Assessment of Natural Groundwater Recharge in Terengganu, Malaysia

Assessment of Natural Groundwater Recharge in Terengganu, Malaysia

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internalnotes [1] C. P. Kumar and P. V. Seethapathi, “Assessment of natural groundwater recharge in upper Ganga Canal command area,” Journal of Applied Hydrology, vol. 15, pp. 13-20, Oct. 2002. [2] M. K. A. Kamarudin, M. E. Toriman, M. H. Rosli, H. Juahir, A. Azid, S. F. M. Zainuddin, N. A. A. Aziz and W. N. A. Sulaiman, “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, vol. 20, pp. 1319-1334, Dec. 2015. [3] M. S. M. Saudia, H. Juahir, A. Azid, M. K. A. Kamarudin, M. F. Kasim, M. E. Toriman, N. A. A. Aziz, C. N. C. Hasnam and M. S. Samsudin, “Flood risk pattern recognition using chemometric technique: A case study in Kuantan River Basin,” Jurnal Teknologi, vol. 72, pp. 137-141, Dec. 2014. [4] M. K. A. Kamarudin, M. E. Toriman, H. Juahir, A. Azid, M. B. Gasim, A. S. M. Saudi, R. Umar, N. H. Sulaiman, F. M. Ata, A. D. Mustafa, M. A. Amran, W. A. Yusoff and F. Azaman, “Assessment of river plan change using RS and GIS technique,” Jurnal Teknologi, vol. 76, pp. 31-38, Aug. 2015. [5] N. H. Sulaiman, M. K. A. Kamaruddin, A. D. Mustafa, M. A. Amran, F. Azaman, I. Z. Abidin and N. Hairoma, “Trend analysis of Pahang river using non-parametric analysis: Mann Kendall’s trend test,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1327-1334, 2015. [6] S. R. Saghravani, I. Yusoff, S. Mustapha and S. F. Saghravani, “Estimation of groundwater using empirical method: A case study in the tropical zone,” Sains Malaysiana, vol. 42, pp. 553-560, 2013. [7] S. R. Saghravani, S. Mustapha, S. Ibrahim, M. K. Yusoff, M. Azwan and S. F. Saghravani, “Simulation of phosphorus migration in an unconfined aquifer: Universiti Putra Malaysia,” Journal of Environmental Hydrology, vol. 17, pp. 1-8, 2009. [8] A. F. Kamaruddin, M. E. Toriman, H. Juahir, S. M. Zain, M. N. A. Rahman, M. K. A. Kamarudin and A. Azid, “Spatial characterization and identification sources of pollution using multivariate analysis at Terengganu River Basin, Malaysia,” Jurnal Teknologi, vol. 77, pp. 269-273, Oct. 2015. [9] M. E. Toriman, M. B. Gasim, Z. Yusop, I. Shahid, S. A. S. Mastura, P. Abdullah, M. Jaafar, N. A. A. Aziz, M. K. A. Kamarudin, O. Jaafar, O. Karim, H. Juahir and N. R. Jamil, “Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment,” American Journal of Environmental Sciences, vol. 8, pp. 417-423, 2012. [10] A. A. Mohamed, S. A. Rahim, D. A. Aitman and M. K. A. Kamarudin, “Analysis of seasonal soil organic carbon content at Bukit Jeriau Forest, Fraser Hill, Pahang,” Malaysian Journal of Analytical Sciences, vol. 20, pp. 452-460, 2016. [11] M. K. A. Kamarudin, M. E. Toriman, N. H. Sulaiman, F. M. Ata, M. B. Gasim, A. Muhamad, W. A. Yusoff, M. Mokhtar, M. A. Amran and N. A. A. Aziz, “Classification of tropical river using chemometrics technique: Case study in Pahang