Hydraulic conductance as well as nitrogen accumulation plays a role in the higher rate of leaf photosynthesis of the most productive variety of rice in Japan

An indica variety Takanari is known as one of the most productive rice varieties in Japan and consistently produces 20-30% heavier dry matter during ripening than Japanese commercial varieties in the field. The higher rate of photosynthesis of individual leaves during ripening has been recognized in Takanari. By using pot-grown plants under conditions of minimal mutual shading, it was confirmed that the higher rate of leaf photosynthesis is responsible for the higher dry matter production after heading in Takanari as compared with a japonica variety, Koshihikari. The rate of leaf photosynthesis and shoot dry weight became larger in Takanari after the panicle formation and heading stages, respectively, than in Koshihikari. Roots grew rapidly in the panicle formation stage until heading in Takanari compared with Koshihikari. The higher rate of leaf photosynthesis in Takanari resulted not only from the higher content of leaf nitrogen, which was caused by its elevated capacity for nitrogen accumulation, but also from higher stomatal conductance. When measured under light-saturated conditions, stomatal conductance was already decreased due to the reduction in leaf water potential in Koshihikari even under conditions of a relatively small difference in leaf-air vapour pressure difference. In contrast, the higher stomatal conductance was supported by the maintenance of higher leaf water potential through the higher hydraulic conductance in Takanari with the larger area of root surface. However, no increase in root hydraulic conductivity was expected in Takanari. The larger root surface area of Takanari might be a target trait in future rice breeding for increasing dry matter production.     

云南作物资源特征特性及生态地理分布研究XⅢ稻抗病性资源的多样性分布研究

基于云南丰富的稻作生境和多样的稻种资源,分析了稻瘟病(苗瘟、叶瘟、穗颈瘟)和白叶枯病综合抗病性及多样性在不同气候类型、各类稻区和气温中的差异表现,其主要结果有:稻抗病性多样性富聚程度与气候环境因素关系密切,其中温度对抗病性多样性影响较大;抗病性多样性指数从南亚热带→中亚热带→北亚热带→北热带→南温带→中温带→北温带逐渐减小,反之增大;气候带可分为多样性富聚区(南亚热带、中亚热带、北亚热带、北热带和南温带)和多样性低富聚区(中温带和北温带),其中南亚热带是抗病性多样性最为富集的气候带;温度是影响稻抗病性多样性主要因子,18±1℃是稻抗病性多样性富集程度变化的分度点,13.1~21.0℃之间为抗病性多样性的富聚区。此外,挖掘了24份值得研究利用的优异稻抗病资源。     

多胚苗水稻APIV不同颖花的多卵和多胚苗频率研究

APIV的多卵和多胚苗频率与其颖花和种子的发育季节以及颖花的着生部位有一定关系。在夏季条件下抽穗开花,其多卵频率和多胚苗频率均比较低,而在秋季条件下抽穗开花则比较高。在同一稻穗中的多卵和多胚苗频率,强势颖花要明显地高于弱势颖花。在同—季节抽穗开花的主穗和分蘖穗之间,其颖花内的多卵频率不存在明显差异,多胚苗频率的差异也不明显。     

不同生育阶段夜温升高对双季水稻产量的影响

利用两间玻璃温室内夜间不同的温度条件,研究了水稻不同生育阶段的夜温升高对双季早、晚稻产量的影响.结果表明：播种-幼穗分化（一次枝梗分化期）期间夜温升高,有利于双季水稻的分蘖,植株有效穗数显著增加,平均夜间最低温度每升高1 ℃,双季早、晚稻的产量分别提高10.02%～13.18%和6.52%～7.78%（P＜0.01）;幼穗分化-抽穗（10%稻穗抽出剑叶鞘）期间夜温升高,导致颖花退化,使每穗发育颖花数减少,平均夜间最低温度每升高1 ℃,双季早、晚稻的产量分别下降3.76%～6.67%和3.66%～6.94%（P＜0.01）;灌浆结实期（抽穗-成熟）夜温升高,双季早稻的结实率和产量显著下降,而双季晚稻的结实率和产量显著提高,平均夜间最低温度每升高1 ℃,双季早稻的产量下降2.07%～5.61%（P＜0.05）,双季晚稻的产量提高1.63%～2.28%（P＜0.05）.表明不同生育阶段的夜温升高对双季水稻产量的影响存在明显差异.     

