共查询到19条相似文献,搜索用时 187 毫秒
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以2010~2012年示范和展示品种为材料,以各品种单位面积平均产量及其株高、有效穗数、每穗粒数、结实率、千粒重、穗长等6个产量性状的表型值为依据,通过三年平均产量比较试验,系统的阐述了不同熟期品种在二积温带的产量及产量性状表现。试验结果表明:与主栽品种空育131比较,2010~2012年平均产量较高的11片叶品种为龙粳29、垦粳2号、垦稻21、垦稻20、龙粳27、龙粳20、龙粳26;产量较稳定的品种为空育131、龙粳25、龙粳20、垦粳2号、龙粳29。12片叶品种年际间产量差异较显著,相对较稳定的品种为垦鉴稻6号、垦稻14、龙粳21,绥粳10、松粳10、北稻5号;与主栽品种垦稻12比较,三年平均产量较高的品种为垦粳4号、垦稻14、垦鉴稻6号、绥粳10、龙粳21。本地区适宜选择11片叶品种为主栽品种。 相似文献
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绥粳18是黑龙江省农业科学院绥化分院以绥粳4号为母本、绥粳3号为父本配组,品种间有性杂交,系谱法育成,主茎12片叶的早熟品种。2016~2018年引种试验平均产量548.7 kg/667 m^2,对照品种龙庆稻3号平均产量517.3 kg/667 m^2,平均比对照品种增产6.03%。绥粳18耐寒抗逆性强,活秆成熟,适合于内蒙古自治区呼伦贝尔市≧10℃有效活动积温2 300~2 450℃的稻作区种植,可在相应的生态区域内推广应用。 相似文献
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黑龙江省第二积温带水稻新品种产量稳定性分析 总被引:2,自引:0,他引:2
以黑龙江省第二积温带2014年审定的10个水稻新品种为材料,采用随机区组设计,分析了黑龙江省第二季温带水稻新品种产量的稳定性。结果表明,供试的10个品种中,绥粳16的产量受环境影响较小,稳产性好;龙粳42的产量受环境影响较大,产量不稳定,但在适宜的条件下能够获得高产;参试品种在4个试验地点的表现有很大区别,不同品种在延寿县的表现较好,在方正县的产量差异较大,但是在适宜条件下能获得高产。参试的10个品种中有7个品种其亲本来自2个骨干亲本绥粳3号、绥粳4号,形成2条主干系,由这2大干系参与育成或者衍生出的水稻品种占了供试品种的70%,这7个品种稳产性表现较好。 相似文献
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倒伏是严重影响水稻产量与品质的一个因素。通过常规灌溉和节水抗旱栽培模式下与水稻抗倒性密切相关的性状指标的变化,探讨了黑龙江省各积温带水稻主栽品种(系)的抗倒性。结果表明,节水抗旱处理使部分品种(系)的倒伏指数减小,倒2节带鞘抗折力增加,节间干物质量增加,节间横切面积减少,茎壁增厚;抗倒性、抗旱力指数和实测产量等指标表现均较高的品种(系)第一积温带有龙稻16和龙稻24,第二积温带有绥粳4号、绥粳17、绥粳18、北稻7号、绥锦089290,第三积温带有绥粳15、龙粳56、龙粳51、龙粳58、龙粳20、龙交08119、龙丰12500、龙粳3100和龙粳1424,第四积温带有龙粳24、龙粳1525、龙交13S6,第五积温带有龙粳4344。通过对倒伏性状的调查研究,了解各积温带主栽品种(系)的抗倒性情况,可为黑龙江省水稻节水抗旱栽培和抗倒伏种质的研究与利用奠定基础。 相似文献
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寒地水稻产量稳定性分析 总被引:2,自引:0,他引:2
水稻产量由多种因素决定,不同年份、不同管理水平、不同品种产量各不相同,但不同品种间适应性、稳定性存在着差异。AMMI试验结果表明,绥粳9号稳产性比较好,其次是绥粳8号、龙稻3号,绥粳10号有较大增产潜力。绥粳8号、绥粳9号、绥粳10号、绥粳11号、龙稻3号、东农416均适宜在黑龙江省63监狱、鸡西、庆安种植;其中,绥粳10在鸡西地区的增产潜力较大,鸡西地区是其最适宜栽培地点;绥粳11号、东农416在鸡西地区也有较大增产潜力;而龙稻3号则在庆安有较大增产潜力。 相似文献
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《北方水稻》2018,(6)
对近年来84份省审水稻材料进行品种比较试验,产量相关性状偏相关分析表明,第一、三积温带品种穗数和结实率在产量中发挥作用较大,第二积温带品种穗数、穗粒数、结实率、千粒重相对协调,而第四积温带品种穗数和千粒重在产量构成中占比较大。依据产量相关性状聚类分析将试材划分为三大类,其中第Ⅰ大类又划分为4个小类,四个积温带的大部分香稻、糯稻、软米品种聚为(1)、(4)小类;(2)类主要包括龙稻品种、松粳品种;(3)类主要包括部分龙粳、龙庆和东富系列品种。Ⅱ类主要包括4个香稻和部分龙粳系列品种。Ⅲ类主要包括松粳系列、龙稻系列和绥稻系列品种等。总之同一育种单位育成的品种比较容易聚为类。Ⅰ类品种属于穗重型品种,Ⅱ类品种属于中间型品种,Ⅲ类品种属于穗数型品种。 相似文献
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辽宁省粳型超级稻品种生物产量与光合特性研究 总被引:2,自引:0,他引:2
【目的】辽宁省近年育成一批在生产上推广应用的超级稻品种或杂交组合,为北方粳稻单产水平的再次提高做出了重大的贡献,本研究旨在探讨辽宁省超级稻品种高产的主要成因及光合特点。【方法】以盐丰47和辽星1号2个中晚熟超级粳稻品种为试材,以辽粳9号为对照品种,种植于大田,对其生物产量、稻谷产量、光合特性等进行调查分析。【结果】2个超级稻品种的生物产量和稻谷都显著高于辽粳9号。盐丰47生物产量和收获指数都高于对照品种,产量水平最高,辽星1号的生物产量最高,收获指数略低于对照,产量水平居第2位。超级稻品种出穗后光合生产能力高于对照品种。【结论】增加或保持现有品种的收获指数,增加品种生物产量,并提高品种的生育后期叶源量和光合速率是今后水稻超高产育种的主要技术途径。 相似文献
