高产杂交稻‘两优培九’剑叶及其叶鞘的光合作用

以高产杂交稻‘两优培九’（LYP9）和杂交稻‘汕优63’（SY63）为研究材料,用HC同位素示踪等技术,研究了剑叶的叶片与叶鞘的光合作用与光合产物向叶鞘的分配。结果表明,‘两优培九’剑叶及其叶鞘的净光合速率的均值均高于‘汕优63’;剑叶叶鞘中部群体内透光率均值、倒二叶叶鞘中部群体内的透光率均值高于‘汕优63’;剑叶及其叶鞘的Rubisco初始羧化活性均值、总羧化活性均值和活化率均值都高于‘汕优63’,其差异大多数时期达显著水平。‘两优培九’叶鞘光合产物的输出比‘汕优63’快,其叶鞘光合产物输送到穗部的量即转化为经济产量的量比‘汕优63’高。‘两优培九’叶鞘的光合产物主要输送到穗等部位,对产量有一定的（约为15％）贡献。     

超高产杂交稻剑叶中C4途径酶活性和稳定碳同位素分异作用的变化

以超高产杂交水稻(Oryza sativa L.)"培矮64S/E32"和多年来大面积推广的杂交稻"汕优63"为材料,研究孕穗后剑叶中C4途径酶和对稳定碳同位素分异作用的变化.结果表明,籽粒灌浆期(移栽后68～75 d)的两个品种剑叶中NADP-MDH活性最高,随后下降;超高产杂交水稻"培矮64S/E32"的NADP-MDH的活性明显高于"汕优63";PEPCase和NADP-ME活性在黄熟期之前的叶片中持续上升.不同生育期的叶片与籽粒的△1aC值相近(19.49‰～19.82‰),在成熟期时较高.超高产水稻"培矮64S/E32"叶片的平均△13C值比"汕优63"高0.43‰.     

外源硅对花期高温胁迫下杂交水稻授粉结实特性的影响

以杂交中熟籼稻品种金优63、汕优63为供试材料,采用盆栽试验,在水稻生长前期连续喷施3次硅酸钠(Na₂SiO₃·9H₂O),于人工气候箱内在水稻开花期进行常温(日均温26.6 ℃,日最高温度29.4 ℃)和高温(日均温33.2 ℃,日最高温度40.1 ℃)处理5 d,研究施硅在花期高温胁迫下对杂交水稻剑叶叶绿素含量、光合性能、抗氧化酶活性、丙二醛(MDA)含量、花粉活力、花药酸性转化酶活性、柱头授粉性能和结实率等的影响.结果表明: 与对照相比,施硅可显著提高高温胁迫下水稻剑叶叶绿素含量,提高净光合速率和气孔导度,减少胞间CO₂浓度,增强叶片光合作用,减少MDA含量,提高超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性;提高花药中可溶性酸性转化酶活性和花粉活力,增加花粉囊基部裂口宽度,提高水稻每柱头上授粉总数、萌发数、花粉萌发率和萌发数大于10粒者所占的比例,降低花粉总数小于20粒者所占的比例;使金优63、汕优63结实率的降低分别减轻13.4%、14.1%.因此,在水稻生长前期喷施外源硅,可减轻水稻在开花期结实率的降低,提高杂交水稻的抗热性.     

超高产水稻组合‘培矮64S/E32’的耐光氧化特性及其机理

甲基紫精（MV）介导的光氧化导致两个水稻品种‘汕优63’(目前我国大面积推广的杂交水稻)和‘培矮64S/E32’（新培育的超高产杂交水稻）细胞电解质渗漏率都增加,前者增加的量大于后者,显示‘培矮64S/E32’的细胞膜系统受光氧化的伤害小。光氧化条件下,‘培矮64S/E32’仍能维持较高的光合放氧能力（Amax、Φi）、PSⅡ活性（Fv/Fm、ΦPSⅡ）和叶绿素荧光猝灭系数（qP、NPQ）,而且光氧化引起‘培矮64S/E32’这些参数的下降幅度也小。另外,光氧化导致了两个水稻品种抗氧化酶SOD和APX活性增加,‘培矮64S/E32’增加的幅度约为‘汕优63’的3倍。结果表明超高产水稻具有更强的耐光氧化能力。     