Development of near-isogenic lines with different alleles of Piz locus and analysis of their breeding effect under Yangdao 6 background

Rice blast is one of the most destructive diseases of rice. The most effective way of managing this disease is to develop resistant cultivars by introducing resistance genes into elite rice recipients. In this study, the near-isogenic lines (NILs) of six resistance alleles of the Piz locus (Pizt, Pi2, Pigm, Pi40, Pi9 and Piz) were constructed with Yangdao 6 as genetic background. Seedling inoculation tests showed that most of the NILs, namely NIL-Pi2, NIL-Pigm, NIL-Pi9, NIL-Pizt and NIL-Pi40, exhibited good resistance to blast with resistance frequencies (RFs) of over 82.50 %, execpt NIL-Piz which showed lower resistance with a RF of only 36.13 %. Furthermore, the improved-resistance NILs exhibited high similarity of their resistance spectra, with overlapping degrees of resistance spectrum (OD) of more than 75.83 %. However, the RF of panicle blast for all NILs decreased significantly compared with seedling blast in an artificial inoculation test. Although NIL-Pigm showed a higher panicle blast RF of 80 %, other NILs with outstanding performance in seedling blast resistance, namely NIL-Pizt, NIL-Pi2, NIL-Pi9 and NIL-Pi40, exhibited middle or low RFs of panicle blast with values from 56.67 to 33.30 %. Natural induction in a disease nursery showed a consistent trend in artificial inoculation results at seedling and heading stages. While NIL-Pigm was found to exhibit good resistance to leaf blast and panicle blast, NIL-Pi9 and NIL-Pizt were further demonstrated to show excellent resistance in Suichuan, Jiangxi province and Enshi, Hubei province, respectively, because of the race–region specificity. Agronomic traits of NILs were also investigated in order to evaluate the linkage drag effect of different alleles of the Piz locus. The resistance effects of the different alleles of the Piz locus under identical genetic background against seedling blast and panicle blast was first reported in this study, and the above results are expected to provide a theoretical support for the rational utilization of broad-spectrum resistance genes in breeding practice.     

A Simple and Accurate Resistance Identification Method of Rice to Neck Blast Disease In Vitro

Twelve rice cultivars with differential resistance to rice blast disease (Magnaporthe oryzae (Hebert) Barr), including Tetep (R), IR36 (MR) and Lijiangxituanhegu (HS), and nine locally planted rice cultivars in Jiangxi helped establish an identification method for rice resistance to neck blast. We describe a new technique of dropping a spore suspension on the panicle segment in vitro (DSSPS). This technique involved rice panicles that were initially 0.5–2 cm in length and then cut into a 7‐ to 8‐cm segment (i.e. an upper node of 1 cm and a lower node of 6–7 cm). The segment was placed into a Petri dish with a stack of sterile water saturated filter paper. The suspension (4 μl 1 × 10⁵spores/ml) was placed at each of three locations on the segment (with an approximate interval of 3 cm). Disease severity was then assessed according to a 0–9 scale after incubating for 9 days with a 12 h/12 h (light/day cycle) at 28°C. Choosing a suitable developmental stage of the rice panicle and blast strains was a key to evaluate resistance accurately. DSSPS is a simple and accurate method of identifying rice resistance to neck blast as compared to injecting the spore suspension into the rice panicle in vivo and resistance identification in natural nurseries. It is stressed that at least 20 single‐spore strains are needed to accurately assess rice resistance to neck blast. We tested 1005 rice cultivars for neck blast resistance in Jiangxi province during 2010–2015, which showed an accuracy of 85.77% by DSSPS as compared with natural nursery data.     

