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作物学报 ›› 2009, Vol. 35 ›› Issue (6): 1167-1172.doi: 10.3724/SP.J.1006.2009.01167

• 研究简报 • 上一篇    

中国主产区小麦在品质区域间的差异

胡学旭,周桂英,吴丽娜,陆伟,武力,李静梅,王爽,宋敬可,杨秀兰,王步军*   

  1. 中国农业科学院作物科学研究所/农业部谷物品质监督检验测试中心,北京100081
  • 收稿日期:2008-07-14 修回日期:2008-12-15 出版日期:2009-06-12 网络出版日期:2009-04-16
  • 通讯作者: 王步军,E-mail:wangbj@mail.caas.net.cn;Tel:010-82105798
  • 基金资助:

    本研究由农业部优势农产品新品种推广经费项目(农财发[2005]59号)资助。

Variation of Wheat Quality in Main Wheat-Producing Regions in china

HU Xue-Xu,ZHOU Gui-Ying,WU Li-Na,LU Wei,WU Li,LI Jing-Mei,WANG Shuang,SONG Jing-Ke,YANG Xiu-Lan,WANG Bu-JUN*   

  1. Institute of Crop Sciences,Chinese Academy of Agricultural Sciences/Cereal Quality Supervision and Testing Center,Ministry of Agriculture,Beijing 100081,China
  • Received:2008-07-14 Revised:2008-12-15 Published:2009-06-12 Published online:2009-04-16
  • Contact: WANG Bu-Jun,E-mail:wangbj@mail.caas.net.cn;Tel:010-82105798

PDF

1951

被引次数

40

摘要:

选取2003—2007年我国4个麦区174个品种2 571份小麦样品,对14个品质性状在各麦区的差异进行了分析。结果表明,年度之间,小麦品质性状在各麦区内具有明显差异,变化无规律。籽粒蛋白质含量、湿面筋含量、形成时间、稳定时间、面包体积和面包评分的年度平均值麦区差异达1%或5%显著水平,由北到南呈华北北部强筋麦区(I)>黄淮北部强筋中筋麦区(II)>黄淮南部中筋麦区(III)>长江中下游中筋弱筋麦区(IV);北部麦区(I、II)的降落数值、出粉率、沉淀值、吸水率、拉伸面积、延伸性和最大抗延阻力的5年平均值显著大于南部麦区(III、IV)。达到优质强筋小麦标准的样品主要集中在I、II区,达到优质弱筋小麦标准的样品主要集中在IV区,III区以中筋小麦为主,形成了由北到南由不同小麦品质类型构成的品质区域布局。

关键词: 小麦, 品质, 区划

Abstract:

In China, regional planning for wheat quality consists of three regions and 10 subregions. The main wheat-producing area is composed of several subregions, such as Northern part of North China (I), Northern part of Huang-Huai Region (II), Southern part of Huang-Huai Region (III), and Middle-to-Lower Reaches of Yangtze River (IV). Generally, wheat cultivars growing in the four subregions are characterized with strong gluten, strong-to-medium gluten, medium gluten, and medium-to-weak gluten, respectively. To study the distribution of cultivars with various quality types, a total of 2 571 samples of 174 wheat cultivars collected from the four subregions in 2003–2007 were analyzed with 14 quality traits. There were significant (P < 0.05 or P < 0.01) variations among the four subregions in each year. However, the variance trends were not consistent across years. Based on the averages of the five years, significant (P < 0.05 or P < 0.01) differences were observed among various subregions in kernel protein content, wet gluten content, forming time, stability time, loaf volume, and loaf score, which in the four subregions were sanked as I > II > III > IV. Cultivars from I and II subregions performed higher falling number, flour yield, sedimentation value, water absorption, extension area, extensibility, and maximum resistance to extensibility than those from III and IV subregions. Most of the strong-gluten cultivars were distributed in I and II subregions, and the medium-gluten and weak-gluten wheat were mainly planted in III and IV subregions, respectively.