River, Malaysia,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1001-1018, 2015. [12] M. E. Toriman, L. Q. Yun, M. K. A. Kamarudin, N. A. A. Aziz, M. Mokhtar, R. Elfithri and K. Bhaktiku, “Applying seasonal climate trends to agricultural production in Tanjung Karang, Malaysia,” American Journal of Agricultural and Biological Sciences, vol. 9, pp. 119-126, Jan. 2014. [13] S. A. A. Rashid, M. B. Gasim, M. E. Toriman, H. Juahir, M. K. A. Kamarudin, A. Azid and N. A. A. Aziz, “Water quality deterioration of Jinjang river, Kuala Lumpur: Urban risk case water pollution,” Arab World Geographer, vol. 16, pp. 349-362, Dec. 2014. [14] A. S. M. Saudi, A. Azid, H. Juahir, M. E. Toriman, M. A. Amran, A. D. Mustafa, F. Azaman, M. K. A. Kamarudin and M. M. Saudi, “Flood risk pattern recognition using integrated chemometric method and artificial neural network: A case study in the Johor River Basin,” Jurnal Teknologi, vol. 74, pp. 159-164, Apr. 2015. [15] M. K. A. Kamarudin, M. Idris and M. E. Toriman, “Analysis of Leptobarbus hoevenii in control environment at natural lakes,” American Journal of Agricultural and Biological Science, vol. 8, pp. 142-148, 2013. [16] F. M. Ata, M. E. Toriman and M. K. A. Kamarudin, “Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1084-1092, 2015. [17] A. Ismail, M. E. Toriman, H. Juahir, S. M. Zain, N. L. A. Habir, A. Retnam, M. K. A. Kamarudin, R. Umar and A. Azid, “Spatial assessment and source identification of heavy metals pollution in surface water using several chemometric techniques,” Marine Pollution Bulletin, vol. 106, pp. 292-300, May 2016. [18] W. A. Yusoff, M. Jaafar, M. K. A. Kamarudin and M. E. Toriman, “Land exploration study and water quality changes in Tanah Tinggi Lojing, Kelantan, Malaysia,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 951-959, 2015. [19] M. E. Toriman,, F. M. Ata, M. K. A. Kamarudin and M. Idris, “Bedload sediment profile and effect of river bank erosion on river crosssection,” American Journal of Environmental Sciences, vol. 6, pp. 292- 300, Jul. 2013. [20] A. S. Hameed, T. R. Resmi, S. Suraj, C. U. Warrier, M. Sudheesh and R. D. Deshpande, “Isotopic characterization and mass balance reveals groundwater recharge pattern in Chaliyar river basin, Kerala, India,” Journal of Hydrology: Regional Studies, vol. 4, pp. 48-58, Sep. 2015. [21] S. R. Saghravani, I. Yusoff, Z. Othman, W. Z. W. M. Tahi, “Estimation of natural groundwater recharge using chlorine mass balance in the north Kelantan River catchment” in Proc. MPSGC’12, 2012. [22] C. Zuh, “Estimation of recharge from radio carbon dating of groundwater and numerical flow and transport modeling,” Water Resources Research, vol. 36, pp. 2607-2620, Sep. 2000. [23] R. S. Chaturvedi, “A note on the investigation of groundwater resources in the western district of Uttar Pradesh,” U.P. Irrigation Research Institute, Annual Rep., 1973. [24] C. P. Kumar, “Estimation of natural ground water recharge,” ISH Journal of Hydraulic Engineering, vol. 3, pp. 61-74, Jan. 1977.