多胚苗水稻APIV不同颖花的多卵和多胚苗频率研究

ＡＰＩＶ的多卵和多胚苗频率与其颖花和种子的发育季节以及颖花的着生部位有一定关系。在夏季条件下抽穗开花,其多卵频率和多胚苗频率均比较低,而在秋季条件下抽穗开花则比较高。在同一稻穗中的多卵和多胚苗频率,强势颖花要明显地高于弱势颖花。在同一季节抽穗开花的主穗和分蘖穗之间,其颖花内的多卵频率不存在明显差异,多胚苗频率的差异也不明显。     

两系法杂交水稻抽穗结实期持水量和叶绿素含量的动态变化及其与籽粒产量关系研究

对25个两系法杂交水稻抽穗结实期持水量和叶绿素含量的动态变化及其与籽粒产量关系的研究表明,杂种水分持有量变化存在因组合不同而异的特点,总体上叶片和茎鞘水分持有量抽穗结实期间表现为下降趋势,穗部水分持有量表现为先升后降的特点,以抽穗后第7d,即籽粒灌浆高峰期最大;叶、茎鞘部水分持有量所占比例呈下降趋势,穗部所占比例则一直呈上升趋势,茎鞘部始终是水分的主要贮存场所;单茎植株水分总持有量抽穗后第1天多数组合表现为正向父本优势,尔后多转为负向父本优势;籽粒产量与抽穗后各期片水分持有量呈正相关,与抽穗后第1d茎鞘水分持有量呈正相关,自第7d始转为弱负相关,与抽穗后穗部水分持有量呈正相关,与抽穗后单茎植株水分总持有量呈正相关,籽粒产量与水分持有量在各器官中分配的相关和籽粒产量与各器官水分持有量的相关趋势总体一致;两系杂交稻叶绿素含量表现为先升后降的特点,以抽穗后第7天最高,与常规稻父本相比,两系杂交稻叶绿素含量各期大多数组合低于常规稻父本,且下降速度快于常规稻父本.对于两系法杂交水稻,育种上应优先考虑选择灌浆前、中期植株水分持量优势较强、叶绿素含量较高、后期茎叶物质转运优势明显的组合;栽培上应注意保证灌浆前、中期水分及营养元素,特别是氮素的供应,还要注意后期的及时控氮脱水防贪青,促进茎叶贮存物质向籽粒运转.     

不同生育期水分胁迫对水稻根叶渗透调节物质变化的影响

 干旱是限制水稻(Oryza sativa)作物产量的主要生态因子之一,渗透调节是作物适应干旱逆境的生理机制之一。在人为控制水分的盆栽条件下, 对水稻生长的分蘖期、幼穗分化期、抽穗期、结实期分别进行水分胁迫,研究水稻根系及叶片渗透调节物质的变化规律。结果表明, 不同生育期 干旱胁迫后叶片水势均显著下降,根系和叶片的有机渗透调节物质如可溶性糖、游离氨基酸、脯氨酸和无机渗透调节物质包括K⁺、Mg²⁺等含量 均大幅度上升,而且幼穗分化期和抽穗期这两个对水分胁迫最敏感的时期上升幅度最大,其中又以有机渗透调节物质变化最显著。不同生育期渗 透调节大小的顺序为：抽穗期>幼穗分化期>结实期>分蘖期,反映了不同生育时期渗透调节能力的差异。同时幼穗分化期和抽穗期水分胁迫结束 后再复水后根系和叶片的有机渗透调节物质含量仍长期明显高于对照,而无机离子则变化规律比较复杂,有的升高有的则降低。叶片的渗透调 节能力大于根系,无论是叶片或根系都是K⁺对渗透调节的贡献最大;其次是Ca²⁺, 6 种渗透调节物质含量大小排列顺序为K⁺ > Ca²⁺ >可溶性糖 > Mg²⁺ > 游离氨基酸 > 脯氨酸。     

Most susceptible stage of rice panicle development to Oebalus pugnax (Hemiptera: Pentatomidae)

