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標題: Comparative studies on the grain appearance, physicochemical properties and storage quality of domestic superior and imported rice
作者: 梁格禎
Ke-Chen Liang
關鍵字: grain appearance
physicochemical property
storage quality
eating quality
引用: 王聯輝、謝順景。1988。貯藏期間稻米品質的改變。稻米品質研討 會專集 pp. 282-300。 行政院農業委員會農業指標。2013。 行政院農業委員會糧食供需年報。2013。 宋勳。1980。施肥法影響水稻碾米品質之研究。臺中區農業改良場 研究彙報 3: 20-24。 宋勳、洪梅珠。1988。貯藏方式對稻谷倉儲期間品質之影響。臺中區農業改良場特刊 13: 269-281。 宋勳、洪梅珠。1990。稻米理化性質之研究 II.稻米理化性質在不同栽培季節間之變異。臺中區農業改良場研究彙報 27: 15-28。 宋勳、劉瑋婷。1996。稻米品質的影響因素與分級。稻作生產改進策略研討會專刊第59號。pp. 133-154。 社團法人日本精米工業會。1997。稻米新鮮度檢驗方法。精米工業 163: 16-23. 林文龍。1983。環境與稻米品質。臺中區農業改良場研究彙報 7:99-107。 吳志文、盧虎生。2001。台灣地區良質米品種之概念株型。高雄區農業專訊 37: 20-21。 邱運全。2001。談良質米生產之栽培管理。高雄區農業專訊 37: 18-19。 竺嘉珍。2006。稻米貯藏期間過氧化酶活性檢測值、酸鹼值及抗氧化能力的變化。國立中興大學農藝學系研究所碩士論文。台中。 洪梅珠。1996。稻米的儲存與品質。稻作生產改進策略研討會專刊第59號。pp. 205-210。 洪梅珠。1998。二期作稻穀貯存對食味品質影響之研究。臺中區農業改良場研究彙報 58: 11-19。 洪梅珠。2003。進口米與國產米之比較。臺中區農業改良場特刊 60: 39-48。 洪梅珠、洪美珠。2004。進口米與國產米品質之比較。臺中區農業改良場研究彙報 82: 33-42。 許愛娜、宋勳。1991。新舊米檢定方法之研究(第二報)。台中區農業改良場研究匯報 33: 1-6。 許愛娜。1994。稻米品質理化性質之研究。國立中興大學農藝學系研究所博士論文。台中。 許愛娜。2007。稻穀在貯藏期間理化性狀變化之研究。臺中區農業改良場研究彙報 95: 61-76。 許愛娜。2011。白米在貯藏期間理化性狀變化之研究。臺中區農業改良場研究彙報 111: 13-40。 陳貽倫。1995。影響稻米品質的因素。稻米倉儲加工作業技術手冊第二輯稻米倉儲。行政院農業委員會降低稻米製銷成本技術服務團。 陳鑫、楊純明。2011。簡介氣象環境對水稻米質的影響。農業試驗所技術服務 85: 5-7。 黃井約。2010。糊化黏度快速測定儀在米質檢定上之應用。花蓮區農業專訊 73: 2-5。 楊嘉凌、許愛娜、許志聖。2004。良質米推薦品種的特性。台中區農業專訊 46: 11-18。 蔡美鳳。2004。水稻品種間炊飯特性與食味值表現之探討。國立嘉 義大學農學研究所碩士論文。嘉義。 鄭彩婷。2008。利用3,3',5,5'-tetramethylbenzidine檢測過氧化酶活性及其應用。國立中興大學農藝學系研究所碩士論文。台中。 蕭巧玲、李裕娟、楊純明、賴明信。2009。不同栽植期對水稻台農71號米質之影響。作物、環境與生物資訊 6: 220-232。 Bahmaniar, M. A., and G. A. Ranjbar. 2007. Response of rice (Oryza sativa L.) cooking quality properties to nitrogen and potassium application. Pak. J. Biol. Sci. 10: 1880-1884. Bal, S., and T. P. Ohta. 1975. Determination of biological maturity and effect of harvesting and drying conditions on milling quality of paddy. J. Agric. Engineering Res. 20: 353-361. Bao, J., X. Kong, J. Xie, and L. Xu. 2004. Analysis of genotypic and environmental effects on rice starch. 1. apparent amylose content, pasting viscosity, and gel texture. J. Agr. Food Chem. 52: 6010-6016. Blumenthal, J., D. Baltensperger, K. G. Cassman, S. Mason, and A. Pavlista. 2008. Importance and effect of nitrogen on crop quality and health. pp. 55-57. In: Hatfield J. L. and Follett R. F. (ed.), Nitrogen in the environment: sources, problems, and management. Amsterdam: Elsevier. Bridgemohan, P., R. S. H. Bridgemohan . 2014. Crop nutrition studies on grain filling and chalkiness in rice. J. Plant Breeding Crop Sci. 6: 144-152. Borrell, A. K., A. L. Garside, S. Fukai, and D. J. Reid. 1999. Grain quality of flooded rice is affected by season, nitrogen rate, and plant type. Aust. J. Agr. Res. 50: 1399-1408. Cagampang, G. B., C. M. Perez, and B. O. Juliano. 1973. A gel consistency test for eating quality of rice. J. Sci. Food Agr. 24: 1589- 1594. Cameron, D. K., Y. J. Wang, and K. A. Moldenhauer. 2008. Comparison of physical and chemical properties of medium-grain rice cultivars grown in California and Arkansas. J. of Food Sci. 73: 72-78. Chen, Y., M. Wang, and P. B. F. Ouwerkerk. 2012. Molecular and environmental factors determining grain quality in rice. Food and energy security 1: 111-132. Cheng, F. M., L. J. Zhong, F. Wang, and G. P. Zhang. 2005. Differences in cooking and eating properties between chalky and translucent parts in rice grains. Food Chem. 90: 39-46. Cooper, N. T. W., T. J. Siebenmorgen, P. A. Counce, and J. F. Meullenet. 2006. Explaining rice milling quality variation using historical weather data analysis. Cereal Chem. 83: 447-450. Counce, P. A., R. J. Bryant, C. J. Bergman, R. C. Bautista, Y. J. Wang, T. J. Siebenmorgen, K. A. K. Moldenhauer, and J. F. C. Meullenet. 