共查询到20条相似文献,搜索用时 78 毫秒
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在利用重离子诱变结合M1TDS技术,培育出低镉型臻两优8612(国家镉低积累品种区试中的名称为“莲两优1号”,以下简称“莲两优1号”)基础上,2021—2022年进行多点试验。结果表明:莲两优1号具有稳定的镉低积累特性,在轻中度镉污染大田种植,稻米镉(Cd)不超标;锰(Mn)的吸收下降对其生长和产量没有明显影响;当土壤有效磷(P)极端缺乏时,莲两优1号在黄熟期开始出现叶尖落色变化,但其产量与对照差异不大。基于研究结果提出,推广OsNRAMP5基因突变型镉低积累水稻品种,首先要进行测土分析,选择轻中度镉污染大田(土壤总Cd含量≤1.5 mg/kg)种植;在水稻生长中后期,特别是对有效磷严重缺乏的田块,应结合病虫害防治喷施磷酸二氢钾,以促进壮籽增产;除种子公司提供高纯度种子和大田生产要注意田间除杂外,即便是镉低积累常规稻品种,也不建议农户自留种,以免因种子纯度问题造成稻谷Cd超标。 相似文献
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两系杂交晚稻新组合C两优7号的选育与应用 总被引:1,自引:0,他引:1
《杂交水稻》2014,(1)
C两优7号(C815S/R777)是湖南农业大学与湖南希望种业科技有限公司合作选育的两系杂交晚稻新组合,该组合株叶形态优良,米质较好,抗逆性强,适应性广。在2011和2012年湖南省区试中,C两优7号比对照天优华占全生育期平均长1.3 d,平均增产3.65%,2013年通过湖南省品种审定。 相似文献
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杂交水稻不同器官重金属铅浓度与累积量 总被引:4,自引:0,他引:4
以生长于盆钵中的两系杂交稻和三系杂交稻共6个组合为试验材料,设置土壤铅(Pb)浓度为500mg/kg和不加Pb土壤(对照)两个处理,测定水稻植株不同器官Pb的浓度和累积量。结果表明,Pb处理降低了两优培九、103S/郑粳2号、丰优香占和汕优63的产量,主要是每穗粒数减少,对其余组合的产量无显著影响;不同基因型水稻植株对Pb吸收与积累存在差异,以103S/郑粳2号和两优培九累积量最多,K优818累积量最少;水稻植株不同器官Pb的浓度和累积量的大小顺序为根>茎鞘>叶片。籽粒不同部位Pb的浓度大小顺序为糠层>颖壳>精米,精米中Pb累积量仅为谷粒的25%左右,精米中Pb的浓度以103S/郑粳2号最高,K优818最低;在抽穗期和成熟期,同一器官Pb浓度与累积量呈显著或极显著正相关,但不同器官之间的相关不显著。对不同杂交稻组合植株中Pb浓度和累积量差异的原因进行了讨论。 相似文献
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杂交水稻不同器官镉浓度与累积量 总被引:36,自引:1,他引:35
以生长于盆钵中的两系杂交稻两优培九、扬两优6号和103S/郑粳2号及三系杂交稻丰优香占、K优818和汕优63为材料,移栽前盆土内加入镉(Cd),使土壤Cd浓度为100 mg/kg,研究水稻植株不同器官Cd的浓度和累积量。与未加Cd的对照相比,Cd处理降低了两优培九和103S/郑粳2号的产量,其主要原因是每穗粒数减少,而对其余组合的产量无显著影响。水稻植株对Cd吸收及分配存在着基因型差异,以汕优63累积量最多,K优818累积量最少。水稻植株不同器官Cd的浓度和累积量的大小顺序为根>茎鞘>叶片。籽粒不同部位Cd的浓度大小顺序为糠层>颖壳>精米。精米中Cd累积量仅为谷粒Cd累积量的30%左右。在抽穗期和成熟期,同一器官Cd浓度及累积量呈显著或极显著正相关,但不同器官之间的相关不显著。在6个供试的杂交稻组合中,精米中Cd的浓度以扬两优6号最高,K优818最低。对不同杂交稻组合植株中Cd浓度和累积量差异的原因进行了讨论。 相似文献
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Practices and Prospects of Super Hybrid Rice Breeding 总被引:4,自引:0,他引:4
CHEN Li-yun XIAO Ying-hui TANG Wen-bang LEI Dong-yang 《水稻科学》2007,14(2):71-77
The great progress in super rice breeding both in China and other countries has been made in recent years. However, there were three main problems in super rice breeding: 1) the super rice varieties were still rare; 2) most super rice varieties exhibited narrow adaptability; and 3) current breeding theories emphasized too much on the rice growth model, but they were unpractical in guidance for rice breeding. According to the authors’ experience on the rice breeding, the breeding strategies including three steps (super parent breeding, super hybrid rice breeding and super hybrid rice seed production) were proposed, and the objectives of each step and the key technologies to achieve the goals were elucidated in detail. The super parent of hybrid rice should exhibit excellent performance