Oebalus pugnax (F.) (Hemiptera: Pentatomidae) damage to rice, Orya savita L., reduces rough and head rice yields, and grain quality. O. pugnax feeds on developing kernels, introducing pathogenic fungi and causing a discoloration of the grain known as "peck." The objective of this study was to determine the stage of rice panicle development most susceptible to O. pugnax attack. During 2005 and 2006, in greenhouse and field experiments, rice plants were caged at the boot stage and then infested with adult or nymphal O. pugnax. Plants were infested during one of three stages of panicle development: heading, milk, or soft dough. Insects were allowed to feed on the plants for the duration of each stage and then killed. After maturation, panicles were harvested, and grain was hulled and milled. Grain weight, percentage of pecky grain, and percentage of whole grain after milling were recorded. No differences were found in the weight of rough, brown, or milled rice infested with O. pugnax during different stages of panicle development. Number of filled grains per cage was not affected by O. pugnax, and number of empty grains per cage was affected in two of four experiments. Higher percentage of peck was found in grain from panicles infested during dough and milk than in grain from panicles infested during heading. Adult O. pugnax caused higher percentage of peck than nymphs in all stages of panicle development. An inverse relationship was found between percentage of peck and percentage of whole grain weight only in one of the experiments.     

Tolerance and compensatory response of rice to sugarcane borer (Lepidoptera: Crambidae) injury

A 3-yr field experiment was conducted to evaluate the tolerance and compensatory response of rice (Oryza sativa L.) to injury caused by sugarcane borer, Diatraea saccharalis (F.), as affected by cultivar (Cocodrie, Francis, and Jefferson), stage of crop growth during which the injury occurred (third tiller stage, panicle differentiation stage, and heading stage), and sugarcane borer density. The proportion of rice tillers with sugarcane borer injury (leaf and leaf sheath injury and/or stem injury) was lower when injury occurred at the third tiller stage (0.05) than at panicle differentiation (0.19) and heading (0.18). When injury occurred at the two latter stages, both the proportion of tillers with injury and the proportion of tillers with stem injury were negatively correlated with rainfall. Rainfall resulted in dislodgement and mortality of sugarcane borer eggs and larvae before the larvae entered the stems. Rice plant density in this study (111.1 plants/m2) was higher than recorded for previous research on rice compensation using potted rice or conducted in low-density hill production systems (26.7-51.3 plants/m2). Two mechanisms of within-plant tolerance/compensation were observed. Stem injured plants produced approximately 0.69 more tillers than uninjured plants, whereas tillers with leaf and leaf sheath injury produced larger panicles, up to 39.5 and 21.0% heavier than uninjured tillers, when injury occurred at third tiller stage and at panicle differentiation, respectively. Rice yield was not reduced with up to 23% injured tiller and up to 10% injured stems at the third tiller stage, 42% injured tillers and 17% injured stems at panicle differentiation, and 28% injured tillers and 14% injured stems at heading. Significant between-plant compensation was not detected, suggesting competition between adjacent plants is not significantly reduced by injury. Our results suggest that rice can tolerate and/or compensate for a level of stem borer injury previously considered to be economically damaging.     

水稻物质生产与氮、磷、钾、硅素积累特点及其相互关系

大田条件下研究了30个水稻基因型的干物质与N、P、K、Si积累特性及其相互关系.结果表明,水稻干物质积累总量随N、P、K和Si积累总量的增加呈直线增加,其相关系数早季和晚季均达极显著水平.同时,N、P、K、Si积累的平衡有利于干物质积累,干物质积累量随NBI(养分平衡指数)直线增加,随NDI(养分偏离指数)直线下降.30个水稻品种平均N、P、K、Si积累总量比值早季为3.76:1:4.55:7.10,晚季为2.88:1:4.54:8.09.干物质积累能力以中期最强,前期最弱,而N积累能力却以前期最强,后期最弱.水稻抽穗前积累的干物质主要分配在茎鞘中,当抽穗期茎鞘比率达到最大时,茎鞘重约为叶片重的2倍,而抽穗前积累的N主要分配在叶片中,叶片中N的分配比率全生育期均比干物质分配比率高.成熟期积累的干物质、N和P主要分配在穗部,早、晚季稻的平均分配比率分别为58.01%、66.42%和70.06%,而K主要分配在茎鞘中,早、晚季稻的平均分配比率为62.08%.早季Si在茎中的分配比率(43.11%)最大,而晚季却以穗中的分配比率(46.99%)最大.     

