Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia
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| collectionurl | https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 |
| date | 2014-07-07 08:02:15 |
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| id | 10725 |
| institution | UniSZA |
| internalnotes | Alam, M.M.D., C. Siwar, R.I. Molla, M.E. Toriman and B. Talib, 2010. Socioeconomic impacts of climatic change on paddy cultivation: An empirical investigation in Malaysia. J. Knowl. Globalizat., 3: 71-84. Alam, M.MD., M.E. Toriman, C. Siwar and B. Talib, 2011. Rainfall variation and changing pattern of agricultural cycle. Am. J. Environ. Sci., 7: 82-89. DOI: 10.3844/ajessp.2011.82.89. Al-Amin, A.Q. and C. Siwar, 2008. The economic dimensions of climate change: Impacts and adaptation practices in Malaysia. Proceedings of the 9th International Business Research Conference, Nov. 24-26, Novotel Hotel, Melbourne, Australia. Belinda, Y. and K. Leon, 2009. Climate change and urban planning in southeast Asia. S.A.P.I.EN.S., 2: 1-11. Ebrahim, A., M. Khandan, H.R. Bozorgi, S.M. Sadeghi and M. Rezaei, 2009. Response of rice varieties to water limit conditions in North Iran. World Applied Sci. J., 6: 1190-1192. Grist, D.H., 1983. Rice. Longman Group Limited. Singapore National Printers Ltd., Singapore. Groisman, P.Y., T.R. Karl, D.R. Easterling, R.W. Knight and P.F. Jamason, 1999. Changes in the probability of heavy precipitation: Important indicators of climatic change. Climate Change, 42: 243-283. DOI: 10.1023/A: 1005432803188 IADA, 2009a. Integrated agriculture development agency Malaysia. Annual Report, Malaysia. IADA, 2009b. Annual report of crop cutting survey integrated agriculture development agency. Malaysia. ICDC, 2002. Malaysian committee of international commission on irrigation and drainage. Annual Report, Malaysia. Kiyosawa, S. and R. Aimi, 1959. The influence of temperature and shading on the development of the rice panicle. Proc. Crop Sci. Soc. Japan, 27: 417-21. DOI: 10.1626/jcs.27.417 Latif, A.B.I., 1991. The Relationship between water resource and padi cultivation in kedah: A review on the historical perspective. J. Malaysian Stud., 10: 32-43. Mojtaba, R., H.S. Vahed, E. Amiri, M.K. Motamed and E. Azarpour, 2009. The effect of irrigation and nitrogen management on yield and water productivity of rice. World Applied Sci. J., 7: 203-210. NRS, 2001. National response strategies to climate change. Ministry of Science, Technology and the Environment, Malaysia. Peng, S.B., B. Bouman, R.M. Visperas, A. Castaneda and L.X. Nie et al., 2006. Comparison between aerobic and flooded rice in the tropics: Agronomic performance in an eight-season experiment. Field Crops Res., 96: 252-259. DOI: 10.1016/j.fcr.2005.07.007 Penning, D.E.V., 1993. Rice Production and Climate Change. In: Systems Approaches for Agricultural Development, Penning de Vries, F.W.T., P. Teng and K. Metselaar (Eds.), Springer, Dordrecht, ISBN-10: 0792318803, pp: 175-189. Sharfi, P. and A. Hashem, 2010. Evaluation eighteen rice genotypes in cold tolerance at germination stage. World Applied Sci. J., 11: 1476-1480. Shi, Q., X. Zeng, M. Li, X. Tan and F. Xu,2002. Effects of different water management practices on rice growth. Proceedings of a Thematic Workshop on Water-Wise Rice Production, Apr. 8-11, IRRI Headquarters in Los Banos, Philippines. Singh, S., R. Amartalingam, W.S. Wan Harun and M.T. Islam, 1996. Simulated impact of climate change on rice production in Peninsular Malaysia. Proceeding of National Conference on Climate Change, (CCC’ 96), University Putra Malaysia, Serdang, Malaysia, pp: 41-49. Siwar, C., M.M. Alam, M.W. Murad and A.Q. Al-Amin, 2009. A review of the linkages between climate change, agricultural sustainability and poverty in Malaysia. Int. Rev. Bus. Res., 5: 309-321. Solomon, S., 2007. Climate Change 2007: The Physical Science Basis. 1st Edn., Cambridge University Press, New York, ISBN-10: 0521705967, pp: 996. Toriman, M.E., 2010. Assessing environmental flow modeling for water resources management: A Case of Sg. (River) Pelus, Malaysia. Nat. Sci., 8: 74-81. Toriman, M.E., J.J. Pereira, M.B. Gasim, S. S.A. Mastura and N.A.A. Aziz, 2009. Issues of climate change and water resources in peninsular Malaysia: The case of North Kedah. Arab World Geographer, 12: 87-94. Yoshida, S., 1981. Fundamentals of Rice Crop Science. 1st Edn., Int. Rice Res. Inst., Manila, ISBN-10: 9711040522, pp: 269. |