阴雨寡照地区高产水稻的生物学特征研究

以水稻(Oryza sativa Linn.)的常规稻品种‘黄华占’、‘湘早籼45’和‘湘晚籼13’,一般杂交稻品种‘金优402’和‘Ⅱ优838’,超级杂交稻品种‘株两优819’、‘丰源优299’、‘陆两优966’和‘Y两优1号’为实验材料,在2008年和2009年不同产季,对种植于多阴雨的湖南桃源县的不同品种水稻的产量构成因子、群体性状和叶片净光合速率(Pn)差异进行了研究.结果显示:在产量构成因子方面,不同品种水稻的有效穗数、每穗粒数、结实率、千粒质量和产量均有一定差异,超级杂交稻品种的产量高于一般杂交稻及常规稻品种;其中,产量分别与有效穗数和结实率呈显著正相关(P＜0.05),与每穗粒数呈极显著正相关(P＜0.O1),与千粒质量无显著相关性.在群体性状方面,不同品种水稻的株高、最大茎蘖数、最大叶面积指数(LAI)、生物量及收获指数均有一定差异,但产量分别与株高、最大LAI和生物量呈极显著正相关,与收获指数呈显著正相关,与最大茎蘖数无显著相关性;其中,产量与最大LAI的相关系数最大(0.889).在拔节期和抽穗期,各品种水稻单叶的Pn日变化曲线呈“双峰型”,Pn第1个峰值差异均较小,“午休”阶段以及第2个峰值Pn差异增大,总体上看“午休”阶段常规稻品种的Pn降幅明显大于杂交稻;各品种的Pn日平均值也有明显差异,常规稻品种的Pn日平均值总体上低于杂交稻.研究结果表明:在阴雨寡照的生态条件下超级杂交稻品种的产量高于其他类型水稻品种,其高产机制与叶面积指数的增加有关.     

超高产水稻组合‘培矮64S/E32’的耐光氧化特性及其机理

甲基紫精(MV)介导的光氧化导致两个水稻品种‘汕优63’(目前我国大面积推广的杂交水稻)和‘培矮64S/E32’(新培育的超高产杂交水稻)细胞电解质渗漏率都增加,前者增加的量大于后者,显示‘培矮64S／E32’的细胞膜系统受光氧化的伤害小。光氧化条件下,‘培矮64S／E32’仍能维持较高的光合放氧能力(Amax,φi)、PSⅡ活性(Fv/Fm、φPSⅡ)和叶绿素荧光猝灭系数(qP、MPQ),而且光氧化引起‘培矮64S／E32’这些参数的下降幅度也小。另外,光氧化导致了两个水稻品种抗氧化酶SOD和APX活性增加,‘培矮64S／E32’增加的幅度约为‘汕优63’的3倍。结果 表明超高产水稻具有更强的耐光氧化能力。     

超高产杂交稻剑叶中C4途径酶活性和稳定碳同位素分异作用的变化

以超高产杂交水稻(Oryza sativa L．)“培矮64S／E32”和多年来大面积推广的杂交稻“汕优63”为材料,研究孕穗后剑叶中C4途径酶和对稳定碳同位素分异作用的变化。结果表明,籽粒灌浆期(移栽后68～75d)的两个品种剑叶中NADP—MDH活性最高,随后下降;超高产杂交水稻“培矮64S／E32”的NADP-MDH的活性明显高于“汕优63”;PEPcase和NADP—ME活性在黄熟期之前的叶片中持续上升。不同生育期的叶片与籽粒的△^13C值相近(19．49‰～19．82‰),在成熟期时较高。超高产水稻“培矮64S／E32”叶片的平均△^13C值比“汕优63”高0．43‰。     

不同遗传背景下杂交籼稻功能叶与产量构成因素的相关

为明确水稻功能叶与产量构成因素间的相关性,以不同遗传背景下籼稻的10个不育系和16个恢复系为亲本,按照NCII设计配制两套双列杂交组合,对水稻12个功能叶性状与8个产量性状构成因素进行了相关分析,结果表明：3片功能叶叶长与叶面积、剑叶宽、倒2叶宽等性状之间均存在极显著正相关,功能叶夹角之间也存在极显著正相关,但不同遗传背景对夹角性状与9个形态性状之间的相关性则存在明显差异,在第一套组合中,其相关系数均为负值,且相关均不显著;而第二套组合则相反。8个产量构成因素中,单株穗数与平均穗长、着粒密度、穗实粒数以及穗着粒数之间存在极显著负相关,平均穗长与穗着粒数、结实率与单株产量呈显著或极显著正相关,遗传背景对产量组成上有较大影响,在第一套组合中单株产量主要由结实率、单株穗数以及穗实粒数等性状决定,而在第二套中则主要由穗实粒数和结实率等性状决定。在功能叶与产量构成因素的相关中,功能叶叶长、叶面积、剑叶宽、倒2叶宽与着粒密度、穗实粒数以及穗着粒数等3个性状之间存在显著或极显著正相关。12个水稻功能叶性状与8个产量构成因素之间的主成分分析表明,在不同的遗传背景下,产量构成因素均主要受叶面积和叶夹角影响,两种不同遗传背景中其累积贡献率分别为69.8%和84.0%。     