Key words: Wheat, Quality, Regional planning

[1]Wan F-S(万富世), Wang G-R(王光瑞), Li Z-Z(李宗智). A preliminary approach on present situation and objectives of improvement of wheat quality in China. Sci Agric Sin (中国农业科学), 1989, 22(3): 14-21(in Chinese with English abstract)

[2]Wang X-Y(王晓燕), Li Z-Z(李宗智), Zhang C-Y(张彩英), Yu G-H(于光华), Wang L-K(王乐凯), Wan F-S(万富世), Wang G-R(王光瑞). A report of evaluation of quality of wheat varieties in China. J Agric Univ Hebei (河北农业大学学报), 1995, 18(1): 1-9 (in Chinese with English abstract)

[3]Wang X-Y(王晓燕), Lu S-Y(卢少源), Rong G-Z(荣广哲), Zhang C-Y(张彩英). The third analysis on the quality of bread wheat varieties (lines) in China. J Agric Univ Hebei(河北农业大学学报), 1997, 20 (2): 1-5 (in Chinese with English abstract)

[4]He Z-H(何中虎), Lin Z-J(林作辑), Wang L-J(王龙俊), Xiao Z-M(肖志敏), Wan F-S(万富世), Zhuang Q-S(庄巧生). Classification on Chinese wheat regions based on quality. Sci Agric Sin (中国农业科学), 2002, 35(4): 359-364(in Chinese with English abstract)

[5]National Quality and Technology Supervision Bureau(国家质量监督局). National Standard of the People’s Republic of China: High Quality Wheat—Strong Gluten Wheat (中华人民共和国国家标准:优质小麦——强筋小麦). GB/T 17892-1999. Beijing: Standards Press of China. 1999(in Chinese)

[6]National Quality and Technology Supervision Bureau(国家质量监督局). National Standard of the People’s Republic of China: High Quality Wheat—Weak Gluten Wheat (中华人民共和国国家标准: 优质小麦——弱筋小麦). GB/T 17893-1999. Beijing: Standards Press of China. 1999 (in Chinese)

[7] Department of Crop Production, Ministry of Agriculture. Annual Report of Wheat Quality in China(中国小麦质量报告), 2007. pp88-89 (in Chinese)

[8]Li H-N(李鸿恩), Wu X-Q(吴秀琴), Li Z-Z(李宗智). Determination and evaluation on the main quality characters of wheat germplasm resources in China. Sci Agric Sin(中国农业科学), 1995, 28(5): 29-37(in Chinese with English abstract)

[9]Zhang Y(张艳), He Z-H(何中虎), Zhou G-Y(周桂英), Wang D-S(王德森). Genotype and environment effects on major quality characters of winter-sown Chinese wheats. J Chin Cereals Oils Assoc(中国粮油学报), 1999, 14(5): 1-5(in Chinese with English abstract)

[10]Wang G-G(王格格), Zhang G-Q(张国权), Ou-Yang S-H(欧阳韶晖), Wang X-Z(王新中). Quality adaptability of high-quality wheat cultivars to planting environment. J Triticeae Crops (麦类作物学报), 2006, 26(2): 77-81(in Chinese with English abstract)

[11]Basset L M, Allan RE, Rubenthaler GL. Genotype × environment interaction on softwhite winter wheat quality. Agron J, 1989, 1:955-960

[12]Peterson C J, Graybosch RA, Baenziger PS, Grombacher AW. Genotype and environment effects on quality characteristics of hard red winter wheat. Crop Sci, 1992, 32: 98-103

[13] Bergman C J, Gualbrto D G, Campbell K G, Sorrells M E, Finney P L.Genotype and environment effects on wheat quality traits in a population derived from a soft by hard cross. Cereal Chem, 1998, 75: 739-737

[14]He Z-H(何中虎), Xiao S-H(肖世和), Zhuang Q-S(庄巧生). Wheat breeding progress from 1996 to 2000. In: Zhuang Q-S(庄巧生), Du Z-H(杜振华), eds. Advance of Wheat Breeding in China(中国小麦育种研究进展). Beijing: China Science and Technology Press, 2002. pp 3-7(in Chinese)
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