| originalfilename | 4833-01-FH02-ESERI-14-00800.jpg |
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| resourceurl | https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10725 |
| spelling | 10725 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10725 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal UniSZA Unisza unisza image/jpeg inches 96 96 792 83 83 1416 2014-07-07 08:02:15 1416x792 4833-01-FH02-ESERI-14-00800.jpg UniSZA Private Access Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia American Journal of Agricultural and Biological Sciences The North West Selangor Integrated Agriculture Development Agency (NWS-IADA) is the most productive agricultural part in Selangor, Malaysia. This is partly because of the inherent high fertility of the soils and the moderate variable climate. However, with increasing global concern about climate impacts, this article examines relative importance of climate influences on the paddy production rate over 28 years (1980-2008). Data collection involved compiling and analyzing climate records from auxiliary station MARDI, Tg. Karang, Malaysia (Station no. 44325, 24 m M.S.L) at the coordinates of N 03° 27’ 17” E 101° 09’ 24”. The results indicate that the average rainfall recorded is 1, 765 mm which is similar to national rainfall trend. Meanwhile, the daily humidity varied between 94-96% (8.00 AM) and around 70% (2.00 PM) while the sunshine hours ranged between 2.3 to 9.5 h. A correlation analysis between the production yield and climatic data at the studied area for the year 2000-2008, showed that for precipitation; rainfall is redundant during the main season while during the off season it bears direct effect on the production yield with the R2 value of -0.293 and 0.1715, respectively; Sunshine hours and temperature demonstrate their importance to production yield as suggested with their respective R2 values. 9 1 119-126 Alam, M.M.D., C. Siwar, R.I. Molla, M.E. Toriman and B. Talib, 2010. Socioeconomic impacts of climatic change on paddy cultivation: An empirical investigation in Malaysia. J. Knowl. Globalizat., 3: 71-84. Alam, M.MD., M.E. Toriman, C. Siwar and B. Talib, 2011. Rainfall variation and changing pattern of agricultural cycle. Am. J. Environ. Sci., 7: 82-89. DOI: 10.3844/ajessp.2011.82.89. Al-Amin, A.Q. and C. Siwar, 2008. The economic dimensions of climate change: Impacts and adaptation practices in Malaysia. Proceedings of the 9th International Business Research Conference, Nov. 24-26, Novotel Hotel, Melbourne, Australia. Belinda, Y. and K. Leon, 2009. Climate change and urban planning in southeast Asia. S.A.P.I.EN.S., 2: 1-11. Ebrahim, A., M. Khandan, H.R. Bozorgi, S.M. Sadeghi and M. Rezaei, 2009. Response of rice varieties to water limit conditions in North Iran. World Applied Sci. J., 6: 1190-1192. Grist, D.H., 1983. Rice. Longman Group Limited. Singapore National Printers Ltd., Singapore. Groisman, P.Y., T.R. Karl, D.R. Easterling, R.W. Knight and P.F. Jamason, 1999. Changes in the probability of heavy precipitation: Important indicators of climatic change. Climate Change, 42: 243-283. DOI: 10.1023/A: 1005432803188 IADA, 2009a. Integrated agriculture development agency Malaysia. Annual Report, Malaysia. IADA, 2009b. Annual report of crop cutting survey integrated agriculture development agency. Malaysia. ICDC, 2002. Malaysian committee of international commission on irrigation and drainage. Annual Report, Malaysia. Kiyosawa, S. and R. Aimi, 1959. The influence of temperature and shading on the development of the rice panicle. Proc. Crop Sci. Soc. Japan, 27: 417-21. DOI: 10.1626/jcs.27.417 Latif, A.B.I., 1991. The Relationship between water resource and padi cultivation in kedah: A review on the historical perspective. J. Malaysian Stud., 10: 