UV-B辐射增强对水稻生长发育及其产量形成的影响

在盆载条件下,研究UV-B辐射（280-320nm）增强对3个不同类型水稻品种（组合）的生长发育及其产量构成的影响。结果表明,UV-B辐射增强明显抑制水稻生长,使株高变矮、分蘖数减少、叶面积和干物质量下降,但其抑制程度依品种、水稻所处的生长阶段的不同而不同;株高在苗期下降幅度最大,为9.4%-12.2%,干物质量在分蘖期下降幅度最大,地下部和地上部干物质量分别下降45.3%-59.8%、54.9%-59.0%,增强的UV-B辐射使水稻主茎不同叶位的出叶时间延迟,生育期延长,汕优63、南川、IR65600-85的抽穗时间分别比对照延迟2d、3d和7d,成熟期分别推迟3d、4d和9d,UV-B辐射增强明显降低水稻叶片的叶绿素和类胡萝卜素含量,叶片叶绿素a荧光诱导动力学参数Fv、Fv/Fm、Fv/Fo下降,与对照相比,汕优6.3、南川、IR65600-85叶片的净光合速率分别下降了11.9%、12.8%、29.7%,UV-B辐射增强使水稻每株有效穗、每穗总粒数、结实率、千粒重下降,最终导致水稻籽粒产量下降25.2%-31.1%。     

规模化稻鸭共育对水稻株型结构及产量形成的影响

为探讨规模化稻鸭共育能否改善水稻的株型结构从而影响产量及产量结构的形成,本文通过大田规模化稻鸭共育、常规稻鸭共育和水稻直播的对比试验,研究了水稻分蘖末期和齐穗期的部分株型结构及水稻产量。结果表明:与常规稻鸭共育相比,规模化稻鸭共育减少水稻实际产量和有效穗,水稻部分株型结构各构成因素差异不显著;与水稻直播处理相比,规模化稻鸭共育在分蘖末期和齐穗期降低植株茎基宽,增加冠层幅度,保持植株具有一定松散度;增加剑叶和倒2叶叶开角、披垂度和叶片长度,降低倒3叶和倒4叶叶开角和披垂度,利于植株形成上披下挺的株型结构;增加剑叶、倒2叶和倒3叶叶面积占比,使叶面积较多的分布在上部叶片;促进根系生长,增加基叶高和不同叶序叶片SPAD值,减缓叶片衰老。因此,规模化稻鸭共育优化水稻部分株型结构,有利于提高光能利用效率和干物质积累,从而稳定水稻产量。     

Photosynthesis of the flag leaf blade and its sheath in high-yielding hybrid rice 'Liangyoupeijiu'.

Using high-yielding hybrid rice 'Liangyoupeijiu' (LYP9) and hybrid rice 'Shanyou 63' (SY63) as the experimental materials and using (14)C radio-autography, the photosynthetic capacities and distribution of photosynthates in flag leaf blades and sheaths of LYP9 were studied. The results showed that net photosynthetic rates (Pn) of the flag leaf blades and sheaths of LYP9 were much higher than those of SY63; the light transmissivity rates (LT) measured at the medium height of the flag leaf sheaths and the penultimate leaf sheaths were also significantly higher than those of SY63. The incipient activities, total activities and activation percentages of Rubisco in the flag leaf blade and sheath of LYP9 were all higher than those of SY63. The photosynthate transport rate in the sheaths of LYP9, and the quantity of photosynthate transported to the spikes and transformed to economic yield of LYP9 were all higher than those of SY63. The photosynthates produced by the sheaths were mainly transported to spike to make a certain contribution (about 15%) to yield.     

