生育前期遮光对水稻灌浆期剑叶生理特性及籽粒生长的影响

通过盆栽试验研究了生育前期（插秧至孕穗期）遮光对水稻分蘖、灌浆期剑叶生理特性、籽粒生长、产量及其构成因素的影响.结果表明：前期遮光使水稻分蘖数明显降低（降低26.72%）,齐穗期与成熟期发生延迟;遮光结束后,水稻灌浆期剑叶叶面积、可溶性糖含量分别比对照增加了33.86%和30.23%;每穗实粒数、千粒重、籽粒终极生长量、最大灌浆速率、平均灌浆速率分别比对照降低了8.65%、4.81%、9.74%、20.22%和19.13%;有效穗数与产量分别降低了25.26%和39.56%,差异显著;灌浆速率峰值的出现时间提前了1.66 d,实际灌浆时间延长了6.80 d.与弱耐荫水稻品种相比,耐荫品种灌浆前中期的剑叶叶绿素a、叶绿素b、叶绿素(a+b)含量增加,灌浆期的剑叶叶面积增加幅度大,蛋白氮、可溶性糖含量及叶绿素 a/b升高,籽粒终极生长量及千粒重接近对照,减产幅度相对较低.     

不同播期和抽穗期弱光胁迫对杂交稻生理性状及产量的影响

以耐阴性中等的杂交稻川香9838为材料,研究不同播期和抽穗期弱光胁迫对杂交稻抽穗期光合特征、渗透调节物质、保护性酶活性和产量的影响.结果表明:不同播期和抽穗期弱光胁迫对水稻抽穗期干物质积累、剑叶光合速率、抗氧化酶活性和产量均有显著影响.随播期的推迟,全生育期明显缩短,稻谷产量呈不同程度的下降趋势.与对照相比,抽穗期轻度弱光胁迫(遮光20％)能缓解水稻生育过程中面临的高温及强光照危害,进而能缓解剑叶光合速率和抽穗期干物质累积的降低,调节抗氧化酶活性,适度提高结实率;而抽穗期中度(遮光40％)、重度(遮光60％)弱光胁迫均不利于水稻生长.剑叶光合速率、丙二醛含量和超氧化物歧化酶活性对播期和抽穗期弱光胁迫较为敏感.水稻始穗1 ～5d剑叶光合速率与稻谷产量和抽穗后干物质积累量显著相关.     

灌浆结实期温度对水稻产量和品质形成的影响

灌浆结实期是水稻产量和品质形成的关键时期,该时期温度对水稻籽粒灌浆具有显著的影响.随着全球气候趋暖以及极端天气频发,温度胁迫下籽粒灌浆和稻米品质的响应特征及其生理生化机制是目前稻作研究的热点之一.本文以灌浆结实期温度为切入点,对水稻产量和品质形成的适宜温度与温度影响时段以及温度胁迫下水稻生理生化特征等方面进行了梳理.灌浆初期(齐穗后20 d)是温度影响水稻产量和品质形成的关键时期,适温(21 ～ 26℃)有利于水稻灌浆和淀粉的充实与沉积,过高或过低温度均不利于提高水稻产量和品质.温度胁迫下,水稻生理生化活性下降,光合功能降低,抗逆性减弱,干物质积累和运转受抑,从而造成产量下降及品质变劣.这些可能为水稻优质高产栽培和灌浆结实期温度研究提供一定的参考.     

花后不同时期弱光和高温胁迫对小麦旗叶荧光特性及籽粒灌浆进程的影响

在田间试验条件下研究了花后不同时期弱光和高温胁迫对小麦旗叶荧光特性及籽粒灌浆进程的影响.结果表明,弱光处理3 d后,旗叶PSⅡ最大光化学效率（Fv/Fm）和光合速率（Pn）显著降低,但PSⅡ实际光化学效率（ΦPSⅡ）、荧光光化学猝灭系数（qP）和非光化学猝灭（NPQ）与对照相比差异较小;高温处理3 d后,Fv/Fm、Pn、ΦPSⅡ和qP均极显著降低, NPQ升高幅度较小.胁迫解除后,灌浆前期（花后8～10 d）弱光和高温处理后的旗叶荧光参数和光合速率略有恢复,但灌浆中期（花后15～17 d）处理后的各参数始终呈下降趋势, 说明前期处理效应是可逆的,而中期处理加速其衰老进程.用Logistic方程对各处理的籽粒灌浆过程模拟明,弱光和高温处理后籽粒粒重的降低主要是平均灌浆速率、最大灌浆速率和渐增期灌浆速率显著降低所致.灌浆持续期、最大灌浆速率出现时间、缓增持续期和缓增期灌浆速率受弱光和高温影响较小.     

