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1.
双季晚稻不同类型品种产量及其群体动态特征差异研究 总被引:2,自引:0,他引:2
在长江中游双季稻地区(江西上高),以籼粳杂交稻、杂交粳稻、常规粳稻和杂交籼稻4种类型20个具有代表性的品种为材料,采用湿润育秧大苗移栽种植方式,设置各类型品种最适的高产栽培处理,系统比较分析了不同类型水稻品种产量及其构成、茎蘖动态、叶面积动态与组成、光合势、干物质积累、群体生长率和净同化率等方面的差异,以期为双季稻区适宜品种的选用以及高产栽培提供理论依据与技术支撑。结果表明,双季晚稻不同类型品种产量表现为籼粳杂交稻杂交粳稻常规粳稻杂交籼稻,差异极显著。籼粳杂交稻群体产量最高的原因是在保持一定穗数的基础上,极显著增加每穗粒数,进而提高群体颖花量,同时保持稳定的结实率和千粒重。与杂交粳稻、常规粳稻和杂交籼稻群体相比,籼粳杂交稻群体茎蘖数于生育前期稳步增长,在有效分蘖临界叶龄期及时够苗,够苗后增长平缓,高峰苗数量较少、下降平缓,成穗率中等(73.19%左右);群体叶面积指数前期增长较缓,最大值出现在孕穗期,为7.93左右,此后平稳减少,抽穗期叶面积指数、有效叶面积率、高效叶面积率及粒叶比均极显著增高,成熟期仍保持3.85以上;群体干物质积累量有效分蘖临界叶龄期和拔节期少,拔节后干物质积累速度较快,孕穗期、抽穗期、乳熟期和成熟期显著或极显著增高,且生育中后期干物质积累比例高;群体光合势、群体生长率和净同化率表现为"前小,中高,后强"。 相似文献
2.
《作物学报》2021,(10)
为探究播期对机插杂交籼稻不同茎蘖部位稻穗枝梗数和颖花数的影响,以穗型差异较大的杂交籼稻品种F优498和宜香优2115为材料,通过分期播种试验研究机插杂交籼稻不同播期下不同茎蘖部位稻穗的枝梗数和颖花数。结果表明,(1)每穗一次、二次颖花数及二次枝梗数为:主茎一次分蘖二次分蘖,主茎和一次分蘖的一次、二次颖花数及二次枝梗数随播期推迟呈增加趋势,且平均一次、二次颖花数及二次枝梗数也随播期推迟而增加。每穗总枝梗数及总颖花数表现出了相同趋势。平均每穗总枝梗数和总颖花数也随播期推迟呈增加趋势。(2)相关分析表明,主茎、一次分蘖和二次分蘖的每穗总枝梗数及总颖花数与平均每穗总枝梗数及总颖花数呈极显著正相关,相关系数表现为主茎一次分蘖二次分蘖,且通径分析表明,主茎和一次分蘖的每穗总枝梗数及总颖花数对平均每穗总枝梗数及总颖花数的贡献率远大于二次分蘖。(3)主茎、一次分蘖和平均每穗大部分枝梗及颖花性状与穗分化期最高温度、平均温度和平均日照时数呈显著或极显著的正相关。综合看来,不同播期下主茎、一次分蘖和二次分蘖的枝梗数和颖花数有较大差异,选择大穗型籼稻品种进行机插更有利于获得较高的稻穗枝梗数和颖花数,同时根据播期确定相应的高产策略,早播机插在保证较高一次分蘖数的基础上,应注重提高每穗枝梗数和颖花数以提高产量,迟播机插在保证较高每穗颖花数的基础上,应注重提高结实率、千粒重。 相似文献
3.