水稻物质生产与氮、磷、钾、硅素积累特点及其相互关系

大田条件下研究了30个水稻基因型的干物质与N、P、K、Si积累特性及其相互关系．结果表明,水稻干物质积累总量随N、P、K和Si积累总量的增加呈直线增加,其相关系数早季和晚季均达极显著水平．同时,N、P、K、Si积累的平衡有利于干物质积累,干物质积累量随NBI(养分平衡指数)直线增加,随NDI(养分偏离指数)直线下降．30个水稻品种平均N、P、K、Si积累总量比值早季为3．76：1：4．55：7．10,晚季为2．88：1：4．54：8．09．干物质积累能力以中期最强,前期最弱,而N积累能力却以前期最强,后期最弱．水稻抽穗前积累的干物质主要分配在茎鞘中,当抽穗期茎鞘比率达到最大时,茎鞘重约为叶片重的2倍,而抽穗前积累的N主要分配在叶片中,叶片中N的分配比率全生育期均比干物质分配比率高．成熟期积累的干物质、N和P主要分配在穗部,早、晚季稻的平均分配比率分别为58．01％、66．42％和70．06％,而K主要分配在茎鞘中,早、晚季稻的平均分配比率为62．08％．早季Si在茎中的分配比率(43．11％)最大,而晚季却以穗中的分配比率(46．99％)最大．     

分子标记辅助选择改良水稻不育系臻达A及其杂交种的稻瘟病抗性

水稻抗稻瘟病基因Pi25是一个遗传传递能力强的广谱抗性基因。本研究以携带抗稻瘟病基因Pi25的BL27为抗源供体,与优质、配合力强、感稻瘟病的水稻保持系臻达B为受体亲本进行杂交、回交创制水稻抗病保持系新种质,再与臻达A测交和回交进行不育系转育,结合分子标记辅助选择和农艺性状筛选,获得3个抗性基因纯合、农艺性状和开花习性均与臻达A相似的改良不育系株系。利用福建省近年来致病性代表的22个稻瘟病菌株对3个改良不育系及其15个杂交种进行抗性鉴定,3个改良不育系的抗性频率为95.45%~100%,15个杂交种的抗性频率均达75%以上,而原始对照臻达A及其杂交种的抗性频率仅为54.55%和40.91%~63.64%。自然病圃诱发鉴定表明,3个改良不育系的叶瘟和穗颈瘟均为0级,表现高抗,而对照臻达A的叶瘟为5级,穗颈瘟为7级,表现感病;15个杂交种均表现良好的稻瘟病抗性。进一步分析比较15个杂交种的产量、农艺性状和稻米品质表现,结果表明臻达A-Pi25-3改良不育系的综合性状表现最优,继续回交转育,于2015年育成了稻瘟病抗性强、配合力好、群体整齐和性状稳定的不育系,命名为157A。研究表明,抗稻瘟病基因Pi25不仅在水稻不育系臻达A的遗传背景下的抗性表达完全,且在不同水稻恢复系测交种的背景下同样表现出较高水平的抗性,说明抗性基因Pi25对不育系稻瘟病改良的效果明显。创制的新不育系157A的稻瘟病抗性显著提高,还基本保留了原来不育系高配合力等优良特性,为选育高产、优质、抗病杂交稻新品种提供了不育系新种质。     

Dynamic Changes of Endogenous Plant Hormones in Rice Grains in Different Parts of Panicle at Grain filling Stage

The grain fresh weight and grain-filling rate at early grain developing stage in rice ( Oryza sativa L. ) were higher in the upper than in the lower part of panicle during grain filling. The grains in the upper and/or the lower part of panicle were analyzed for the endogenous plant hormones. The results indicated that the peak content of ABA and/or GA1 + 3 in the developing grains appeared at about the same stage when the highest increasing rate of grain appeared in the upper and in the lower part of the panicle respectively. After heading, the IAA content in developing grains steadily decreased in both the upper and the lower part of the panicle, GAn + 7 content decreased at first and then increased, and again decreased. At the early grain-filling stage, the ABA and GA1 + 3 contents in the developing grains were higher in the upper than in the lower part of the panicle. The role that the hormones play in the developing grains and the reason why the grains seed set better in the upper than in the lower part of the panicle were discussed.     

