Common Wild Rice (Oryza rufipogon Griff.) and Some Tropical Rice (Oryza sativa L.) Varieties Response to Inorganic Phosphorus Application
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phosphorus lowland rice upland rice common wild rice
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Abstract
Abstract This study aimed to evaluate the effect of phosphorus on the shoot and root morphology ofcommon wild rice (Oryza rufipogon Griff.) and tropical cultivated rice varieties (O. sativa L.) asupland rice (Sew Mae Jan) and lowland rice (KDML105, RD7 and IR68144) under 2 levels ofinorganic phosphorus application (0 ppm Pi and 10 ppm Pi) 45 days after planting.It was revealed that phosphorus availability clearly affected both rice shoot and root systemexcepted the primary root length. The rice varieties had different numbers of leaves/plant andsenescing leaves/plant, plant height, dry shoot weight and root length. Pi-dependency value showedRD 7 and O. rufipogon had responded to Pi application when leaf number and dry shoot weightaccumulation were assessed. Sew Mae Jan had higher dry shoot weight than other rice varieties, but ithad low tillering and responded to Pi-application compared with those varieties.
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Na Chiangmai, P., & Yodmingkhwan, P. (2013). Common Wild Rice (Oryza rufipogon Griff.) and Some Tropical Rice (Oryza sativa L.) Varieties Response to Inorganic Phosphorus Application. Science, Engineering and Health Studies, 4(1), 36–46. https://doi.org/10.14456/sustj.2010.4
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Research Articles
References
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Anghinoni, I. and Barber, S. A. (1980). Phosphorus influx and growth characteristic of corn roots as influenced by phosphorus supply. Agronomy Journal, 72: 685-688.
Buresh, R. J., Smithson, P. C., and Hellums, D. T. (1997). Building soil phosphorus capital in Africa. p.111-149. In R. J. Buresh et al. (ed.) Replenishing soil fertility in Africa. SSSA Spec. Publ. 51. SSSA and ASA, Madison. WT.
Bergmann, W. (1992). Nutritional disorder of plant, development visual and analytical disgnosis, Jena: Gustav Fischer.
Chitrakorn, S. (1995). Charaterization, evaluation and utilization of wild rice germplasm in Thailand. Pathum Thani Rice Research Center, Thailand Rice Research Institute, Bangkok.
Claassen, N. and Jungk, A. (1984). Effect of K uptake rate, root growth and root hairs on potassium uptake efficiency of several plant species. Z. Pflanzenernahr. Bodenkd, 147: 276-289.
Craigmiles, J. P. (1978). Red rice, research and control. Texas Agricultural Experimental Station Bulletin, 1270: 5-6.
Dobermann, A. and Fairhurst, T. (2000). Rice: Nutrient disorders and nutrient management. Potash and Phosphate Inst. (PPI), Potash and Phosphate Inst. of Canada (PPIC), and International Rice Research Institute (IRRI), Singapore and Los Banos.
Eleftherohorinos, I. G., Dhima, K. V., and Vasilakoglou, I. B. (2002). Interference of red rice in rice grown in Greece. Weed Science, 50: 167-172.
Fairhurst, T., Lefroy, R., Mutert, E., and Batjes, N. (1999). The importance, distribution and causes of phosphorus deficiency as a constraint to crop production in the tropics. Agroforestry Forum, 9: 2-8.
Federici, M. T., Vaughan, D., Tomooka, N., Kaga, A., Wang, X. W., Doi, K., Francis, M., Zorrilla, G., and Saldain, N. (2001). Analysis of Uruguayan weedy rice genetic diversity using AFLP molecular markers. Electronic Journal of Biotechnology, 4(3): 130-145.
Fredeen, A. L., Rao, I. M., and Terry, N. (1989). Influence of phosphorus nutrition on growth and carbon partitioning of Glycine max. Plant Physiology, 89: 225-230.
George, T., Magbanua, R., Roder, W., Keer, K. V., Trebuil, G., and Reoma, V. (2001). Upland rice response to phosphorus fertilization in Asia. Agronomy Journal, 93: 1362-1370.