贵州省高原山区杂交籼稻不同产量水平群体的特征 总被引:3,自引:0,他引:3
2011—2012年以超级杂交籼稻金优785为试材,研究贵州高原山区6个试验点的中产(9.0~10.5 t hm~(–2))、高产(10.5~12.0 t hm~(–2))、超高产(12.0~14.5 t hm~(–2))群体特征。结果表明:(1)不同产量水平群体的有效穗数差异最大,其次是穗粒数和结实率,千粒重差异最小,有效穗数与产量的直接通径系数2011年和2012年分别为0.5822和0.7304,相关系数分别为0.7771和0.8858;(2)抽穗期不同产量水平群体干物质积累量差异较小,成熟期超高产群体干物质积累量两年平均为21.9 h hm~(–2),分别比高产和中产群体提高了7.7%和15.9%,差异达显著水平;(3)抽穗期粒叶比以超高产群体最高,与高产和中产群体相比,超高产群体颖花数/叶面积分别提高9.7%和21.5%,实粒数/叶面积分别提高10.9%和17.8%,粒重/叶面积分别提高4.3%和8.4%;(4)超高产和高产群体穗型较大,每穗250粒以上的大穗比例较多,100粒以下的小穗比例较少;(5)顶四叶叶长顺序在不同产量水平群体间也有较大差异,中产群体以顶一叶最长、顶四叶最短,高产和超高产群体以顶二叶或顶三叶最长、顶四叶最短。因此,要实现贵州高原水稻超高产,需增加有效穗数、促大穗形成,确保抽穗期拥有适宜叶面积和较高的抽穗后干物质积累量。 相似文献
4.
为阐明籼、粳超级稻根系干物质积累与分布特征和主要形态生理性状指标的差异及其与产量形成的关系,以当地主体且具有代表性的2个超级杂交籼稻组合和2个常规粳型超级稻品种为试验材料,对麦稻两熟制条件下籼、粳超级稻单茎和群体根干重、总根长、根数、根体积、根系吸收面积、发根力、抽穗后根系伤流强度及根冠比、每条根长、根直径、根密度、颖花根流量、抽穗期根系在土层中的分布和产量构成等方面进行了系统的比较研究。结果表明:(1)整个生育期,粳稻的根冠比、每条根长、发根数、发根体积、发根干重及颖花根流量、穗数、群体颖花量、结实率和实收产量均高于籼稻,而根直径、每穗粒数和千粒重低于籼稻,其中根冠比、每条根长、颖花根流量、穗数、每穗粒数、结实率和实收产量差异达显著或极显著水平;(2)粳稻抽穗前(含抽穗期)单茎根干重、总根长、根数、根体积和根系总吸收表面积及根密度均低于籼稻,但差异不显著,而成熟期这6个指标粳稻均显著或极显著高于籼稻;(3)粳稻拔节前单茎活跃吸收表面积和活跃吸收表面积比均小于籼稻,而拔节后(含拔节期)两者差异趋势与之相反,差异显著或极显著;(4)除拔节期群体根干重、拔节期和抽穗期群体根数外,其他群体形态生理特征指标粳稻均显著或极显著高于籼稻;(5)无论是单茎还是群体,粳稻抽穗后0~35 d根系伤流量均显著或极显著高于籼稻;(6)粳稻0~10 cm土层根系干重所占比例极显著低于籼稻,10 cm以下土层根系干重占根系总干重的比例极显著高于籼稻,粳稻扎根更深,进一步强化了植株抗倒防早衰能力。与超级杂交籼稻相比,常规粳型超级稻抽穗后根系生长优势不断加大,特别是群体生长优势,成熟期粳稻所有根系形态生理特征指标均优于籼稻,是粳稻高产形成的重要原因和保障。 相似文献
5.
为了明确增密减氮栽培对不同类型水稻品种颖花形成(分化与退化)的影响以及颖花形成与产量的关系,在大田条件下采用裂-裂区试验设计,以籼粳杂交稻(甬优4949)、超级杂交籼稻(扬两优6号)和常规籼稻(黄华占)为供试材料,设置正常氮肥(180kg/hm2)和减氮(90kg/hm2)2个施氮水平,正常密度(30cm×15cm)和增密(20cm×15cm)2个移栽密度处理。结果表明,减氮轻微降低了3个品种的二次枝梗数、颖花分化数和颖花现存数,但差异均不显著;而增密显著降低了颖花分化数和颖花现存数。一次枝梗数、二次枝梗数和幼穗分化期干物质积累对颖花分化数贡献较大。就颖花生产效率而言,增密减氮能有效增加氮素、积温和辐射颖花生产效率,有利于单位面积总颖花数的提高。与扬两优6号和黄华占相比,甬优4949在增密减氮栽培下具有较高的幼穗分化期干物质积累量、颖花生产效率和颖花分化数,从而形成了大的库容,获得了高的产量。 相似文献
6.