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spelling 14746 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=14746 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal application/pdf 7 Adobe Acrobat Pro DC 20 Paper Capture Plug-in with ClearScan 1.6 Acer acer ACER 2024-08-28 21:59:26 7592-01-FH02-ESERI-16-06915.pdf UniSZA Private Access Assessment of Natural Groundwater Recharge in Terengganu, Malaysia International Journal on Advance Science Engineering Information Technology Estimation of groundwater recharge is essential for efficient groundwater resources management, for domestic uses and irrigation purposes in the study area. The present research entails the assessment of natural groundwater recharge in Terengganu Malaysia. Estimation of recharge by whatever method is usually subjected to a large uncertainty and errors. However, this research attempt to derive an empirical relationship to determine the groundwater recharge from rainfall based on seasonal groundwater balance studies using the data obtained from 2000-2001 to 2011-2012. This empirical relationship similar to Chaturvedi formula was derived by fitting the estimated values of rainfall recharge, and the corresponding values of rainfall in the monsoon season through the non-linear regression techniques. The result shows that the proportion of variance explained was found to be 89.52 %, the recharge of groundwater commences at P = 15.28 inches and the relative errors was found to range from 3.680 to 46.020%. 6 5 781-786 [1] C. P. Kumar and P. V. Seethapathi, “Assessment of natural groundwater recharge in upper Ganga Canal command area,” Journal of Applied Hydrology, vol. 15, pp. 13-20, Oct. 2002. [2] M. K. A. Kamarudin, M. E. Toriman, M. H. Rosli, H. Juahir, A. Azid, S. F. M. Zainuddin, N. A. A. Aziz and W. N. A. Sulaiman, “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, vol. 20, pp. 1319-1334, Dec. 2015. [3] M. S. M. Saudia, H. Juahir, A. Azid, M. K. A. Kamarudin, M. F. Kasim, M. E. Toriman, N. A. A. Aziz, C. N. C. Hasnam and M. S. Samsudin, “Flood risk pattern recognition using chemometric technique: A case study in Kuantan River Basin,” Jurnal Teknologi, vol. 72, pp. 137-141, Dec. 2014. [4] M. K. A. Kamarudin, M. E. Toriman, H. Juahir, A. Azid, M. B. Gasim, A. S. M. Saudi, R. Umar, N. H. Sulaiman, F. M. Ata, A. D. Mustafa, M. A. Amran, W. A. Yusoff and F. Azaman, “Assessment of river plan change using RS and GIS technique,” Jurnal Teknologi, vol. 76, pp. 31-38, Aug. 2015. [5] N. H. Sulaiman, M. K. A. Kamaruddin, A. D. Mustafa, M. A. Amran, F. Azaman, I. Z. Abidin and N. Hairoma, “Trend analysis of Pahang river using non-parametric analysis: Mann Kendall’s trend test,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1327-1334, 2015. [6] S. R. Saghravani, I. Yusoff, S. Mustapha and S. F. Saghravani, “Estimation of groundwater using empirical method: A case study in the tropical zone,” Sains Malaysiana, vol. 42, pp. 553-560, 2013. [7] S. R. Saghravani, S. Mustapha, S. Ibrahim, M. K. Yusoff, M. Azwan and S. F. Saghravani, “Simulation of phosphorus migration in an unconfined aquifer: Universiti Putra Malaysia,” Journal of Environmental Hydrology, vol. 17, pp. 1-8, 2009. [8] A. F. Kamaruddin, M. E. Toriman, H. Juahir, S. M. Zain, M. N. A. Rahman, M. K. A. Kamarudin and A. Azid, “Spatial characterization and identification sources of pollution using multivariate analysis at Terengganu River Basin, Malaysia,” Jurnal Teknologi, vol. 77, pp. 269-273, Oct. 2015. [9] M. E. Toriman, M. B. Gasim, Z. Yusop, I. Shahid, S. A. S. Mastura, P. Abdullah, M. Jaafar, N. A. A. Aziz, M. K. A. Kamarudin, O. Jaafar, O. Karim, H. Juahir and N. R. Jamil, “Use of 137Cs activity to investigate sediment movement and transport modeling in river coastal environment,” American Journal of Environmental Sciences, vol. 8, pp. 417-423, 2012. [10] A. A. Mohamed, S. A. Rahim, D. A. Aitman and M. K. A. Kamarudin, “Analysis of seasonal soil organic carbon content at Bukit Jeriau Forest, Fraser Hill, Pahang,” Malaysian Journal of Analytical Sciences, vol. 20, pp. 452-460, 2016. [11] M. K. A. Kamarudin, M. E. Toriman, N. H. Sulaiman, F. M. Ata, M. B. Gasim, A. Muhamad, W. A. Yusoff, M. Mokhtar, M. A. Amran and N. A. A. Aziz, “Classification of tropical river using chemometrics technique: Case study in Pahang River, Malaysia,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1001-1018, 2015. [12] M. E. Toriman, L. Q. Yun, M. K. A. Kamarudin, N. A. A. Aziz, M. Mokhtar, R. Elfithri and K. Bhaktiku, “Applying