Gregorio, G. B., Senadhira, D., Mendoza, R. D., Manigbas, N. L., Roxas, J. P., and Guerta, C. Q. (2002). Progress in breeding for salinity tolerance and related abiotic stresses in rice. Field Crops Research, 76: 91-101
Gutierrez-Boem, F. H. and Thomas, G. W. (1998). Phosphorus nutrition affects wheat response to water deficit. Agronomy Journal, 90: 166-171.
Hall, S. M. and Baker, D. A. (1972). The chemical composition of Ricinus phloem exudates. Planta, 106:131-140.
Itoh, S. and Barber, S. A. (1983). Phosphorus uptake by six plant species as related to root hairs. Agronomy Journal, 75: 457-461.
Jamjod, S., Maneechote, C., Nirantrayakul, S., and Rerkasem, B. (2005). The good and bad gene flow in the rice landscape. In The International Symposium on Diversity, Management, Protection and Utilization of Local Rice Germplasm. Chiang Mai, Thailand.
Jeschke, W. D., Kirkby, E. A., Peuke, A. D., Pate, J. S., and Hartung, W. (1997). Effects of P deficiency on accumulation and transport of nitrate and phosphate in intact plants of castor bean (Ricinus communis).
Journal of Experimental Botany, 48: 75-91.
Kirk, G. J., George, D. T., Courtois, B., and Senadhira, D. (1998). Opportunities to improves phosphorus efficiency and soil fertility in rainfed lowland and upland rice ecosystems. Field Crops Research, 56: 73-92.
Mengel, K. and Kirkby, E. A. (2001). Phosphorus. In Principles of plant nutrition. 5th Edition. Netherlands: Kluwer Academic Publishers.
Morishima, H., Hinata, K., and Oka, H. I. (1963). Comparison of modes of evolution of cultivated forms from two wild rice species, Oryza breviligulata and O. perennis. Evolution, 17: 170-181.
Oka, H. I. (1988). Origin of cultivated rice. Tokyo: Janpan Scientific Societies Press and Elsevier.
Punyalue, A., Rerkasem, B., and Jamjod, S. (2006). Genetic diversity of common wild rice collected from various regions of Thailand. Journal of Agriculture, 22(1): 21-25.
Rao, I. M. and Terry, N. (1989) Phosphate status, photosynthesis and carbon partitioning in sugar beet. I. Changes in growth, gas exchange and Calvin cycle enzymes. Plant Physiology, 90: 14-819.
Roder, W., Phengchanh, S., and Keoboulapha, B. (1995). Relationships between soil, fallow period, weeds and rice yield in slash-and-burn systems of Laos, Plant Soil, 176: 27-36.
Roschevicz, R. J. (1931). A contribution to the knowledge of rice. Appl. Bot. Genet. Plant Breeding, 27(4): 1-133.
Slaton, N. A., Wilson, C. E., Norman, R. J., Ntamatungiro, S., and Frizzell, D. L (2002). Rice response to phosphorus fertilizer application rate and timing on alkaline soils in Arkansas. Agronomy Journal, 94: 1393-1399.
Smith, R. J., Flinchum, W. T., and Seaman, D. E. (1977). Weed control in US rice production. U S Department of Agriculture Agriculture Handbook, 497: 78.
Sun, C. Q., Wang, X. K., Yushimura, A., and Iwata, N. (2000). Study on the genetic diversity of common wild rice (O. rufipogon Griff.) and cultivated rice (O. sativa L.) by RFLP analysis. Acta Genetica Sinica, 27(3): 227-234.
Thang, D. H., Jamjod, S., and Rerkasem, B. (2006). Responses of rice to low P supply in alternate aerated and stagnant solution culture. Chiangmai Journal: 21-35.
Ticchiati, V., Sgattoni, S., Aloi, C., and Mallengi, C. (1996). Red rice (Oryza sativa) control in Italian paddy rice. In Proceedings of the Second International Weed Control Congress. Denmark: Copenhagen.
Van, K. K., Trebuil, G., and Goze, E. (2000). Identifying and grading limiting factors of upland rice yields in farmers’s fields of northern Thailand. Institute Rice Research Notes, 25: 32-33.
Vaughan, L. K., Ottis, B. V., Prazak-Havey, A. M., Sneller, C., Chandler, J. M., and Park, W. D. (2001). Is all red rice found in commercial rice really Oryza sativa? Weed Science, 49: 468-476.
