Hi, I am Qurban Ali Panhwar, My LiveDNA is 60.6624
Dr. Qurban Ali Panhwar
Highest Degree: Ph.D. in Soil Microbial Biotechnology from Universiti Putra Malaysia, Malaysia
Institute: Universiti Putra Malaysia, Malaysia
Area of Interest: Plant and Soil Sciences
  •   Soil Fertility
  •   Soil Microbiology
  •   Biotechnology
  •   Biofertilizer
URL: http://livedna.org/60.6624
My SELECTED Publications
1:   25. Zulkarami, B., I.M. Razi, M.S. Halimi, M.A. Mondal, Q.A. Panhwar and M.R. Islam, 2014. Effectiveness of different phytohormones on grain filling and yield of rice (Oryza sativa L.) under drought stress. J Food Agric. Environ., 12: 697-700.
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2:   Abdirahmann, M.M., J. Shamsuddin, S.C.T. Boon, W.P.E. Megat and P.Q. Ali, 2014. Effects of drip irrigation frequency, fertilizer sources and their interaction on the dry matter and yield components of sweet corn. Aust. J. Crop Sci., 8: 223-231.
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3:   Ali, P.Q., O. Radziah, M. Sariah and I.M. Razi, 2009. Solubilization of different phosphate forms by phosphate solubilizing bacteria isolated from aerobic rice. Int. J. Agric. Biol., 11: 667-673.
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4:   Ali, P.Q., R. Othman, N.U. Aminun, Z.A. Rehman and R.M. Ismail et al., 2013. Effect of phosphate-solubilizing bacteria and oxalic acid on phosphate uptake from different P fractions and growth improvement of aerobic rice using 32P technique. Aust. J. Crop Sci., 7: 1131-1140.
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5:   Aminun, N.U., O. Radziah, Panhwar and Q. Ali, 2013. Culturable total and beneficial microbial occurrences in long-term nutrient deficit wetland rice soil. Aust. J. Crop Sci., 7: 1848-1853.
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6:   Aminun, N.U., S.M. Abu, P.Q. Ali, R. Othman and J. Shamsuddin, 2011. Techniques of efficient fertilizer management for wetland rice - a review. Aust. J. Crop Sci., 5: 1661-1669.
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7:   Bah, A., M.H.A. Husni, C.B.S. Teh, M.Y, Rafii. Q.A, Panhwar and M.Z. Norasma, 2014. Dry Matter Accumulation and Yield of Sweet Corn in Response to Conventional and Controlled-release Fertilizers Application under Different Tillage Practices. Pedosphere, .
8:   Fauzihan, K.M., A.R. A'fifah, M.I. Razi, O. Radziah and M.S. Halimi et al., 2013. Growth promotion and biochemical activities of Capsicum annum using Azospirillum brasilense under deficit fertigation. Jokull J., 63: 106-136.
9:   Hasan, Z., U.K. Nath, U.A. Naher, Q.A. Panhwar, and M.I. Razi, 2014. Crossability, heterosis and genetic study of salinity tolerance indigenous and modern rice cultivars. Res. J. Biotech., 9: 72-78.
10:   Jusop, S., A.A. Rahim, R.A. Bakar, Q.A. Panhwar and M.A. Rabileh, 2013. Early root growth of maize seedlings in nutrient solution as affected by Al3+ and H+ stress. Jokull J., 63: 48-71.
11:   Kabir, M.M., U.A. Naher, Q.A. Panhwar, J. Shamshuddin and F.H. Khan, 2014. Effect of Transplanting Dates on Growth and Yield of Inbred and Hybrid Rice Varieties Grown During Rainfed Season in Bangladesh. Philippine Agric. Sci., 97: 347-354.
12:   Karbalaei Aghamolki, M.T., M.Y. Khanif, F.C. Oad, Z.J. Hawa, S. Kharidah, M.M. Hanafi and Q.A. Panhwar, 2014. Growth and yield parameters of various rice cultivars as affected by transplanting dates. Rom. J. Agri. Res., .
13:   Mofijul Islam, S.M., A. Khatun, U.A.Naher, A. Saleque, Q.A. Panhwar and O. Radziah, 2014. Response of rice to applied nitrogen in non-saline tidal flooded ecosystem. Can. J. Plant Sci., .
14:   Muhumed, M.A., S. Jusop, C.T.B. Sung, P.E.M. Wahab and Q.A. Panhwar, 2014. Influence of NPK fertilizer rates and irrigation frequencies on the biomass and yield components of sweet corn (Zea mays L.). J. Food Agric. Environ., 12: 1308-1313.
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15:   Naher, U.A., O. Radziah and Q.A. Panhwar, 2013. Biofertilizer for Improved Plant Growth and Soil Fertility. In: Advances in tropical soil science, Hamdan, J. and J. Shamshuddin (Ed.). Springer, Malaysia, pp: 229-244.
16:   Naher, U.A., R. Othman and Q.A. Panhwar, 2013. Beneficial effects of mycorrhizal association for crop production in the tropics-A review. Int. J. Agric. Biol., 15: 1021-1028.