结实期土壤水分亏缺影响水稻籽粒灌浆的生理原因

通过分析结实期土壤水分亏缺对水稻(Oryza sativa)籽粒中蔗糖向淀粉合成的生理代谢中关键酶活性及籽粒灌浆的调节作用, 探讨土壤水分亏缺影响水稻籽粒灌浆的生理机制。结果表明, 适度土壤水分亏缺诱导了灌浆高峰期(花后15-20天)水稻籽粒中蔗糖合成酶、腺苷二磷酶葡萄糖焦磷酸化酶、可溶性淀粉合成酶及淀粉分支酶活性的增加, 提高了籽粒灌浆中前期(花后10-20天)籽粒中淀粉积累速率和籽粒灌浆速率。但在灌浆后期(花后20-30天)籽粒中, 上述关键酶活性下降较快, 籽粒活跃灌浆期明显缩短, 灌浆前中期灌浆速率的增加不能完全补偿灌浆期缩短带来的同化物积累损失, 导致水分亏缺处理水稻籽粒充实不良, 结实率、籽粒重和产量显著降低。研究认为, 灌浆期土壤水分亏缺引起的灌浆后期籽粒中蔗糖向淀粉合成代谢中一些关键酶活性快速下降和籽粒内容物的供应不足是籽粒淀粉积累总量减少、粒重降低的主要生理原因。     

灌浆期高温对水稻光合特性、内源激素和稻米品质的影响

以2个籼稻品种:温度钝感型品种K30和温度敏感型品种R21为材料,利用人工气候室控温,在水稻灌浆期设置高温(日均温度34.9℃)和适温(日均温度28.0℃)处理,测定不同灌浆时期(5,10,15,20,25d和30d)光合特性、内源激素含量及稻米品质的变化。结果表明,高温增强了K30的光合能力,K30高温处理净光合速率(Pn)在整个灌浆期都明显高于对照;R21在灌浆前期(5、10d和15d)高温处理与适温处理Pn差异不明显,在灌浆后期(20、25d和30d)高温处理Pn下降。高温增加了K30叶片和籽粒脱落酸(ABA)含量;而R21高温处理和适温处理叶片与籽粒ABA含量的对比不明显。高温处理对两个水稻品种叶片和籽粒赤霉素(GA3)与生长素(IAA)含量也有不同程度影响。高温胁迫降低稻米品质,但K30比R21表现出更强的温度钝感特性。     

高温胁迫对水稻剑叶光合和叶绿素荧光特征的影响

采用盆栽方法在人工气候箱内对超级杂交稻组合"天优998"4个生育期(抽穗期、乳熟期、蜡熟期和完熟期)分别进行5个高温处理(最高温度分别设定为32、35、38、40和42℃,日较差为6℃,每个处理为期5d,每天2h,以自然条件下生长的水稻为对照),研究了高温胁迫对水稻剑叶光合和荧光特征的影响。结果表明:高温对水稻剑叶光合和荧光特征具有显著影响,而且因高温处理、生育期、参数的不同而有差异,温度越高影响越大;高温处理后水稻剑叶叶绿素含量(SPAD)、净光合速率(Pn)、气孔导度(Gs)下降,胞间CO2浓度(Ci)上升;光化学效率(Fv/Fm)、实际量子产量(ΦPSII)、表观电子传递速率(ETR)、光化学猝灭系数(qP)、PSⅡ光化学反应(P)下降,初始荧光(Fo)、非光化学猝灭系数(qN)、其他热耗散(E)上升;当最高温度大于35℃时,4个生育期的光合和荧光指标大多发生了显著变化,当最高温度大于38℃时,则大幅下降;抽穗期和乳熟期Pn、Gs下降显著、Ci上升显著,蜡熟期和完熟期SPAD下降显著,但高温下抽穗期、乳熟期水稻剑叶Fv/Fm的下降幅度和Fo的上升幅度比蜡熟期、完熟期大;高温胁迫对水稻剑叶Pn的影响比SPAD大,抽穗和乳熟期水稻剑叶Pn下降主要是由气孔因素引起,而蜡熟期和完熟期剑叶Pn的下降则主要是由非气孔因素所致。     