Walker, D. A. (1980). Regulation of starch synthesis in leaves-the role of orthophosphate. In Physiological Aspects of Crop Productivity. Pp. 195-207. The International Potash Institute, Bern.
Yoshida, S., Forno, D., Cock, J., and Comez, A. K. (1976). Laboratory Manual for Physiological Studies of Rice. The international rice research institute. 3rd edition.
Zhou, S. X., Tian, F., Zhu, Z. F., Fu, Y. C., Wang, X. K., and Sun, C. Q. (2006). Identification of quantitative trait loci controlling drought tolerance at seeding stage in Chinese Dongxiang common wild rice (Oryza rufipogon Griff.) Acta Genetica Sinica, 33(6): 551-558.
Anghinoni, I. and Barber, S. A. (1980). Phosphorus influx and growth characteristic of corn roots as influenced by phosphorus supply. Agronomy Journal, 72: 685-688.
Buresh, R. J., Smithson, P. C., and Hellums, D. T. (1997). Building soil phosphorus capital in Africa. p.111-149. In R. J. Buresh et al. (ed.) Replenishing soil fertility in Africa. SSSA Spec. Publ. 51. SSSA and ASA, Madison. WT.
Bergmann, W. (1992). Nutritional disorder of plant, development visual and analytical disgnosis, Jena: Gustav Fischer.
Chitrakorn, S. (1995). Charaterization, evaluation and utilization of wild rice germplasm in Thailand. Pathum Thani Rice Research Center, Thailand Rice Research Institute, Bangkok.
Claassen, N. and Jungk, A. (1984). Effect of K uptake rate, root growth and root hairs on potassium uptake efficiency of several plant species. Z. Pflanzenernahr. Bodenkd, 147: 276-289.
Craigmiles, J. P. (1978). Red rice, research and control. Texas Agricultural Experimental Station Bulletin, 1270: 5-6.
Dobermann, A. and Fairhurst, T. (2000). Rice: Nutrient disorders and nutrient management. Potash and Phosphate Inst. (PPI), Potash and Phosphate Inst. of Canada (PPIC), and International Rice Research Institute (IRRI), Singapore and Los Banos.
Eleftherohorinos, I. G., Dhima, K. V., and Vasilakoglou, I. B. (2002). Interference of red rice in rice grown in Greece. Weed Science, 50: 167-172.
Fairhurst, T., Lefroy, R., Mutert, E., and Batjes, N. (1999). The importance, distribution and causes of phosphorus deficiency as a constraint to crop production in the tropics. Agroforestry Forum, 9: 2-8.
Federici, M. T., Vaughan, D., Tomooka, N., Kaga, A., Wang, X. W., Doi, K., Francis, M., Zorrilla, G., and Saldain, N. (2001). Analysis of Uruguayan weedy rice genetic diversity using AFLP molecular markers. Electronic Journal of Biotechnology, 4(3): 130-145.
Fredeen, A. L., Rao, I. M., and Terry, N. (1989). Influence of phosphorus nutrition on growth and carbon partitioning of Glycine max. Plant Physiology, 89: 225-230.
George, T., Magbanua, R., Roder, W., Keer, K. V., Trebuil, G., and Reoma, V. (2001). Upland rice response to phosphorus fertilization in Asia. Agronomy Journal, 93: 1362-1370.
Gregorio, G. B., Senadhira, D., Mendoza, R. D., Manigbas, N. L., Roxas, J. P., and Guerta, C. Q. (2002). Progress in breeding for salinity tolerance and related abiotic stresses in rice. Field Crops Research, 76: 91-101
Gutierrez-Boem, F. H. and Thomas, G. W. (1998). Phosphorus nutrition affects wheat response to water deficit. Agronomy Journal, 90: 166-171.
Hall, S. M. and Baker, D. A. (1972). The chemical composition of Ricinus phloem exudates. Planta, 106:131-140.
Itoh, S. and Barber, S. A. (1983). Phosphorus uptake by six plant species as related to root hairs. Agronomy Journal, 75: 457-461.
Jamjod, S., Maneechote, C., Nirantrayakul, S., and Rerkasem, B. (2005). The good and bad gene flow in the rice landscape. In The International Symposium on Diversity, Management, Protection and Utilization of Local Rice Germplasm. Chiang Mai, Thailand.