2005. Rice milling quality, grain dimensions, and starch branching as affected by high night temperatures. Cereal Chem. 82: 645-648. Counce, P. A., T. C. Keisling, and A. J. Mitchell. 2000. A uniform, objective, and adaptive system for expressing rice development. Crop Sci. 40: 436-443. Daniels, M. J., B. P. Marks, T. J. Siebenmorgen, R. W. Mcnew, and J. F. Meullenet. 1998. Effects of long-grain rough rice storage history on end-use quality. Journal of Food Sci. 63: 832-835. Efferson, J. N. 1985. Rice quality in world markets. pp. 1-8. In: L. Unnevehr. Los Banos(ed.), Rice grain quality and marketing. Philippines: International Rice Research Institute. Fitzgerald, M., A. Fitzgerald, S. R. McCouch, and R. D. Hall. 2009. Not just a grain of rice: the quest for quality. Trends Plant Sci. 14: 133-139. Gu, J., J. Chen, L. Chen, Z. Wang, H. Zhang, and J. Yang. 2015. Grain quality changes and responses to nitrogen fertilizer of japonica rice cultivars released in the Yangtze River Basin from the 1950s to 2000s. Crop J. Iwasaki, T., and T. Tani. 1967. Effect of oxygen concentration on deteriorative mechanisms of rice during storage. Cereal Chem. 44: 233-237. Ishimaru, T., A. K. Horigane, M. Ida, N. Iwasawa, Y. A. San-oh , M. Nakazono, N. K. Nishizawa, T. Masumura, M. Kondo, and M. Yoshida. 2009. Formation of grain chalkiness and changes in water distribution in developing rice caryopses grown under high-temperature stress. J. Cereal Sci. 50: 166-174. Isono, H., K. Ohtsubo, T. Iwasaki, and A. Yamazaki. 1994. Eating quality of domestic and foreign rices of various varieties and characteristics. J. Jpn. Soc. Food Sci. 41: 485-492. Jang, E. H., S. K. Lim, and S. S. Kim. 2009. Effect of storage temperature for paddy on consumer perception of cooked rice. Cereal Chem. 86: 549-555. Juliano, B. O. 1966. Relation of some properties of rice starch and protein to eating quality preferences for milled rice in Asia. International Rice Research Institute. Juliano, B. O. 1970. An integrated study on physiochemical properties of the rice grain. International Rice Research Institute Saturday Seminar, January 17. Kim, S. S., S. E. Lee, O. W. Kim, and D. C. Kim. 2000. Physicochemical characteristics of chalky kernels and their effects on sensory quality of cooked rice. Cereal Chem. 77: 376-379. Leesawatwong, M., S. Jamjod, J. Kuo, B. Dell, and B. Rerkasem. 2005. Nitrogen fertilizer increases seed protein and milling quality of rice. Cereal Chem. 82: 588-593. Li, X. J., and P. Jiang. 2014. Effect of storage temperature on biochemical and mixolab pasting properties of Chinese japonica paddy. Journal of Food Research 4: 57-67. Lii, L. J., C. Y. Wang and H. S. Lur. 1999. A novel means of analyzing the soluble acidity of rice grains. Crop Sci. 39: 1160-1164. Lisle, A. J., M. Martin, and M. A. Fitzgerald. 2000. Chalky and translucent rice grains differ in starch composition and structure and cooking properties. Cereal Chem. 77: 627-632. Little, R. R., G. H. Hilder, and E. H. Dawson. 1958. Differential effect of dilute alkali on 25 varieties of milled white rice. Cereal Chem. 35: 111-126. Liu, Q., X. Zhou, L. Yang, and T. Li. 2009. Effects of chalkiness on cooking, eating and nutritional qualities of rice in two indica varieties. Rice Science 16: 161-164. Lu, R., T. J. Siebenmorgen, T. A. Costello, and E. O. Fryar Jr. 1995. Effect of rice moisture content at harvest on economic return. Appl. Eng. Agric. 11: 685-690. Martin, M., and M. A. Fitzgerald. 2002. Proteins in rice grains influence cooking properties. J. Cereal Sci. 36: 285-294. Matthews, J., and J. J. Spadaro. 1975. Rice breakage during combine harvesting. Rice J. 78: 59,62-63. Meullent, J. F., B. P. Marks, J. A. Hankins, V. K. Griffin, and M. J. Daniels. 2000. Sensory quality of cooked long-grain rice as affected by rough rice moisture content, storage temperature, and storage duration. Cereal Chem. 77: 259¬-263 Nakamura, Y., A. Sakurai, Y. Inaba, K. Kimura, N. Iwasawa, and T. Nagamine. 