[1]Calingacion M, Laborte A, Nelson A, et al. Diversity of global rice markets and the sicence required for consumer-targeted rice breeding [J]. Plos One, 2014, 9: e85106.
[2]Patindol J, Gu X, Wang YJ. Chemometric analysis of cooked rice texture in relation to starch fine structure and leaching characteristics [J]. Starch, 2010, 62(3-4): 188-197
[3]Lyon BG, Champagne ET, Vinyard BT, Windham WR. Sensory and instrument relationships of texture of cooked rice from selected cultivars and postharvest handling practices [J]. Cereal Chemistry, 2000, 77(1): 64-69.
[4] 刘厚清, 王翠兰. 吃饭有讲究——食品的功能性成分对健康的作用[M]. 北京:中国农业出版社, 2016: 9-20.
[5]Sitakalin C, Meullenet JF. Prediction of cooked rice texture using extrusion compression tests in conjunction with spectral strain analysis [J]. Cereal Chemistry, 2000, 77(4): 501-506.
[6] Siriphollakul P, Nakano K, Kanlayanarat S, et al. Eating quality evaluation of Khao Dawk Mali 105 rice using near-infrared spectroscopy [J]. LWT - Food Science and Technology, 2017,79: 70-77.
[7]Cameron DK, Wang YJ. A better understanding of factors that affect the hardness and thickness of long-grain rice [J]. Cereal Chemistry, 2005, 82: 113-119
[8]Champagne ET, Bett-Garber K, McClung KL, Bergman AM. Sensory characteristics of diverse rice cultivars as influenced by genetic and environmental factors [J]. Cereal Chemistry, 2004, 81(2):237-243.
[9]Meilgaard MC, Carr BT, Civille GV. Sensory evaluation techniques [M]. CRC Press, 2006.
[10]Champagne ET, Bett-Garber KL, Fitzgerald MA, et al. Important sensory properties differentiating premium rice varieties [J]. Rice, 2010, 3(4): 270-281
[11] ISO. Sensory analysis methodology Texture profile [S]. 11036. International Organization for Standardization: Geneva. 1994.
[12] Srisawas W, Jindal V. Sensory evaluation of cooked rice in relation to water-to-rice ratio and physicochemical properties [J]. Journal of Texture Studies, 2007, 38: 21-41.
[13]Miao WH, Wang LF, Xu XY, Pan SY. Evaluation of cooked rice texture using a novel sampling technique [J]. Measurement, 2016, 89: 21-27.
[14] Sesmat A, Meullenet JF. Prediction of rice sensory texture attributes from a single compression test, multivariate regression, and a stepwise model optimization method [J]. J Food Sci, 2001, 66: 124-131.
[15]Okadome H. Application of instrument based multiple texture measurement of cooked milled rice grains to rice quality evaluation [J]. Japan Agricultural Research Quarterly, 2005, 39(4)261-268.
[16] Meullenet JFC, Gross J, Marks BP, Daniels M. Sensory descriptive texture analyses of cooked rice and its correlation to instrumental parameters using an extrusion cell [J]. Cereal Chem, 1998, 75: 714-720.
[17]Yu S, Ma Y, Liu T, et al. Impact of cooling rate on the staling behavior of cooked rice during storage [J]. J Food Eng, 2010, 96: 416-420.
[18]Smewing J. Hydrocolloids [M]. In Rosenthal AJ (Ed). Food Texture Measurement and Perception. Gaithersburg, MD; Aspen Publishers.1999: 282-303.
[19]Ayabe S, Kasai M, Ohishi M, Hatae K. Textural properties and structures of starches from indica and japonica rice with similar amylose content [J]. Food Science and Technology Research, 2009, 159(3):299-306.
[20]Billiris M, Siebenmorgen T, Meullenet JF, Mauromoustakos A. Rice degree of milling effects on hydration, texture, sensory and energy characteristics [J]. Part 1. Cooking using excess water. Journal of Food Engineering, 2012, 113(4):559-568.
[21]Chen J, Stokes JR. Rheology and tribology: two distinctive regimes of food texture sensation [J]. Trends in Food Science and Technology, 2012, 25(1):4-12.
[22]Foegeding E, Daubert C, Drake M, et al. A comprehensive approach to understanding textural properties of semi- and soft-solid foods [J]. Journal of Texture Studies, 2011, 42(2)193-129.
[23]Li HY, Prakash S, Nicholson TM, et al. Instrumental measurement of cooked rice texture by dynamic theological testing and its relation to the fine structure of rice starch [J]. Carbohydrate Polymers, 2016, 146: 253-263
[24]Sohn M, Barton FE, McClung AM, Champagne ET. Near-infrared spectroscopy for determination of protein and amylase in rice flour through use of derivatives [J]. Cereal Chemistry, 2004, 81(3): 341-344
[25]Bao JS, Cai YZ, Corke H. Prediction of rice starch quality parameters by near-infrared reflectance spectroscopy [J]. Journal of Food Science, 2001, 66: 936-939.