Jeschke, W. D., Kirkby, E. A., Peuke, A. D., Pate, J. S., and Hartung, W. (1997). Effects of P deficiency on accumulation and transport of nitrate and phosphate in intact plants of castor bean (Ricinus communis).
Journal of Experimental Botany, 48: 75-91.
Kirk, G. J., George, D. T., Courtois, B., and Senadhira, D. (1998). Opportunities to improves phosphorus efficiency and soil fertility in rainfed lowland and upland rice ecosystems. Field Crops Research, 56: 73-92.
Mengel, K. and Kirkby, E. A. (2001). Phosphorus. In Principles of plant nutrition. 5th Edition. Netherlands: Kluwer Academic Publishers.
Morishima, H., Hinata, K., and Oka, H. I. (1963). Comparison of modes of evolution of cultivated forms from two wild rice species, Oryza breviligulata and O. perennis. Evolution, 17: 170-181.
Oka, H. I. (1988). Origin of cultivated rice. Tokyo: Janpan Scientific Societies Press and Elsevier.
Punyalue, A., Rerkasem, B., and Jamjod, S. (2006). Genetic diversity of common wild rice collected from various regions of Thailand. Journal of Agriculture, 22(1): 21-25.
Rao, I. M. and Terry, N. (1989) Phosphate status, photosynthesis and carbon partitioning in sugar beet. I. Changes in growth, gas exchange and Calvin cycle enzymes. Plant Physiology, 90: 14-819.
Roder, W., Phengchanh, S., and Keoboulapha, B. (1995). Relationships between soil, fallow period, weeds and rice yield in slash-and-burn systems of Laos, Plant Soil, 176: 27-36.
Roschevicz, R. J. (1931). A contribution to the knowledge of rice. Appl. Bot. Genet. Plant Breeding, 27(4): 1-133.
Slaton, N. A., Wilson, C. E., Norman, R. J., Ntamatungiro, S., and Frizzell, D. L (2002). Rice response to phosphorus fertilizer application rate and timing on alkaline soils in Arkansas. Agronomy Journal, 94: 1393-1399.
Smith, R. J., Flinchum, W. T., and Seaman, D. E. (1977). Weed control in US rice production. U S Department of Agriculture Agriculture Handbook, 497: 78.
Sun, C. Q., Wang, X. K., Yushimura, A., and Iwata, N. (2000). Study on the genetic diversity of common wild rice (O. rufipogon Griff.) and cultivated rice (O. sativa L.) by RFLP analysis. Acta Genetica Sinica, 27(3): 227-234.
Thang, D. H., Jamjod, S., and Rerkasem, B. (2006). Responses of rice to low P supply in alternate aerated and stagnant solution culture. Chiangmai Journal: 21-35.
Ticchiati, V., Sgattoni, S., Aloi, C., and Mallengi, C. (1996). Red rice (Oryza sativa) control in Italian paddy rice. In Proceedings of the Second International Weed Control Congress. Denmark: Copenhagen.
Van, K. K., Trebuil, G., and Goze, E. (2000). Identifying and grading limiting factors of upland rice yields in farmers’s fields of northern Thailand. Institute Rice Research Notes, 25: 32-33.
Vaughan, L. K., Ottis, B. V., Prazak-Havey, A. M., Sneller, C., Chandler, J. M., and Park, W. D. (2001). Is all red rice found in commercial rice really Oryza sativa? Weed Science, 49: 468-476.
Walker, D. A. (1980). Regulation of starch synthesis in leaves-the role of orthophosphate. In Physiological Aspects of Crop Productivity. Pp. 195-207. The International Potash Institute, Bern.
Yoshida, S., Forno, D., Cock, J., and Comez, A. K. (1976). Laboratory Manual for Physiological Studies of Rice. The international rice research institute. 3rd edition.
Zhou, S. X., Tian, F., Zhu, Z. F., Fu, Y. C., Wang, X. K., and Sun, C. Q. (2006). Identification of quantitative trait loci controlling drought tolerance at seeding stage in Chinese Dongxiang common wild rice (Oryza rufipogon Griff.) Acta Genetica Sinica, 33(6): 551-558.