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17:   Naher, U.A., R. Othman, M.A. Latif, Q.A. Panhwar and P.A. Amaddin et al., 2013. Biomolecular characterization of diazotrophs isolated from the tropical soil in Malaysia. Int. J. Mol. Sci., 14: 17812-17829.
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18:   Nuraini, A., O. Radziah, M.S. Halimi, U.A. Naher and Q.A. Panhwar, 2014. Effect of Nitrogen on Nitrogenase Activity of Diazotrophs and Total Bacterial Population in Rice Soil. J. Animal Plant Sci., .
19:   Othman, R. and Q.A. Panhwar, 2014. Phosphate-Solubilizing Bacteria Improves Nutrient Uptake in Aerobic Rice. In: Phosphate Solubilizing Microorganisms: Principles and Application of Microphos Technology, Khan, M.S., A. Zaidi and J. Musarrat (Eds.). Chapter 9 Springer International Publishing, Switzerland, ISBN: 978-3-319-08215-8, pp: 207-224.
20:   Panhwar, Q.A., A. Rajput, U.A. Naher and J. Shamshuddin, 2014. Evaluation of different application methods and rates of phosphorus fertilizer on wheat growth, yield and phosphorus fertilizer use efficiency in calcareous soil. J. Food Agri. Environ., 12: 1318-1322.
21:   Panhwar, Q.A., J. Shamshuddin, U.A. Naher and O. Radziah, 2013. Phosphate Solubilization Mechanisms in Soil by Phosphate-Solubilizing Bacteria. In: Advances in Tropical Soil Science, Hamdan, J. and J. Shamshuddin (Ed.). Springer, Malaysia, pp: 149-168.
22:   Panhwar, Q.A., J. Shamshuddin, U.A. Naher, O. Radziah and I. Mohd Razi, 2014. Changes in the chemical properties of an acid sulfate soil and the growth of rice as affected by bio-fertilizer, ground magnesium limestone and basalt application. Pedosphere, 24: 827-835.
23:   Panhwar, Q.A., J. Shamshuddin, U.A. Naher, O. Radziah and I.M. Razi, 2014. Biochemical and molecular characterization of potential phosphate-solubilizing bacteria in acid sulfate soils and their beneficial effects on rice production. PLOS One, Vol. 9, No. 10. 10.1371/journal.pone.0097241.
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24:   Panhwar, Q.A., O. Radziah, A.R. Zaharah, M. Sariah and I.M. Razi, 2010. Phosphate solubilization and growth enhancement of aerobic rice by phosphate solubilizing bacteria. Proceedings of National Rice Conference on Strengthening Food Security Through Sustainable Rice Production, June, 28-30, 2010, Swiss Garden Golf Resort and Spa Damai Laut, Lumut, Perak, Malaysai, pp: 288-291.
25:   Panhwar, Q.A., O. Radziah, A.R. Zaharah, M. Sariah and I.M. Razi, 2010. Selection and characterization of phosphate solubilizing bacteria from aerobic rice. Proceedings of International Conference on Balanced Nutrient Management for Tropical Agriculture, April 12-16, 2010, Kuantan, Pahang Malaysia, pp: 81-84.
26:   Panhwar, Q.A., O. Radziah, A.R. Zaharah, M. Sariah and I.M. Razi, 2011. Role of phosphate solubilizing bacteria on rock phosphate solubility and growth of aerobic rice. J. Environ. Biol., 32: 607-612.
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27:   Panhwar, Q.A., O. Radziah, A.R. Zaharah, M. Sariah, I.M. Razi and G.M. Jamro, 2010. Improving the solubility of rock phosphate in aerobic rice by using phosphate solubilizing bacteria. Proceedings of the 13th Congress of Soil Science on Efficient Resource Management for Sustainable Agriculture, March 24-27, 2010, Soil Science Society of Pakistan, pp: 253-.
28:   Panhwar, Q.A., O. Radziah, A.Z. Rahman, M. Sariah and I.M. Razi et al., 2011. Contribution of phosphate-solubilizing bacteria in phosphorus bioavailability and growth enhancement of aerobic rice. Spanish J. Agric. Res., 9: 810-820.
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29:   Panhwar, Q.A., O. Radziah, U.A. Naher and J. Shamshuddin, 2013. Effect of phosphate-solubilizing bacteria and organic acid on P solubilization from phosphate rock in aerobic rice. Scient. World J. 10.1155/2013/272409.
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30:   Panhwar, Q.A., O. Radziah, U.A. Naher, A.R. Zaharah and M. Sariah et al., 2012. Root colonization and association of phosphate-solubilizing bacteria at various levels of triple supper phosphate in aerobic rice seedlings. Afr. J. Microbiol. Res., 6: 2277-2286.
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31:   Panhwar, Q.A., O. Radziah, Y.M. Khanif and U.A. Naher, 2011. Application of boron and zinc in the tropical soils and its effect on maize (Zea mays) growth and soil microbial environment. Aust. J. Crop Sci., 5: 1649-1654.