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双季超级稻产量和氮磷钾吸收的基因型差异 总被引:1,自引:0,他引:1
为了探讨超级早稻和晚稻的产量构成和氮磷钾吸收的基因型差异,2007年在湖南省衡阳市、益阳市和岳阳市进行了不同品种的大田栽培试验。结果表明地点间和品种间的产量差异显著,其中:地点间产量以岳阳点较高,平均产量早稻为7.95t/hm^2。晚稻为7.86t/hm^2;品种间产量早稻以陆两优996和中嘉早32最高,平均产量分别为8.03和7.91t/hm^2,晚稻以钱优1号和天优华占产量较高,产量分别达到7.69和7.55t/hm^2。成熟期植株NPK含量和吸收量的品种间差异显著,但与产量的高低不相关。单位产量(1000kg稻谷)的NPK养分需要量分别为15.0~18.9,3.29~5.17和13.6~16.49kg。 相似文献
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目的 探明不同类型水稻品种产量和氮素吸收利用对FACE(大气CO2浓度增高)响应的差异。方法 以常规粳稻、杂交籼稻、常规籼稻共6个品种为供试材料,研究FACE对不同类型水稻产量、氮素吸收利用的影响。结果 1)FACE处理极显著提高了水稻产量,平均增加24.17%, 常规籼稻增幅最大,FACE和对照均以杂交籼稻最高;2)FACE处理显著增加了单位面积穗数,常规粳稻增幅最大,并显著增加了杂交籼稻和常规籼稻每穗粒数;3)FACE处理显著提高了成熟期吸氮量和氮素籽粒生产效率,成熟期吸氮量平均增加21.23%,杂交籼稻增幅最大, FACE和对照均以常规籼稻最高;氮素籽粒生产效率平均增加7.33%,杂交籼稻增幅最大,FACE和对照均以杂交籼稻最高。成熟期吸氮量对产量促进作用略大于成熟期氮素籽粒生产效率;4)FACE处理降低了植株含氮率,成熟期平均下降0.105个百分点,常规粳稻降幅最大。FACE处理极显著提高植株干物质量,成熟期平均增加23.95%,常规籼稻增幅最大;FACE处理显著提高常规籼稻和杂交籼稻成熟期单穗吸氮量,分别增加10.79%、13.93%,但常规粳稻下降了9.60%;FACE处理显著提高了成熟期群体吸氮强度,平均增加22.29%,杂交籼稻增幅最大。FACE处理对水稻全生育期天数无显著影响;FACE处理显著提高茎鞘、叶片、穗各器官吸氮量,叶片增幅最大,平均增加51.86%,杂交籼稻增幅最大;FACE处理显著提高了不同生育阶段吸氮量,抽穗-成熟阶段增幅最大,平均增加108.90%,杂交籼稻增幅最大;5)植株干物质量、单穗吸氮量、吸氮强度、穗吸氮量、抽穗-成熟阶段吸氮量对成熟期总吸氮量的促进作用分别大于植株含氮率、单位面积穗数、生育天数、茎鞘叶吸氮量、移栽-分蘖和分蘖-抽穗阶段吸氮量;6)FACE处理显著提高了氮肥偏生产力,降低了每百千克籽粒需氮量,前者平均增加24.16%,常规籼稻增加最多;后者平均降低4.7%,常规籼稻降幅最大。结论 FACE处理可显著提高水稻产量和氮素吸收利用效率,但品种间差异较大。 相似文献
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ZHOU Juan SHU Xiaowei LAI Shangkun XU Gaoping HUANG Jianye YAO Youli Yang Lianxin DONG Guichun WANG Yulong 《中国水稻科学》1986,34(6):561-573
【Objective】Our aim is to investigate the differences in response of grain yield, nitrogen absorption and utilization to FACE (atmospheric CO2 concentration increase) of different rice varieties. 【Method】Six rice varieties, including conventional japonica rice, hybrid indica rice, and conventional indica rice, were used to study the effects of free-air CO2 enrichment (FACE) (atmospheric CO2 concentration increase) on the nitrogen absorption, utilization, and yield of different types of rice.【Result】 1) FACE treatment dramatically increased rice yield by 24.17% on average and the maximum increment was observed in conventional indica rice. Compared with other types of rice varieties, hybrid indica showed the highest grain yield under both FACE and control (CK) treatments. 2) Panicle number was significantly improved in FACE treatment with conventional japonica rice varieties having the maximum increment. Spikelet number per panicle was significantly improved in hybrid and conventional indica rice varieties in FACE treatment. 