若干份水稻种质资源重要农艺性状的鉴定与评价
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摘要
种质资源是作物新品种培育和重要农艺性状遗传研究的基础材料,开展种质资源的鉴定和评价对于科学合理地发掘和利用种质资源具有重要意义。2004~2005年连续两年在南京江浦对来自不同国家和地区的1,466份稻种资源(籼稻808份,粳稻658份)的始穗期、齐穗期、株高、单株穗数、穗长、每穗总粒数、空秕率、着粒密度、千粒重、糙米率和白叶枯病抗性等性状进行田间和室内考种鉴定,结果如下:
1、不同水稻品种资源,在南京地区种植,其始穗期、齐穗期和播种至齐穗的天数都有较大的变异,其中籼稻材料的始穗期和齐穗期分布在7月26日~8月14日和7月26日~8月24日区间(2004年),粳稻材料分布在7月26日~8月24日和7月26日~9月8日区间(2005年)。说明在收集的稻种资源中蕴藏着丰富的遗传多样性,有些材料可以用于水稻温光反应的遗传研究。
2、供试的籼稻材料的株高、单株有效穗、穗长、每穗总粒数、空瘪率和千粒重分别分布在80~120cm、3~9个、19~29cm、80~240粒、5%~40%和18~30g之间;粳稻材料的株高、单株有效穗、穗长、每穗总粒数、空瘪率和千粒重分别分布在80~120cm、3~8个、15~25cm、80~200粒、0~20%和19~31g之间。无论是籼稻或粳稻资源,上述各性状的变异系数均在20%以上,为水稻新品种选育提供了丰富的种质材料或基因资源。
3、粳稻和籼稻材料之间对水稻白叶枯病的抗性存在较大的差异,前者抗性品种居多,后者以高感白叶枯品种所占的比例最高;鉴定获得的抗白叶枯病资源多为国外引进品种或地方品种,这些抗病材料可供水稻抗白叶枯病遗传及其育种研究。
4、鉴定获得广丛、IR19784-9-2-1、马引1-1号、矮秆黄等35份多穗型稻种资源,单株有效穗数均在10个以上;获得1158-2、高孟亚、丽江背子谷、一片粘等137份大穗型稻种资源(籼稻材料的每穗总粒数大于250粒,粳稻材料大于180粒);获得寸谷、瑞玉406-23、螃蟹谷、毫海等29份大粒型稻种资源,千粒重均达到35g;获得IR1112-104、IR1561-228-3-2、碧风、黄金晴等80份高抗白叶枯病的材料;部分材料具有两个以上优良性状。这些特异的具有单一或多个优良性状的材料为水稻育种及遗传基础研究提供了丰富的基因资源。
Germplasm resources are the basic materials for plant breeding and genetic research. The identification and evaluation of the germplasm resources are one of the most important contents on the germplasm research. In this study it was identified the variation in some important agronomic traits of 1,466 rice (Oryza sativa L.) germplasm resources (808 indica rice, 658 japonica rice) from different countries and regions in during 2004 and 2005, including heading period (HP), full panicle stage (FPS), plant height (PH), panicle number per plant (PN), panicle length (PL), grain number main panicle (NGMP), seed setting rate(RSS), spikelet density (SD) 1,000-grain weight (1000GW), rate of brown rice (RBR) and resistance of rice bacterial leaf blight. The main results are decribled as follows
1. There were to large extent variation in HP, FPS, and growth duration (from sowing to full panicle stage, DSFPS) among all indica or japonica rice resources evaluated. The HP and FPS of indica rice were mainly distributing between 7/26~8/14 (month/day, the same below) and 7/26~8/24, respectively, and HP and FPS of japonica rice mainly distributing between 7/26~8/24 and 7/26~9/8. There was an obviously different reaction to temperature and light between different indica and japonica rice varieties. Among these rice germplasm resources there are very profound genetic diversity in reaction to temperature and light, which provides favourable materials for futher research.
2. The PH, PN, PL, NGMP, RSS, and 1000GW of indica rice were mainly distributing between 80~120 cm, 3~9, 19~29 cm, 80~240, 5~40%, and 18~30g, respectively, and the PH, PN, PL, NGMP, RSS, and 1000GW of japonica rice mainly distributing between 80~120 cm, 3~8, 15~25 cm, 80~200, 0~20%, and 19~31g. There was also an obviously variation of PH, PN, PL, NGMP, RSS, SD, 1000GW, and RBR between indica and japonica rice varieties, with the more than 20% of variation coefficients for these traits.
3. There is a significantly difference in the resistances to bacterial leaf blight between indica and japonica rice varieties. Most of indica varieties identified were susceptible to the disease, and many japonica varieties identified more resistant. Most of resistant resources to bacterial leaf blight were foreign varieties or landraces. These excellent materials can be used for genetic study of resistance to bacterial leaf blight and breeding in rice.
4. Meanwhile it was found that there were 80 varieties with high resistance to bacterial leaf blight, e.g. IR1112-104, IR1561-228-3-2, Biguang, and Huangjinqing, and some multi-spike-type varieties with more than 10 of spikes, e.g. Guangcong, IR19784-9-2-1, Mayinl-1 and Aiganhuang, 137 of large-panicle-type varieties with more than 180 grains for japonica rice per panicle and 250 grains for indica rice, e.g. 1158-2, Gaomengya, Lijiangbeizigu, Yipiannian, and 29 of large-grain-type varieties with more than the 35g of 1000-grain weight, e.g. Cungu, Ruiyu406-23, Pangxiegu, Haohai. These especial materials with single or double excellent traits could be used in further genetic research and modern breeding in rice.