迟熟中粳稻穗茎生长与每穗颖花数的关系 总被引:2,自引:0,他引:2
在盆栽条件下以粳稻品种武育粳3号和86优8号为材,穗肥施氮量设高、中、低三个水平,研究水稻植株穗分化过程中幼穗与茎的生长动态与每穗颖花数的关系。结果表明,穗分化前期幼穗生长较慢,对营养物质的竞争能力小于茎秆,86优8号(大穗型品种)穗分化前期经历的时间比武育粳3号(小穗型品种)长4 d。从抽穗前16 d开始,幼穗进入旺盛生长阶段,并与由上而下的第3节间伸长期相同,对营养物质的竞争能力超过茎秆。大穗型品种的穗茎比大于小穗型品种。抽穗期穗重、茎重与每穗颖花数呈正相关。抽穗前4~16 d穗重增长率与茎重增长率之比与颖花数也关系密切,该时期氮肥充足,穗重增加快,对促进颖花分化有利。 相似文献
7.
成都平原栽培方式对不同类型水稻品种生长发育及产量形成的影响 总被引:1,自引:0,他引:1
为明确成都平原水稻直播技术的适宜品种和配套高产栽培技术,以杂交籼稻‘德香4103’和常规籼稻‘金农丝苗’为材料开展了田间试验,调查测定了直播、机插秧及人工移栽等3 种栽培方式的生育期、分蘖成穗、叶面积消长、干物质积累、产量及其构成因素。结果表明,栽培方式间产量的差异与品种有关,杂交籼稻品种直播产量与人工移栽产量相当,高于机插秧;常规籼稻直播产量最高,机插其次,人工移栽最低。此外,直播稻群体数量增长最快,成穗以主茎和一次低位分蘖为主,抽穗后光合生产能力品种间存在显著差异。直播稻群体规模大,采用常规籼稻直播更有利于协调群体和个体的关系,依靠穗数优势实现高产。 相似文献
8.
《中国农学通报》2018,(6)
为明确成都平原水稻直播技术的适宜品种和配套高产栽培技术,以杂交籼稻‘德香4103’和常规籼稻‘金农丝苗’为材料开展了田间试验,调查测定了直播、机插秧及人工移栽等3种栽培方式的生育期、分蘖成穗、叶面积消长、干物质积累、产量及其构成因素。结果表明,栽培方式间产量的差异与品种有关,杂交籼稻品种直播产量与人工移栽产量相当,高于机插秧;常规籼稻直播产量最高,机插其次,人工移栽最低。此外,直播稻群体数量增长最快,成穗以主茎和一次低位分蘖为主,抽穗后光合生产能力品种间存在显著差异。直播稻群体规模大,采用常规籼稻直播更有利于协调群体和个体的关系,依靠穗数优势实现高产。 相似文献
9.
大田条件下以超级粳稻南粳44和宁粳3号为材料,设置2种氮肥水平(N10:150 kg hm–2,N20:300 kg hm–2)和3种遮光处理(L1:不遮光,L2:抽穗前遮光20 d,L3:抽穗后遮光20 d),研究光、氮及其互作对超级粳稻产量和物质生产特征的影响。结果表明,较之L1,L2不仅减少了有效穗数和每穗粒数,导致总颖花量下降,降幅达24.81%~35.63%,而且还显著降低了抽穗期茎蘖数和叶面积指数,降幅达2.90%~6.44%和19.02%~27.17%,导致抽穗至成熟阶段的光合势、干物质积累量显著下降,最终产量显著下降,降幅达27.23%~35.26%。较之L1,L3主要影响了抽穗至成熟阶段的光合物质积累,导致结实率和千粒重显著下降,降幅达1.49%~4.48%和5.54%~9.17%,最终产量显著下降,降幅达10.91%~18.47%。L2条件下,随着氮肥水平增加,抽穗期茎蘖数与叶面积指数均显著增加,导致抽穗至成熟阶段光合势、干物质积累显著增加,最终有效穗数、每穗粒数、总颖花量以及产量显著提高。L3条件下,随着氮肥水平增加,抽穗至成熟阶段的光合物质积累显著提高,其中茎叶干物质向穗部转运量显著增加,转运率和贡献率也进一步提高,最终产量显著提高。由此可见氮肥施用能部分弥补因弱光逆境对超级粳稻物质生产及其产量的影响。 相似文献
10.