2002. The fine structure of amylopectin in endosperm from Asian cultivated rice can be largely classified into two classes. Starch Starke 54: 117-131. Park, C. E., Y. S. Kim, K. J. Park, and B. K. Kim. 2012. Changes in physicochemical characteristics of rice during storage at different temperatures. J. Stored Prod. Res. 48: 25-29. Patindol, J., and Y. Wang. 2003. Fine structures and physicochemical properties of starches from chalky and translucent rice kernels. J. Agr. Food Chem. 51: 2777-2784. Pearce, M. D., B. P. Marks, and J. F. Meullenet. Effects of postharvest parameters on functional changes during rough rice storage. 2001. Cereal Chem. 78: 354-357. Perez, C. M., B. O. Juliano, S. K. De Datta, and S. T. Amarante. 1990. Effects of nitrogen fertilizer treatment and source and season on grain quality of IR64 rice. Plant Food Hum. Nutr. 40: 123-130. Perez, C. M., B. O. Juliano, S. P. Liboon, J. M. Alcantara, and K. G. Cassman. 1996. Effects of late nitrogen fertilizer application on head rice yield, protein content, and grain quality of rice. Cereal Chem. 73: 556-560. Ross, A. S., C. E. Walker, R. I. Booth, R. A. Orth, and C. W. Wrigley. 1987. The rapid viscoanalyzer: a new technique for the estimation of sprout damage. Cereal Food World 32: 827-829. Sado, H., S. I. Saito, and T. Taira. 2003. Selection for high palatable rice line by use of mido meter and rapid visco analyzer. Jpn. J. Crop Sci. 72: 390-394. Sharp, R. N., and L. K. Timme. 1986. Effect of storage time temperature packaging method on shelf life of brown rice. Cereal Chem. 63: 247-251. Singh, N., K. S. Sekhon, and A. Kaur. 1990. Effect of pre-harvest flooding of paddy on the milling and cooking quality of rice. J. Sci. Food Agr. 52: 23-34. Singh, N., N. S. Sodhi, M. Kaur, and S. K. Saxena. 2003. Physico-chemical, morphological, thermal, cooking and textural properties of chalky and translucent rice kernels. Food Chem. 82: 433-439. Sodhi, N. S., and N. Singh. 2003. Morphological, thermal and rheological properties of starches separated from rice cultivars grown in India. Food Chem. 80: 99-108. Sowbhagya, C. M., B. S. Ramesh, and K. R. Bhattacharya. 1987. The relationship between cooked-rice texture and the physicochemical characteristics of rice. J. Cereal Sci. 5: 287- 297. Tamaki, M., M. Ebata, T. Tashiro, and M. Ishikawa. 1989. Physico-ecological studies on quality formation of rice kernel, II: Changes in quality of rice kernel during grain development. Jpn. J. Crop Sci. 58: 659-663. Tamaki, M., T. Tashiro, M. Ishikawa, and M. Ebata. 1993. Physico-ecological studies on quality formation of rice kernel, IV: Effect of storage on eating quality of rice. Jpn. J. Crop Sci. 62: 540-546. Thompson, J. F., and R. G. Mutters. 2006. Effect of weather and rice moisture at harvest on milling quality of California medium-grain rice. American Society of Agricultural and Biological Engineers 49: 435-440. Tsukaguchi, T., Y. Iida. 2008. Effects of assimilate supply and high temperature during grain-filling period on the occurence of various types of chalky. Plant Prod. Sci. 11: 203-210. Villareal, R. M., A. P. Resurreccion, L. B. Suzuki, and B. O. Juliano. 1976. Changes in physicochemical properties of rice during storage. Starch Starke 28: 88-94. Wada, K., K. Takahashi, K. Shirai, and A. Kawamura. 1979. Differential thermal analysis (DTA) applied to examining gelatinization of starches in foods. J. Food Sci. 44: 1366-1372. Wang, L., Y. J. Wang, and R. Porter. 2002. Structures and physicochemical properties of six wild rice starches. J. Agr. Food Chem. 50: 2695-2699. Williams, P. C., F. D. Kuzina, and I. Hlynka. 