3) The nitrogen absorption (NA) and nitrogen use efficiency for grain yield (NUEg) were significantly higher in FACE treatment than those in CK treatment. The average increase of NA was 21.23% with the maximum increment in hybrid indica rice varieties. Compared with other rice varieties, conventional indica rice varieties had the highest NA both in FACE and CK treatments. The average increase of NUEg was 7.33% with hybrid indica rice varieties enjoying the maximum increment. The hybrid indica rice varieties had the highest NUEg in FACE treatment and in CK treatment, respectively. 4) Nitrogen content was decreased in FACE treatment with the average decrease of 0.105%, among which the maximum decrease was observed in conventional japonica rice. Dry matter weight was extremely and significantly increased in FACE treatment. The average increase of dry weight was 23.95% with the maximum increment in conventional indica rice varieties. NA of single panicle was significantly improved in FACE treatment with the average increase of 10.79% in conventional indica rice varieties and 13.93% in hybrid indica rice varieties, but NA of single panicle was decrease by 9.60% in conventional japonica rice. FACE treatment significantly increased rice NA intensity with an average increase of 22.29% and the maximum increment was observed in hybrid indica rice varieties. The growth duration was not influenced by FACE treatment in all rice varieties. NAs of stem, leaf and panicle were significantly higher in FACE treatment than in CK treatment with the highest increase of 51.86% in leaf. The largest increase of NA was observed in hybrid indica rice. NA in different rice growth stages was significantly improved with the maximum increment of 108.90% during heading-maturity. The maximum increment of NA from heading to maturity was observed in hybrid indica rice varieties.5) Effects of dry matter weight, NA per panicle, NA intensity, NA of panicle and NA from heading to maturity on NA at maturity were greater than those of nitrogen content, panicle number, growth duration, NAA of leaf, stem and sheath, NAA during transplanting-tillering and tillering-heading. 6) Partial productivity of nitrogen fertilizer (PFPN) was significantly improved in FACE treatment with an average increase of 24.16% and the maximum increment in conventional indica rice. NAA per 100 kg grains was significantly reduced in FACE treatment with an average decrease of 4.7%. The maximum decrease of NAA per 100 kg grains was observed in conventional indica rice varieties.【Conclusion】The results indicated that FACE could markedly increased both grain yield and nitrogen use efficiency in all rice varieties, but the increases varied with the variety types. 相似文献
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