32-43. Mojtaba, R., H.S. Vahed, E. Amiri, M.K. Motamed and E. Azarpour, 2009. The effect of irrigation and nitrogen management on yield and water productivity of rice. World Applied Sci. J., 7: 203-210. NRS, 2001. National response strategies to climate change. Ministry of Science, Technology and the Environment, Malaysia. Peng, S.B., B. Bouman, R.M. Visperas, A. Castaneda and L.X. Nie et al., 2006. Comparison between aerobic and flooded rice in the tropics: Agronomic performance in an eight-season experiment. Field Crops Res., 96: 252-259. DOI: 10.1016/j.fcr.2005.07.007 Penning, D.E.V., 1993. Rice Production and Climate Change. In: Systems Approaches for Agricultural Development, Penning de Vries, F.W.T., P. Teng and K. Metselaar (Eds.), Springer, Dordrecht, ISBN-10: 0792318803, pp: 175-189. Sharfi, P. and A. Hashem, 2010. Evaluation eighteen rice genotypes in cold tolerance at germination stage. World Applied Sci. J., 11: 1476-1480. Shi, Q., X. Zeng, M. Li, X. Tan and F. Xu,2002. Effects of different water management practices on rice growth. Proceedings of a Thematic Workshop on Water-Wise Rice Production, Apr. 8-11, IRRI Headquarters in Los Banos, Philippines. Singh, S., R. Amartalingam, W.S. Wan Harun and M.T. Islam, 1996. Simulated impact of climate change on rice production in Peninsular Malaysia. Proceeding of National Conference on Climate Change, (CCC’ 96), University Putra Malaysia, Serdang, Malaysia, pp: 41-49. Siwar, C., M.M. Alam, M.W. Murad and A.Q. Al-Amin, 2009. A review of the linkages between climate change, agricultural sustainability and poverty in Malaysia. Int. Rev. Bus. Res., 5: 309-321. Solomon, S., 2007. Climate Change 2007: The Physical Science Basis. 1st Edn., Cambridge University Press, New York, ISBN-10: 0521705967, pp: 996. Toriman, M.E., 2010. Assessing environmental flow modeling for water resources management: A Case of Sg. (River) Pelus, Malaysia. Nat. Sci., 8: 74-81. Toriman, M.E., J.J. Pereira, M.B. Gasim, S. S.A. Mastura and N.A.A. Aziz, 2009. Issues of climate change and water resources in peninsular Malaysia: The case of North Kedah. Arab World Geographer, 12: 87-94. Yoshida, S., 1981. Fundamentals of Rice Crop Science. 1st Edn., Int. Rice Res. Inst., Manila, ISBN-10: 9711040522, pp: 269. |
| spellingShingle | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| summary | The North West Selangor Integrated Agriculture Development Agency (NWS-IADA) is the most productive agricultural part in Selangor, Malaysia. This is partly because of the inherent high fertility of the soils and the moderate variable climate. However, with increasing global concern about climate impacts, this article examines relative importance of climate influences on the paddy production rate over 28 years (1980-2008). Data collection involved compiling and analyzing climate records from auxiliary station MARDI, Tg. Karang, Malaysia (Station no. 44325, 24 m M.S.L) at the coordinates of N 03° 27’ 17” E 101° 09’ 24”. The results indicate that the average rainfall recorded is 1, 765 mm which is similar to national rainfall trend. Meanwhile, the daily humidity varied between 94-96% (8.00 AM) and around 70% (2.00 PM) while the sunshine hours ranged between 2.3 to 9.5 h. A correlation analysis between the production yield and climatic data at the studied area for the year 2000-2008, showed that for precipitation; rainfall is redundant during the main season while during the off season it bears direct effect on the production yield with the R2 value of -0.293 and 0.1715, respectively; Sunshine hours and temperature demonstrate their importance to production yield as suggested with their respective R2 values. |
| title | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| title_full | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| title_fullStr | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| title_full_unstemmed | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| title_short | Applying Seasonal Climate Trends To Agricultural Production In Tanjung Karang, Malaysia |
| title_sort | applying seasonal climate trends to agricultural production in tanjung karang, malaysia |