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32:   Panhwar, Q.A., R. Othman, Z.A. Rahman, S. Meon and M.R. Ismail, 2012. Isolation and characterization of phosphate-solubilizing bacteria from aerobic rice. Afr. J. Biotechnol., 11: 2711-2719.
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33:   Panhwar, Q.A., U.A. Naher, J. Shamshuddin, O. Radziah and I. Mohd Razi, 2014. Understanding the molecular basis of Amelioration of Al toxicity by additions of plant growth promoting bacteria in rice plants through protein profiling. Proteomics, .
34:   Panhwar, Q.A., U.A. Naher, O. Radziah, J. Shamshuddin and I.M. Razi, 2015. Eliminating Aluminum Toxicity in an Acid Sulfate Soil for Rice Cultivation Using Plant Growth Promoting Bacteria. Mol., 20: 3628-3646.
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35:   Panhwar, Q.A., U.A. Naher, O. Radziah, J. hamshuddin, I, Mohd Razi, S.S. Dipti and M.T. K. Aghamolki, 2015. Applying Zn, Cu and Mo in to riverine alluvial soils in Malaysia: Their effects on the quality of rice and its antioxidant activities. S. Afr. J. Bot., 98: 77-83.
36:   Rabileh, M.A., J. Shamshuddin, A.R. Anuar, A.B. Rosenani and Q.A. Panhwar, 2015. Changes in the Chemical Properties of an Ultisol and the Growth of Maize as Affected by the Application of Biochar and/or Ground Magnesium Limestone. Can. J. Soil Sci., 95: 37-47.
37:   Radziah, O., U.A. Naher, Q.A. Panhwar and A.M. Asilah, 2011. Potential of microbes as N and P biofertilizer in rice cultivation. In: Advances in tropical soil science, Hamdan, J. and J. Shamshuddin (Ed.). Springer, Malaysia, Pp: 210-239.
38:   Rajput, A., Q.A. Panhwar, U.A. Naher, S. Rajput and E. Hossain et al., 2014. Influence of incubation period, temperature and different phosphate levels on phosphate adsorption in soil. Am. J. Agric. Biol. Sci., 9: 251-260.
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39:   Shah, A.L., U.A. Naher, S.M.M. Islam, Z. Hasan, Q.A. Panhwar and J. Shamshuddin, 2013. Occurrence of arsenic in soils, groundwater and rice plants in selected districts of Bangladesh. Jokull J., 63: 122-131.
40:   Shah, A.L., U.A. Naher, Z. Hasan, S.M.M. Islam, M.S. Rahaman, Q.A. Panhwar and J. Shamshuddin, 2014. Managing arsenic in contaminated irrigation water of Bangladesh for rice cultivation. Pertanika J. Trop. Agric. Sci., .
41:   Shamshuddin, J., A.A. Elisa, M.A.R.S. Shazana and Q.A. Panhwar, 2013. Can Rice be Grown Sustainably on Acid Sulfate Soils in Malaysia? In: Advances in tropical soil science, Hamdan, J. and J. Shamshuddin (Ed.). Springer, Malaysia, pp: 39-54.
42:   Shamshuddin, J., A.E. Azura, M.A.R.S. Shazana, C.I. Fauziah, Q.A. Panhwar and U.A. Naher, 2014. Properties and management of acid sulfate soils in Southeast Asia for sustainable cultivation of rice, oil palm and cocoa. Adv. Agron., 124: 91-142.
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43:   Shamshuddin, J., M.A.R.S. Shazana, A.A. Elisa, C.I. Fauziah and Q.A. Panhwar, 2014. Improving the productivity of Acid Sulfate Soils for Rice Cultivation using Limestone, Basalt, Organic Matter and/or their Combinations. Pak. J. Agri. Sci., .
44:   Shamshuddin, J., M.S.K.E. Kang, C.I. Fauziah and Q.A. Panhwar, 2013. On the pyritization of the coastal sediments in the malay peninsula during the holocene and its effects on soil productivity. Malaysian J. Soil Sci., 17: 1-15.
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45:   Shamshuddin, J., Q.A. Panhwar, F.J. Alia, M.A.R.S. Shazana, O. Radziah, and C.I. Fauziah, 2014. Pertanika Journal of Tropical Agricultural Science. Pertanika J. Trop. Agric. Sci., .
46:   Shazana, M.A.R., J. Shamshuddin, C.I. Fauziah, Q.A. Panhwar and U.A. Naher, 2014. Effects of applying ground basalt with or without organic fertilizer on the fertility of an acid sulfate soil and the growth of rice. Malaysian J. Soil Sci., 18: 87-102.
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47:   Zulkarami, B., Q.A. Panhwar, M.S. Halimi, M.A. Mondal, I.M. Razi, U.A. Naher and R. Islam, 2014. Rice yield improvement by foliar application of phytohormone. J. Food Agric. Environ., 12: 399-404.
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