垄作梯式生态稻作对水稻光合生理特性及产量的影响

2011—2012年在湖南长沙以超级杂交稻Y两优1号、杂交稻汕优63和常规稻黄华占为材料进行大田试验,比较了垄作梯式生态稻作(RT)和垄厢生态稻作(B)对水稻产量和光合生理特性的影响.结果表明: 与传统稻作(CK)相比,RT的Y两优1号产量显著提高了28.7%,单位面积有效穗数显著提高16.1%,每穗粒数高6.8%,汕优63和黄华占的RT、B处理产量分别高24.3%和19.7%、12.0%和16.2%.RT的Y两优1号叶面积、抽穗前及抽穗后干物质积累量、总干物质量都高于CK,颖花数/叶面积、实粒数/叶面积、粒重/叶面积分别比CK高8.1%、14.8%和15.8%,光合势比CK高32.2%,而净同化率则比CK低9.3%.
     

Relationship Between PSⅡExcitation Pressure and Content of Super High-Yielding Hybrid Rice

The changes in photochemical features of PhotosystemⅡ(PSⅡ) and contents of Rubisco large subunit (RLS) and small subunit (RSS) in flag leaf from 75DAS to 113DAS (from filling to harvesting stages) were investigated in two hybrid rices (Oryza sativa L.) cv. Liangyoupeijiu and cv. Shanyou 63 grown in the field. Liangyoupeijiu is a super high-yielding rice and Shanyou 63 has widely been planted in China in these years. The results indicate that soluble protein and chlorophyll in both cultivars degraded slowly at first and dramatically thereafter. The degradation speed of soluble protein in Shanyou 63 was faster than that in Liangyoupeijiu. Both Fv/Fm and qP decreased in parallel with leaf senescence, whereas qN fell at first and then rose. No significant change in excitation pressure (1-qP ) was found before 89DAS but a sharply increase in both cultivars after it occurred. Excitation pressure rose more rapidly in Shanyou 63 than that in Liangyoupeijiu. The changes of RLS and RSS content exhibited the same trend as that of soluble protein content. A better linear correlation between RLS, RSS degradation and elevation of (1-qP ) were shown in both cultivars. We suggest that the increase in PSⅡ excitation pressure possibly induced the quick senescence process in rice flag leaf. The high-yielding of Liangyoupeijiu may be due to its maintenance of stronger photosynthetic capacity, longer and more stable photosynthetic functional du-ration than that of Shanyou 63.     

超高产杂交稻不同生育期的光合色素含量、净光合速率和水分利用效率

 较为系统地研究了两个超高产杂交稻‘两优培九’、‘华安3号’和多年来大面积推广的常规杂交稻‘汕优63’不同生育期的光合色素含量、净光合速率和水分利用效率。结果表明,在苗期,3个杂交稻的单位叶面积的叶绿素（Chl）含量差别不大,类胡萝卜素（Car）的含量以‘汕优63’为最高。然而,随着发育阶段的推进,到分蘖期,尤其是抽穗期剑叶的单位叶面积Chl和Car含量,两个超高产杂交稻高于‘汕优63’。从苗期到抽穗期,超高产杂交稻‘两优培九’和‘华安3号’的净光合速率（Pn）都比‘汕优63’高,而在苗期的午间强光条件下和分蘖期的早晨以及抽穗期的早晚相对弱光条件下其Pn的差别尤为显著。在苗期,‘汕优63’的水分利用效率（WUE）略高于‘两优培九’和‘华安3号’;到分蘖期和抽穗期,在上午10时之前和下午14时以后的时间段,则是两个超高产杂交稻明显高于‘汕优63’。这些结果说明,超高产杂交稻‘两优培九’和‘华安3号’不仅有较高的Pn和较强的抗光抑制能力,而且还能充分利用早晨和傍晚较弱的光强进行光合作用,这些是它们之所以高产的重要生理基础。此外,超高产杂交稻在生长发育的中后期（分蘖期和抽穗期）具有较高的WUE,有利于节约农业用水。     

Characterization of photosynthesis, photoinhibition and the activities of C4 pathway enzymes in a superhigh-yield rice, Liangyoupeijiu

Characteristics of photosynthetic gas exchange, photoinhibition and C4 pathway enzyme activities in both flag leaves and lemma were compared between a superhigh-yield rice (Oryza sativa L.) hybrid, Liangyoupeijiu and a traditional rice hybrid, Shanyou63. Liangyoupeijiu had a similar light saturated assimilation rate (Asat) to Shanyou63, but a much higher apparent quantum yield (AQY), carboxylation efficiency (CE) and quantum yield of CO2 fixation (φCO2). Liangyoupeijiu also showed a higher resistance to photoinhibition and higher non-radiative energy dissipation associated with the xanthophyll cycle than Shanyou63 when subjected to strong light. In addition, Liangyoupeijiu had higher activities of the C4 pathway enzymes in both flag leaves and lemmas than Shanyou63. These results indicate that higher light and CO2 use efficiency, higher resistance to photoinhibition and C4 pathway in both flag leaf and lemma may contribute to the higher yield of the superhigh-yield rice hybrid, Liangyoupeijiu.     