seasonal climate trends to agricultural production in Tanjung Karang, Malaysia,” American Journal of Agricultural and Biological Sciences, vol. 9, pp. 119-126, Jan. 2014. [13] S. A. A. Rashid, M. B. Gasim, M. E. Toriman, H. Juahir, M. K. A. Kamarudin, A. Azid and N. A. A. Aziz, “Water quality deterioration of Jinjang river, Kuala Lumpur: Urban risk case water pollution,” Arab World Geographer, vol. 16, pp. 349-362, Dec. 2014. [14] A. S. M. Saudi, A. Azid, H. Juahir, M. E. Toriman, M. A. Amran, A. D. Mustafa, F. Azaman, M. K. A. Kamarudin and M. M. Saudi, “Flood risk pattern recognition using integrated chemometric method and artificial neural network: A case study in the Johor River Basin,” Jurnal Teknologi, vol. 74, pp. 159-164, Apr. 2015. [15] M. K. A. Kamarudin, M. Idris and M. E. Toriman, “Analysis of Leptobarbus hoevenii in control environment at natural lakes,” American Journal of Agricultural and Biological Science, vol. 8, pp. 142-148, 2013. [16] F. M. Ata, M. E. Toriman and M. K. A. Kamarudin, “Impact of interception on infiltration and soil moisture in dipterocarp forest and oil palm plantations in Tasik Chini, Pahang,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 1084-1092, 2015. [17] A. Ismail, M. E. Toriman, H. Juahir, S. M. Zain, N. L. A. Habir, A. Retnam, M. K. A. Kamarudin, R. Umar and A. Azid, “Spatial assessment and source identification of heavy metals pollution in surface water using several chemometric techniques,” Marine Pollution Bulletin, vol. 106, pp. 292-300, May 2016. [18] W. A. Yusoff, M. Jaafar, M. K. A. Kamarudin and M. E. Toriman, “Land exploration study and water quality changes in Tanah Tinggi Lojing, Kelantan, Malaysia,” Malaysian Journal of Analytical Sciences, vol. 19, pp. 951-959, 2015. [19] M. E. Toriman,, F. M. Ata, M. K. A. Kamarudin and M. Idris, “Bedload sediment profile and effect of river bank erosion on river crosssection,” American Journal of Environmental Sciences, vol. 6, pp. 292- 300, Jul. 2013. [20] A. S. Hameed, T. R. Resmi, S. Suraj, C. U. Warrier, M. Sudheesh and R. D. Deshpande, “Isotopic characterization and mass balance reveals groundwater recharge pattern in Chaliyar river basin, Kerala, India,” Journal of Hydrology: Regional Studies, vol. 4, pp. 48-58, Sep. 2015. [21] S. R. Saghravani, I. Yusoff, Z. Othman, W. Z. W. M. Tahi, “Estimation of natural groundwater recharge using chlorine mass balance in the north Kelantan River catchment” in Proc. MPSGC’12, 2012. [22] C. Zuh, “Estimation of recharge from radio carbon dating of groundwater and numerical flow and transport modeling,” Water Resources Research, vol. 36, pp. 2607-2620, Sep. 2000. [23] R. S. Chaturvedi, “A note on the investigation of groundwater resources in the western district of Uttar Pradesh,” U.P. Irrigation Research Institute, Annual Rep., 1973. [24] C. P. Kumar, “Estimation of natural ground water recharge,” ISH Journal of Hydraulic Engineering, vol. 3, pp. 61-74, Jan. 1977.
spellingShingle Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
summary Estimation of groundwater recharge is essential for efficient groundwater resources management, for domestic uses and irrigation purposes in the study area. The present research entails the assessment of natural groundwater recharge in Terengganu Malaysia. Estimation of recharge by whatever method is usually subjected to a large uncertainty and errors. However, this research attempt to derive an empirical relationship to determine the groundwater recharge from rainfall based on seasonal groundwater balance studies using the data obtained from 2000-2001 to 2011-2012. This empirical relationship similar to Chaturvedi formula was derived by fitting the estimated values of rainfall recharge, and the corresponding values of rainfall in the monsoon season through the non-linear regression techniques. The result shows that the proportion of variance explained was found to be 89.52 %, the recharge of groundwater commences at P = 15.28 inches and the relative errors was found to range from 3.680 to 46.020%.
title Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
title_full Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
title_fullStr Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
title_full_unstemmed Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
title_short Assessment of Natural Groundwater Recharge in Terengganu, Malaysia
title_sort assessment of natural groundwater recharge in terengganu, malaysia

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