[26]Frederick M, Franklin E. Determination of rapid visco analyzer parameters in rice by near-infrared spectroscopy [J].Cereal Chemistry, 2002, 79: 563-566.
[27]Siriphollakul P, Kanlayanarat S, Rittiron R, et al. Pasting properties by near-infrared reflectance analysis of whole grain paddy rice samples [J]. Journal of Innovative Optical Health Sciences, 2015, 8(6): 1-8.
[28]Barton FE, Himmelsbach DS, McClung DS, Champagne ET. Rice quality by spectroscopic analysis: Precision of the three spectral regions [J]. Cereal Chemistry, 2000, 77(5) : 669-672.
[29]Lu S, Cik TT, Lii CY, et al. Effect of amylose content on structure, texture and a-amylase reactivity of cooked rice [J]. LWT-Food Science and Technology, 2013,54: 224-228.
[30] Suwannaporn P, Pitiphunpong S, Champangern S. Classification of rice amylose content by discriminant analysis of physicochemical properties [J]. Starch, 2007, 59: 171-177.
[31]Leelayuthsoontorn P, Thipayarat A. Textural and morphological changes of Jasmine rice under various elevated cooking conditions [J]. Food Chemistry, 2006, 96(4): 606-613.
[32]Ramesh M, Bhattacharya KR, Mitchell JR. Developments in understanding the basis of cooked-rice texture [J]. Crit Rev Food Sci Nutr, 2000, 40: 449-460.
[33]Bao JS, Corke H, Sun M. Nucleotide diversity in starch synthase IIa and validation of single nucleotide polymorphisms in relation to starch gelatinization temperature and other physiocochemical properties in rice [J]. Theor Appl Genet 2006, 113: 1171-1183.
[34] Takeuchi Y, Nonoue Y, Ebitani T, et al. QTL detection for eating quality including glossiness, stickiness, taste and hardness of cooked rice [J]. Breed Science, 2007, 57: 231-242.
[35] Ohtsubo K, Nakamura S. Variety identification of rice by Polymerase Chain Reaction method and its application to processed rice products [J]. J Agric Food Chem, 2007, 55: 1501-1509.
[36] Larkin PD, McClung AM, Ayres NM, Park WD. The effect of the waxy locus (granule bound starch synthase) on pasting curve characteristics in specially rice [J]. Euphytica, 2003, 131: 243-253.
[37] Han YP, Xu ML, Liu XY, Yan CJ, Korban SS, Chen XL, Gu MH. Genes coding for starch branching enzymes are major contributors to starch viscosity characteristics in waxy rice [J]. Plant Sci, 2004, 166: 357-364.
[38] Lestari P, Ham TH, Lee HH, Woo MO, et al. PCR marker-based evaluation of the eating quality of Japonica Rice [J]. J Agric Food Chem, 2009, 57: 2754-2762.
[39]Cuevas RP, Daygon VD, Corpuz HM, et al. Melting the secrets of geletinization temperature in rice [J]. Functional Plant Biology, 2010,37(5): 439-447.
[40]Hasjim J, Li E, Dhital S. Milling of rice grains: the roles of starch structures in the solubility and swelling properties of rice flour [J]. Starch, 2012, 64(8):631-645.
[41] Zhou ZK, Robards K, Helliwell S, Blanchard C. Effect of storage temperature on rice thermal properties [J]. Food Res Int, 2010, 43: 709-715.
[42]Ohno T, Ohisa N. Studies on textural and chemical changes in aged rice grains [J]. Food Science and Technology Research, 2005, 11(4):385-389.
[43]Srikaeo K, Panya U. Efficiencies of chemical techniques for rice grain freshness analysis [J]. Rice Science, 2013, 20(4):292-297.
[44]Ohno T, Tomatsu M, Toeda K, Ohisa. Gelatinization properties of aged rice and improvement of rice texture by external layer removal [J]. Food Science and Technology Research, 2007,13(4):301-304.
[45]Li HY, Prakash S, Nicholson TM, et al. The importance of amylose and amylopectin fine structure for textural properties of cooked rice grains [J]. Food Chemistry, 2016, 196: 702-711
[46]Cuevas RP, Gibert RG, Fitzgerald MA. Structural differences between hot-water-soluble and hot-water-insoluble fractions of starch in waxy rice [J]. Carbohydrate Polymers, 2010, 81(3):524-532.
[47] Bett-Garber KL, Champagne ET, Ingram DA, McClung AM. Influence of water-to-rice ratio on cooked rice flavor and texture [J]. Cereal Chemistry, 2007, 84(6): 614-619.
[48] Zhou ZK, Robards K, Helliwell S, et al. Rice ageing. I. Effect of changes in protein on starch behaviour [J]. Starch, 2003, 55: 162-169.
[49] Zhou ZK, Robards K, Helliwell S, Blanchard C. Effect of storage temperature on cooking behaviour of rice [J]. Food Chemistry, 2007, 105: 491-497.
[50]Jang EH, Lim ST, Kim SS. Effect of storage temperature for paddy on consumer perception of cooked rice [J]. Cereal Chem, 2009, 86(5):549-555.