以长江下游地区大面积种植的4种类型(籼粳杂交稻、常规粳稻、杂交粳稻和杂交籼稻)水稻品种中有代表性的品种为材料,设置6个氮肥水平(0、187.5、225.0、262.5、300.0、337.5 kg hm–2),比较研究其氮肥群体最高生产力及其产量构成、关键生育阶段天数、主要生育时期的叶面积指数和干物重。结果表明:(1)杂交籼稻获得最高生产力对应的施氮量为225.0~262.5 kg hm–2,常规粳稻为300.0 kg hm–2,杂交粳稻和籼粳杂交稻为262.5~300.0 kg hm–2。(2)氮肥群体最高生产力以籼粳杂交稻最高,达12.2(12.0~12.3)t hm–2,较杂交粳稻、常规粳稻和杂交籼稻分别高出6.6%、9.8%和19.6%(两年平均值)。群体颖花量和每穗粒数均以籼粳杂交稻最高,但其每穗粒数年度间波动较大。穗数和结实率以常规粳稻最高。(3)播种至抽穗期天数以杂交粳稻最长,抽穗至成熟期天数则以籼粳杂交稻最长,达60 d左右。全生育期天数呈杂交粳稻常规粳稻籼粳杂交稻杂交籼稻。两年中日产量以籼粳杂交稻最高。(4)籼粳杂交稻在抽穗、抽穗后20 d和成熟期的叶面积指数和干物重均显著高于另外3种类型品种,且抽穗至成熟期的干物质积累量也最高。此外,籼粳杂交稻在拔节至抽穗期以及抽穗至成熟期的光合势显著高于另外3种类型品种。较多的每穗粒数、较长的灌浆期天数以及较高的日产量、生育后期(抽穗至成熟期)较强的光合物质生产能力是籼粳杂交稻氮肥群体最高生产力形成的重要原因和基础。 相似文献
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12.
Jiyong Zhou Wuming Xiao Wenjuan Wang Aiqing Feng Xiaoyuan Zhu Shen Chen Zhiqiang Chen 《Euphytica》2017,213(7):143
Rice blast, caused by the fungal pathogen Magnaporthe oryzae, is one of the most devastating diseases of rice (Oryza sativa) worldwide. Identification and utilization of resistance genes in rice breeding is considered to be an effective and economical method to control this disease. Hanghui 1179 (HH1179) is a new native rice restorer line developed in South China. The hybrids derived from HH1179 show broad-spectrum resistance against rice blast in South China, and a further understanding of the genetic resistance in HH1179 will provide useful information for breeding resistant cultivars. In the present study, we used bulked segregant analysis combined with specific-length amplified fragment sequencing to identify a dominant gene from HH1179 that provides resistance against the rice blast isolate GD13-14. Association analysis indicated that the resistance gene is located on chromosome 6 and we mapped the target gene to a 100.8 kb region (between markers InDel-8 and RM19818) that contains the Pi2/Pi9/Piz/Piz-t/Pi50 gene cluster. Candidate gene prediction and cDNA sequencing indicated that the target resistance gene in HH1179 is Pi2. Our findings will be valuable for resistance breeding with restorer line HH1179. 相似文献
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14.
Kenneth A. Gravois 《Euphytica》1998,101(2):151-156
High rough rice yields are important for the profitable production of rice (Oryza sativa L.). The value of rough rice is determined
primarily by head rice (whole milled grains) and broken rice, together referred to as total milled rice. The objective of
this study was to optimize selection for rough rice yield, head rice, and total milled rice using path-coefficient analysis
and selection indices. Thirty-seven long grain pure lines were grown in an experiment at three Arkansas locations during 1993
and 1994. In another test, twenty-eight F1 hybrids obtained from an eight-parent half diallel of long-grain rices were grown at two locations in Arkansas during 1991.
For the pure lines, path analysis revealed that rough rice yield was approximately twice as important in determining total
milled rice/ha than head rice. Path analysis for the hybrids revealed that rough rice yield was an even greater component
in determining total milled rice/ha. Based on yield components for hybrid rice, panicle density had the largest direct effect
determining total milled rice/ha. Filled grain/panicle, grain weight, and head rice, in that order, were secondary, but positive,
factors determining total milled rice/ha. A selection index for pure lines based only on selection for head rice was 19.2
percent as effective as selection for total milled rice/ha directly. When selection for total milled rice/ha was based solely
on rough rice yield, selection was 82.7 percent as effective as selecting for total milled rice/ha directly. Selection to
improve total milled rice/ha should concentrate on increasing both rough rice yield and head rice. Rough rice yield should
receive greater priority than head rice in selection strategies.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
15.
