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糯稻新品种“福糯”选育和试种结果 被引量:1

THE SELECTION AND TRIAL CULTURE OF FUNUO,A NEW VARIETY OF GLUTINOUS RICE
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摘要 糯稻新品种"福糯",对光温反应较弱,早季全生育期115~118 d,晚季全生育期约113 d。平均株高90 cm,分蘖力强,亩有效穗28~30万穗,一般亩产410 kg左右,比目前广西生产上种植的熟期相近的糯稻品种亩增产50~100 kg。精米率72%,直链淀粉含量0.32%,胶稠度软,糊化温度中,糯性好,食味佳,抗白叶枯病,中抗稻瘟病。1987~1990年,已在27个县试种27万亩。1991年12月经广西区农作物品种审定委员会审定通过。 Funuo,a variety of glutinous rice,is weakly photosensitive and thermosensitive.The growth period duration is 115~118 days in early season and about 113 days in late season.The mean plant height is 90cm.The tillering ability is strong.The effective spikes are 280~300 thousands per mu.The yield is about 410kg per mu that is 50 ~100kg per mu more than the other varieties of glutinous rice that have similar growth period durations.The rate of fine milled grain is 72%.The content of amylose is 0.32%. The gel consistency is soft.The gelatinization is medium.The glutinous character is good. The eating taste is well.The high resistence to bacterial leaf-blight,and medium to rice blast.It covered 270000mu of paddy fields in 30 counties of Guangxi from 1987 to 1989. 'Funuo'has been examined and approved to release as a new variety by the Crop Variety Evaluation Committe of Guangxi Autonomous Region in Dec.1991.
作者 陈芳远 彭月华 陈奇 卢升安
机构地区 广西农业大学水稻研究室 广西农业大学农学系 柳州市教育学院
出处 《广西农业大学学报》 CSCD 1992年第3期5-9,共5页
关键词 糯稻 辐射育种 新品种 抗病性 产量 “福糯” 选育 glutinous rice radiation breeding new variety disease resistance yield
分类号 S511.23 [农业科学—作物学]
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同被引文献20

  • 1梁婵娟,陶文沂,周青.UV-B辐射增强的环境植物学效应研究[J].中国生态农业学报,2004,12(4):40-42. 被引量:13
  • 2闫生荣,周青.紫外辐射与复合胁迫对植物抗氧化酶系统的影响[J].中国生态农业学报,2007,15(3):195-197. 被引量:16
  • 3Dai Q J, Peng S B, Arlene Q, et al. Intraspecific responses of 188 rice eultivars to enhanced UV-B radiation[J]. Environment Experiment Botany, 1994, 34(4): 433-442.
  • 4Li Y, Zu Y Q, He Y M, et al. Intraspecific responses in flavonoid contents of 28 wild sugarcane (Saccharum spontaneum L.) clones to enhanced ultraviolet-B radiation under field conditions for two consecutive years[J]. American Journal of Plant Physiology, 2006, 1: 151-159.
  • 5Schmitz R, Weissenbock G. Contribution of phenolic compounds to the UV-B screening capacity of developing barley primary leaves in relation to DNA damage and repair under elevated UV-B levels[J]. Phytochemistry, 2003, 64:243-255.
  • 6Ken R M, Gregory J T, Malcolm I W, et al. Possible protective role for 3', 4'-dihydroxyflavones induced by enhanced UV-B in a UV-tolerant rice cultivar[J]. Phytochemistry, 1998, 49: 1913-1919.
  • 7Hada H, Hidema J, Maekawa M, et al. Higher amounts of anthocyanins and UV-absorbing compounds effectively lowered CPD photorepair in purple rice (Oryza sativa L.)[J]. Plant, Cell and Environment, 2003, 26:1691-1701.
  • 8Li Y, Zu Y Q, Chen J J, et al. Intraspecific differences in physiological responses of 20 wheat cultivars to enhanced ultraviolet-B radiation under field conditions[J]. Environment Experiment Botany, 2000, 44(2): 95-103.
  • 9Annamraju D, Sarma A D, Rameshwar S. Purification and characterization of UV-B induced phenylalanine ammonia-lyase from rice seedlings[J]. Phytochemistry, 1999, 50: 729-737.
  • 10Finckh M R, Arlene Q, Chavez A, et al. Effects of enhanced UV-B radiation on the growth of rice and its susceptibility to rice blast under glasshouse conditions[J]. Agriculture, Ecosystems and Environment, 1995, 52:223-233.

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广西农业大学学报
1992年 第3期

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