. K. A, Nor Azlina A. A, Mokhtar M, and Sharifah Mastura, M. A. (2013). River flow condition and dynamic state analysis of Pahang river. American Journal of Applied Sciences 10 (1): 45-47. 6. Adnan N. A. and Atkinson P.M. (2008). Hydrometeorological trend analysis in a monsoon catchment. 8th annual meeting of the EMS volume 5, EMS2008-A-00368. 7. Jayawardene H. K. W. I, Sonnadara D. U. J. and Jayewardene D.R (2005). Trends of Rainfall in Sri Lanka over the Last Century. Sri Lankan Journal Physic 6: 7-17. 8. Simeonov, V., Stefanov, S. and Tsakovski, S. (2000). Environmetrical Treatment of Water Quality Survey Data from Yantra River, Bulgaria. Microchimica Acta 134: 15–21. 9. Hamilton J. P, Whitelaw G. S. and Fenech A. (2001). Mean annual temperature and annual precipitation trends at Canadian biosphere reserves. Environmental Monitoring and Assessment 67: 239–275. 10. Yue S. and Wang C. (2004). The Mann-Kendall Test Modified by Effective Sample Size to Detect Trend in Serially Correlated Hydrological Series. Water Resources Management 18: 201-18. 11. Jamaludin S. and Sayang M. D. (2010). Trend in Peninsular Malaysia Rainfall Data During The Southwest Monsoon and Northeast Monsoon Season: 1975-2004. Sains Malaysiana 39(4): 533-542. 12. Flood Disaster Archive (2009), National Security Council of Malaysia. 13. Department of Drainage and Irrigation (DID, JPS) Flood Archive (2010). 14. Mann, H. B. (1945). Nonparametric tests against trend. Econometrica 13: 245-259. 15. Kendall, M. G. (1975). Rank Correlation Methods. 4th edition. London: Charles Griffin.
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| spellingShingle |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| summary |
Flood is common in Pahang especially during northeast monsoon season from November to February. Three river cross station: Lubuk Paku, Sg. Yap and Temerloh were selected as area of this study. The stream flow and water level data were gathered from DID record. Data set for this study were analysed by using non-parametric analysis, Mann-Kendall Trend Test. The results that obtained from stream flow and water level analysis indicate that there are positively significant trend for Lubuk Paku (0.001) and Sg. Yap (< 0.05. Temerloh (0.178) data from 1963-2011 recorded no trend for stream flow parameter but negative trend for water level parameter. Hydrological pattern and trend are extremely affected by outside factors such as north east monsoon season that occurred in South China Sea and affected Pahang during November to March. There are other factors such as development and management of the areas which can be considered as factors affected the data and results. Hydrological Pattern is important to indicate the river trend such as stream flow and water level. It can be used as flood mitigation by local authorities.
|
| title |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| title_full |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| title_fullStr |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| title_full_unstemmed |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| title_short |
Trend analysis of Pahang river using non-parametric analysis: Mann kendall’s trend test [Analisis corak sungai Pahang menggunakan kaedah bukan parametrik: Ujian Mann Kendall]
|
| title_sort |
trend analysis of pahang river using non-parametric analysis: mann kendall’s trend test [analisis corak sungai pahang menggunakan kaedah bukan parametrik: ujian mann kendall]
|