水稻种质资源是育种的物质基础。水稻育种要在米质、产量、抗性上有新的突破,除了有新的育种技术外,还要有丰富的遗传资源。国际水稻遗传评价试验网(INGER)的参试材料集中了世界上主要产稻国家和国际研究机构提供的优良种质,来源广泛,遗传基础丰富。广西农科院从1980年起,参加由国际水稻研究所协调的国际水稻遗传评价试验网的国际合作研究工作,到2002年累计从各试验圃获得试验材料15890份,大大丰富了广西水稻新品种选育的物质基础,经试验评价,筛选出一批高产、优质和恢复源种质材料提供育种利用,并育成一批高产、优质、抗病的优良水稻品种… 相似文献
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Kenji Fujino Mari Obara Hitoshi Kiuchi Hiroshi Shinada Tsutomu Nishimura Toshihiko Maekawa Yuji Hirayama 《Plant Breeding》2020,139(5):845-852
A series of DNA markers for various agronomic traits may accelerate the success of marker-assisted selection in practical plant breeding programmes. Here, we developed DNA markers for the blast resistance gene Pi-cd. In this study, we examined the effects of the Pi-cd locus on not only blast resistance but also agronomic traits in agriculture. We developed three pyramiding lines (PLs) coupling Pi-cd with three blast resistance genes, pi21, Pi35 and Pi39. The effect of Pi-cd on blast resistance was dependent on the coupled resistance genes. Then, we evaluated the effects of Pi-cd on 13 agronomic traits. Amylose content and 1,000-grain weight showed significant differences between the PLs and current commercial varieties, which had no negative effects on agronomic trait values. Furthermore, we investigated the distribution of genotype for the Pi-cd locus among varieties of upland rice. The KT genotype specific to rice blast resistance may be predominant in the varieties. The results suggested that Pi-cd has the potential to be useful for improving blast resistance in rice breeding programmes. 相似文献
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Χ灾绷吹矸酆康挠跋焓钦?,直接影响比间接影响大。Study on the correlation between rice quality and agronomic traits of quality riceNIE Cheng rong, WEN Yu hui, WANG Yun bo, CHEN Ming zhong,LI Mei, LIU Dao quan(Agronomy Department, Foshan University , Nanhai 528231,China)The correlative analy 相似文献
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超干燥水稻种子贮藏研究 总被引:22,自引:7,他引:15
硅胶作干燥剂,超干燥水稻种子(灿,粳)。研究不同干燥方式的干燥速度及对种子生活力的影响。由含水量8.1% ̄9.4%干燥至7%、5%、4%、3%,2%后密封贮存于0℃,温室(15 ̄30℃),45℃。定期测定种子生活力和活力。结果表明,种子与硅胶重量之比1:10加风扇干燥速度最快,几种干燥方式对种子生活力没有影响。水稻种子的超干燥临界含水量为3%。经过5年3个月的贮藏后表明,贮于45℃老化的籼,粳稻种 相似文献
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Analysis of Vietnamese rice germplasm provides an insight into Japonica rice differentiation 总被引:4,自引:0,他引:4
Genetic differentiation among landraces of rice in northern Vietnam that lie in the centre of genetic diversity of Asian cultivated rice was analysed using DNA markers, and morphological and physiological traits to obtain an insight into the genetic differentiation of Asian rice. Principle coordinate analysis, based on nuclear RFLP data, divided Vietnamese rice varieties into three groups, designated A, B and C. Chloroplast DNA variation discriminated group A, which corresponded to the Indica rice varieties, from both groups B and C, which corresponded to the Japonica rice varieties. Physiological characteristics for Indica‐Japonica and tropical‐temperate Japonica discrimination suggested groups A and B consisted of typical Indica and Japonica varieties, respectively, while the characteristics of group C were distinct from those of the other two groups. This suggests that the genetic differences between groups B and C represent a new aspect of genetic variation that has not been previously reported in Japonica rice. Groups C and B corresponded with upland and lowland rice, respectively. Eight marker loci were associated with upland‐lowland differentiation in Japonica rice. Highlighted chromosomal regions might have been selected during the history of cultivation under different cultural conditions, and thus contain genes related to adaptation. 相似文献