in all agronomic traits, with the yield or sink capacity reached the level of the hybrid rice control in regional trials. The super hybrid rice combination should meet the following criteria: good rice quality, wide adaptation, lodging resistance, resistance to main insects and diseases, and the yield exceeded above 8% over the control varieties in the national and provincial regional trials. To achieve the goal, the technical strategies, such as selecting optimal combination of the parents, increasing selection pressure, paying more attention to harmony of ideal plant type, excellent physiological traits and all the agronomic traits, should be emphasized. The yield of seed production should reach 3.75 t/ha and 5.25 t/ha for the super hybrid rice combinations derived from early-season and middle-season types of male sterile lines, respectively. The main technologies for raising seed production yield included selecting optimum seed production site, using the male sterile line with large sink capacity and good outcrossing characteristics, and improving the amount of the pollen by intensive cultivation of the male parent. According to the technologies of the three-step breeding on super hybrid rice, two super rice parents, including a male parent 996 and a thermo(photo)-genic male sterile [T(P)GMS] line C815S, were bred. Furthermore, a super early hybrid rice combination, Luliangyou 996, which could be used as a double-season early rice variety in middle and lower reaches of the Yangtze River, China, was bred by using the super rice variety 996 as the male parent, and several hybrid rice combinations with higher yield than control variety in regional trials both of Hunan Province and state were bred with the T(P)GMS line C815S as the female parent. 相似文献
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两系亚种间杂交早稻干物质积累分配特性研究 总被引:2,自引:1,他引:2
根据测定分析,初步表明两系法亚种间杂交早稻组合干物质积累量大,且具有明显的中、后期优势,尤以生育后期优势显著。干物质的分配较合理,根系和穗部干物质量显著高于常规稻。叶面积适中。后期光合效率高 相似文献
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超级杂交稻育种三步法设想与实践 总被引:18,自引:0,他引:18
介绍了国内外水稻超高产育种的基本情况,提出了当前我国水稻超高产育种面临的新问题,即超级稻品种资源匮乏、部分超级杂交稻组合适应性较差、超高产水稻育种理论过于模式化等。针对当前形势,结合多年育种实践,提出了超级杂交稻育种三步法设想,即超级亲本选育——超级杂交组合选育——超级杂交制种,并详细阐述了各步骤的标准和实现其目标的技术路线。超级亲本要求综合性状优良,产量水平或库容量达到或基本达到各级区试对照杂交稻组合的水平。超级杂交稻组合的标准是品质优、适应性广、耐肥抗倒、对主要病虫害达中抗以上水平,产量水平较国家或省区试中对照增产8%左右。其选育的技术路线是通过双亲最佳组配方式,增加选择压力,注重理想株型和优良生理机能及其各性状间的高度协调。超级杂交制种产量水平根据不育系的类型来确定,其中早稻类型不育系杂交制种产量要求大面积达到3.75 t/hm2以上,中稻类型的不育系要求达到5.25 t/hm2以上。其技术路线是通过选择最佳的制种基地,选用库容量大和异交结实特性好的不育系,通过超大行比与超常规培育父本措施提高父本的花粉量,从而提高制种产量。按照超级杂交稻育种三步法的技术路线,成功选育了父本996和两用核不育系C815S两个超级杂交稻亲本,利用前者选育出适合长江中下游稻区作双季早稻种植的超级杂交早稻组合陆两优996,用后者选配出几个增产幅度大、极有应用前景的超级稻新组合。 相似文献
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