1970. A rapid colorimetric procedure for estimating the amylose content of starches and flours. Cereal Chem. 47: 411-415. Wongpornchai, S., K. Dumri, S. Jongkaewwattana, B. Siri. 2004. Effects of drying methods and storage time on the aroma and milling quality of rice (Oryza sativa L.) cv. Khao Dawk Mali 105. Food Chem. 87: 407-414. Wopereis-Pura, M. M., H. Watanabe, J. Moreira, M. C. S. Wopereis. 2002. Effect of late nitrogen application on rice yield, grain quality and profitability in the Senegal River valley. Eur. J. Agron. 17: 191-198. Xi, M., Z. Lin, X. Zhang, Z. Liu, G. Li, Q. Wang, S. Wang, and Y. Ding. 2014. Endosperm structure of white-belly and white-core rice grains shown by scanning electron microscopy. Plant Prod. Sci. 17: 285-290. Yasumatsu, K., and S. Moritaka. 1964. Fatty acid compositions of rice lipid and their changes during storage. Agr. Biol. Chem. 28: 257-264. Zhang, Z., S. Zhang, J. Yang, and J. Zhang. 2008. Yield, grain quality and water use efficiency of rice under non-flooded mulching cultivation. Field Crop Res. 108: 71-81. Zhou, Z., K. Robards, S. Helliwell, and C. Blanchard. 2003. Effect of rice storage on pasting properties of rice flour. Food Res. Int. 36: 625-634. Zhou, Z., K. Robards, S. Helliwell, and C. Blanchard. 2007. Effect of storage temperature on cooking behaviour of rice. Food Chem. 105: 491-497. Zhou, L. J., L. Jiang, Q. H. Zhai, and J. M. Wan. 2009. Current status and strategies for improvement of rice grain chalkiness. Hereditas 31: 563-572. Zeleny, L. and D. A. Coleman. 1938. Acidity in cereals and cereal products, its determination and significance. Cereal Chem. 15: 580-595.
摘要: Rice is the most widely grown and produced crop in Taiwan. Many new rice varieties are being developed and released with high yield, and high resistance to biotic and abiotic stresses, but their eating quality remains to be improved. Eating quality has now become the primary consideration of final rice-eating consumers and breeding programs. The study was carried out to compare grain appearance, physicochemical properties, eating quality and storage quality of 29 domestic superior rice and 6 imported rice, and rice quality traits were also evaluated to find out which will be the major factors to determine eating quality by correlation analysis. The results indicated that milling quality and grain appearance of imported rice were better than domestic rice, including percentage of head rice and percentage of chalky kernels. However, eating quality of domestic rice was superior than imported rice, especially Tainan 16, Kaoshiung 145, Kaoshiung 147, Tainung 74, Taichung 194, and Taichung sen 10. Results of correlation analysis showed that palatability value of milled rice was significantly positive correlated with palatability value by rice taste analyzer, and balance by rice physical property analyzer. Whereas, percentage of head rice, grain length, peak, trough, breakdown, and final viscosity were negative correlated with palatability value of milled rice. Taste value was positive correlated with percentage of head rice and grain shape, but it was negative correlated with whiteness and percentage of chalky kernels. In addition, palatability value detected by rice taste analyzer was positive correlated with whiteness, palatability value of milled rice, and balance by rice physical property analyzer, but negative correlation with peak, trough, breakdown, final viscosity, and hardness by rice physical property analyzer. Storage quality of Taikeng 8, Taikeng 9, and Taoyuan 3 was inferior to other domestic rice, and changes of characters including percentage of water uptake, peak, trough, and final viscosity were obvious during short term storage. Comparative study on rice quality of translucent and chalky kernels in Taikeng 9 and Tainan 11 revealed that cooking and eating qualities of perfect milling rice were superior than chalky one.
其他識別: U0005-2307201511123900
文章公開時間: 10000-01-01
Appears in Collections:農藝學系



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