1、不同水稻品种资源,在南京地区种植,其始穗期、齐穗期和播种至齐穗的天数都有较大的变异,其中籼稻材料的始穗期和齐穗期分布在7月26日~8月14日和7月26日~8月24日区间(2004年),粳稻材料分布在7月26日~8月24日和7月26日~9月8日区间(2005年)。说明在收集的稻种资源中蕴藏着丰富的遗传多样性,有些材料可以用于水稻温光反应的遗传研究。
2、供试的籼稻材料的株高、单株有效穗、穗长、每穗总粒数、空瘪率和千粒重分别分布在80~120cm、3~9个、19~29cm、80~240粒、5%~40%和18~30g之间;粳稻材料的株高、单株有效穗、穗长、每穗总粒数、空瘪率和千粒重分别分布在80~120cm、3~8个、15~25cm、80~200粒、0~20%和19~31g之间。无论是籼稻或粳稻资源,上述各性状的变异系数均在20%以上,为水稻新品种选育提供了丰富的种质材料或基因资源。
3、粳稻和籼稻材料之间对水稻白叶枯病的抗性存在较大的差异,前者抗性品种居多,后者以高感白叶枯品种所占的比例最高;鉴定获得的抗白叶枯病资源多为国外引进品种或地方品种,这些抗病材料可供水稻抗白叶枯病遗传及其育种研究。
4、鉴定获得广丛、IR19784-9-2-1、马引1-1号、矮秆黄等35份多穗型稻种资源,单株有效穗数均在10个以上;获得1158-2、高孟亚、丽江背子谷、一片粘等137份大穗型稻种资源(籼稻材料的每穗总粒数大于250粒,粳稻材料大于180粒);获得寸谷、瑞玉406-23、螃蟹谷、毫海等29份大粒型稻种资源,千粒重均达到35g;获得IR1112-104、IR1561-228-3-2、碧风、黄金晴等80份高抗白叶枯病的材料;部分材料具有两个以上优良性状。这些特异的具有单一或多个优良性状的材料为水稻育种及遗传基础研究提供了丰富的基因资源。
Germplasm resources are the basic materials for plant breeding and genetic research. The identification and evaluation of the germplasm resources are one of the most important contents on the germplasm research. In this study it was identified the variation in some important agronomic traits of 1,466 rice (Oryza sativa L.) germplasm resources (808 indica rice, 658 japonica rice) from different countries and regions in during 2004 and 2005, including heading period (HP), full panicle stage (FPS), plant height (PH), panicle number per plant (PN), panicle length (PL), grain number main panicle (NGMP), seed setting rate(RSS), spikelet density (SD) 1,000-grain weight (1000GW), rate of brown rice (RBR) and resistance of rice bacterial leaf blight. The main results are decribled as follows
1. There were to large extent variation in HP, FPS, and growth duration (from sowing to full panicle stage, DSFPS) among all indica or japonica rice resources evaluated. The HP and FPS of indica rice were mainly distributing between 7/26~8/14 (month/day, the same below) and 7/26~8/24, respectively, and HP and FPS of japonica rice mainly distributing between 7/26~8/24 and 7/26~9/8. There was an obviously different reaction to temperature and light between different indica and japonica rice varieties. Among these rice germplasm resources there are very profound genetic diversity in reaction to temperature and light, which provides favourable materials for futher research.
2. The PH, PN, PL, NGMP, RSS, and 1000GW of indica rice were mainly distributing between 80~120 cm, 3~9, 19~29 cm, 80~240, 5~40%, and 18~30g, respectively, and the PH, PN, PL, NGMP, RSS, and 1000GW of japonica rice mainly distributing between 80~120 cm, 3~8, 15~25 cm, 80~200, 0~20%, and 19~31g. There was also an obviously variation of PH, PN, PL, NGMP, RSS, SD, 1000GW, and RBR between indica and japonica rice varieties, with the more than 20% of variation coefficients for these traits.
3. There is a significantly difference in the resistances to bacterial leaf blight between indica and japonica rice varieties. Most of indica varieties identified were susceptible to the disease, and many japonica varieties identified more resistant. Most of resistant resources to bacterial leaf blight were foreign varieties or landraces. These excellent materials can be used for genetic study of resistance to bacterial leaf blight and breeding in rice.
4. Meanwhile it was found that there were 80 varieties with high resistance to bacterial leaf blight, e.g. IR1112-104, IR1561-228-3-2, Biguang, and Huangjinqing, and some multi-spike-type varieties with more than 10 of spikes, e.g. Guangcong, IR19784-9-2-1, Mayinl-1 and Aiganhuang, 137 of large-panicle-type varieties with more than 180 grains for japonica rice per panicle and 250 grains for indica rice, e.g. 1158-2, Gaomengya, Lijiangbeizigu, Yipiannian, and 29 of large-grain-type varieties with more than the 35g of 1000-grain weight, e.g. Cungu, Ruiyu406-23, Pangxiegu, Haohai. These especial materials with single or double excellent traits could be used in further genetic research and modern breeding in rice.
引文
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