水稻结实过程中穗不同部位谷粒中内源激素的动态变化

水稻（ＯｒｙｚａｓａｔｉｖａＬ．）结实期间,穗上部谷粒的粒重比穗下部谷粒的高,灌浆前期的增重速率比穗下部谷粒的高,在整个灌浆过程中增重速率的变化比穗下部谷粒的快。利用ＥＬＩＳＡ方法对穗上部谷粒和穗下部谷粒中各种内源激素含量的分析表明,在灌浆过程中,谷粒中未检测出ｉＰＡｓ;在穗上部谷粒和穗下部谷粒中,ＡＢＡ和ＧＡ(１＋３)的含量的最大值出现的时间分别与穗上部谷粒和穗下部谷粒增重最快的时间基本一致,无论穗上部谷粒还是穗下部谷粒中,ＩＡＡ的含量基本上均呈下降趋势;ＧＡ(４＋７)的含量是先上升、后下降、再上升;在结实的前中期,谷粒中ＡＢＡ、ＧＡ(１＋３)的含量基本上均是穗上部谷粒高于穗下部谷粒。探讨了各种激素在谷粒灌浆过程中的作用及从激素的角度探讨了穗上部谷粒比穗下部谷粒结实性好的原因。     

Identification of quantitative trait loci for four morphologic traits under water stress in rice （Oryza sativa L.）

Late season drought coinciding with the rice booting to heading stage affects the development of plant height,panicle exsertion,and flag leaf size,and causes significant yield loss.In this study,a recombinant inbred line population derived from a cross between paddy and upland cultivars was used for data collection of the morphologic traits under well water and drought stress conditions.bought stress was applied at the stage of panicle initiation in the field in 2002 and at the booting stage in PVC pipes in 2003.The data from stress con ditions and their ratios(tait measured under stress condition/trait measured under well water condition)or differences(trait measured under stress condition minus trait measured under well water condition)were used for OTL analysis.Totally,17 and 36 QTLs for these traits were identified in 2002 and 2003,respectively,which explained a range of 2.58%-29.82%Of the phenotypic variation.Among them,six QTLs were commonly identified in the two years,suggesting that the drought stress in the two years was different.The genetic basis of these traits will provide useful information for improving rice late season drought resistance,and their application as indirect indices in rice late season drought resistance screening was also discussed.     

猪场废水施用对直播稻磷素吸收利用与氮磷生态化学计量的影响

以直播稻为对象,在上海农场进行了猪场处理废水基肥和穗肥不同用量组合的田间试验,研究猪场废水对水稻磷养分吸收利用与氮磷生态化学计量的影响。结果表明:施用猪场处理废水对直播水稻干物质积累、植株磷含量有显著影响。水稻拔节期、齐穗期和成熟期干物质积累量以及产量随废水施用量增加而增加;拔节期、齐穗期和成熟期植株、秸秆及籽粒含磷量与废水用量皆呈显著正相关;不同施肥处理在整个生育期水稻植株N∶P为3.13～5.10,在拔节期、齐穗期、成熟期分别为3.13～4.83、3.42～4.35、3.98～5.10,总体上以齐穗期N∶P值较低;成熟期秸秆N∶P值变动较大(4.30～6.57),而籽粒变化较小(3.85～4.37);齐穗期植株、成熟期秸秆、籽粒和植株的N∶P值与废水施用总量皆呈显著正相关,表明废水施用对直播稻氮素吸收的促进作用大于磷素。     

Changes at panicle emergence in the water relations of a wetland and a dryland Japonica rice cultivar under wetland conditions

The diurnal and seasonal changes in plant water relations of two Japonica rice ( Oryza sativa L.) cultivars, Nipponbare and Tachiminori, were studied under flooded conditions at Kyoto University. The dryland cv. Tachiminori maintained higher predawn and midday leaf osmotic potentials relative to the wetland cv. Nipponbare during the vegetative stage, but the ranking was reversed after flowering. The relationship between leaf water potential and leaf osmotic potential showed that prior to panicle emergence Nipponbare was able to adjust osmotically to maintain turgor, whereas after heading there was little turgor maintenance. Tachiminori showed little difference in osmotic adjustment before and after panicle emergence. Fertilizer treatment during panicle development also helped to maintain the degree of osmotic adjustment in both cultivars.