Characterization of photosynthesis, photoinhibition and the activities of C4 pathway enzymes in a superhigh-yield rice, Liangyoupeijiu

Characteristics of photosynthetic gas exchange, photoinhibition and C₄ pathway enzyme activities in both flag leaves and lemma were compared between a superhigh-yield rice (Oryza sativa L.) hybrid, Liangyoupeijiu and a traditional rice hybrid, Shanyou63. Liangyoupeijiu had a similar light saturated assimilation rate (Asat) to Shanyou63, but a much higher apparent quantum yield (AQY), carboxylation efficiency (CE) and quantum yield of CO₂ fixation (ΦCO₂). Liangyoupeijiu also showed a higher resistance to photoinhibition and higher non-radiative energy dissipation associated with the xanthophyll cycle than Shanyou63 when subjected to strong light. In addition, Liangyoupeijiu had higher activities of the C₄ pathway enzymes in both flag leaves and lemmas than Shanyou63. These results indicate that higher light and CO₂ use efficiency, higher resistance to photoinhibition and C₄ pathway in both flag leaf and lemma may contribute to the higher yield of the superhigh-yield rice hybrid, Liangyoupeijiu.     

野生稻高产QTL高效表达的光合生理基础

以携带野生稻高产QTL的晚稻新恢复系远恢611所配部分强优势组合为材料,对其部分光合生理指标进行测定的结果表明,远恢611系列组合杂种优势强,穗大粒多,库容量大,具有超高产潜力;后期上面3片功能叶宽大、直立、叶面积大,与茎秆夹角小,不披垂;比叶重大而稳定,不早衰;剑叶净光合速率高,库很大且源较足是远恢611系列组合高产的主要生理原因;也可能是野生稻高产QTL高效表达的重要生理基础。     

Changes in the Rate of Photosynthesis during Grain Filling and the Enzymatic Activities Associated with the Photosynthetic Carbon Metabolism in Rice Panicles

Photosynthesis is known to occur in rice panicles, but littlehas been reported about the photosynthetic or biochemical characteristicsof such panicles. The estimated gross amount of photo-syntheticallyassimilated CO₂ in a panicle is 30% of that in a flag leaf.This result and the good light-intercepting characteristicsof the panicle in the canopy suggest that photosynthesis inthe panicle may contribute significantly to grain filling. Therice panicle is composed of spikelets and of rachis-branchesincluding rachis which have estimated gross rates of photosynthesisduring the 30-day period after anthesis of 130 to 180 and 50to 100 µmol CO₂.(mg Chl)^–1.h^–1, respectively.The corresponding rate for the flag leaf is 180 to 230 µmolCO₂.(mg Chl)^–.h^–. On the basis of Chl, spikeletshave a high photosynthetic capability which is similar to thatof the flag leaf. The activities of ribulose-l,5-bisphosphate carboxylase (RuBPCase),phosphoenolpyruvate carboxylase (PEPCase), and pyruvate.P_i dikinase(PPDK) in spikelets were 129, 220, and 87 µmol.(mg Chl)^–.h^–,respectively. The activities of PEPCase and PPDK in spikeletswere considerably higher than those in the flag leaf or rachis-branches.Oxygen-insensitive photosynthesis was found only in spikelets.The K_m of NaHCO₃ for photosynthesis by slices of spikelets inan aqueous solution (0.6 mM) was considerably lower than thatfor slices of flag leaf (4.2 mM). All these results indicatethat spikelets have different photosynthetic characteristicsfrom those of the flag leaf and rachis-branches. The possibilityof C₃–C₄ intermediate photosynthesis or C₄-like photosynthesisin spikelets is discussed. ⁴Present address: Department of Biochemistry, Faculty of Science,Saitama University, Urawa, 338 Japan (Received February 14, 1990; Accepted June 12, 1990)