高温对水稻黄叶突变体剑叶光合特性和叶绿体超微结构的影响

以水稻黄叶突变体为材料,进行高温胁迫处理(9:30～17:30,40℃;其它时间段与自然温度相同),研究高温胁迫对其剑叶光合特性和叶绿体超微结构的影响。结果表明:高温胁迫使水稻黄叶突变体剑叶净光合速率(Pn)、PSⅡ原初光化学效率(Fv/Fm)、PSⅡ光量子效率(фPSⅡ)和非循环光合电子传递速率(ETR)显著降低,初始荧光(F0)显著增加,同时使剑叶叶绿素、可溶性蛋白质含量显著降低,细胞膜透性显著增加,叶片的叶绿体内基粒和基质片层模糊、疏松,结构紊乱。研究发现,40℃高温胁迫致使水稻黄叶突变体剑叶叶绿体超微结构破坏,引起PSⅡ反应中心的光化学效率降低,最终造成叶片光合能力减弱。     

外源海藻糖对高温胁迫下穗分化期水稻叶片生理特性及产量的影响

该研究以耐热型水稻品种Nagina22和热敏型水稻品种YR343为供试材料,采用盆栽试验,设置喷施清水+常温处理(NT0)、喷施清水+穗分化期高温胁迫(HT0),以及分别喷施5、10、15、20 mmol·L^-1外源海藻糖+高温胁迫(分别记为HT1、HT2、HT3、HT4)共6个处理,分析外源海藻糖对高温胁迫下穗分化期水稻叶片叶绿素含量、光合气体交换参数、抗氧化酶活性、渗透调节物质含量、活性氧含量等生理特性,以及籽粒产量及其构成因素的影响,为水稻抗热栽培和耐热品种的选育提供理论依据。结果表明:(1)在高温胁迫下水稻穗分化期,2个水稻品种叶片的叶绿素含量、光合气体交换参数及渗透调节物质含量均降低,叶片MDA和H₂O₂含量以及■的产生速率均上升,叶片抗氧化酶活性呈先增后降的趋势,最终显示水稻籽粒产量及其构成因素显著下降。(2)喷施外源海藻糖能显著增加高温胁迫下穗分化期水稻的每穗粒数、千粒重和结实率,从而提高籽粒产量,其中弱势粒千粒重和结实率的增幅高于强势粒,外源海藻糖最适喷施浓度为15 mmol·L^-1...     

高温对早籼稻花后剑叶氮代谢关键酶活性及籽粒蛋白质含量的影响

为探讨高温对不同类型早籼稻开花后剑叶中氮代谢关键酶活性及籽粒蛋白质含量的影响,利用人工气候室在籽粒灌浆成熟期进行高温(日均温31.5 ℃)和适温(日均温23.5 ℃)处理,对2个早籼稻品种(湘早籼24和株两优611)灌浆成熟期籽粒中蛋白质含量及剑叶中GS和GOGAT活性的动态变化进行了分析.结果表明:供试2个品种在高温...     

西双版纳热带人工雨林生物量及净第一性生产力的研究

通过标准木法和收获法研究分析了西双版纳热带人工模拟雨林的生物量及净第一性生产力.结果表明,林分总生物量约为390.4t·hm^-2,其中乔木层生物量达362.5t·hm^-2,占总生物量的92.8%,灌木层生物量为19.3t·hm^-2,占4.9%,层间植物(包括附生植物)的生物量为3.6t·hm^-2,草本层生物量为5.0t·hm^-2.分别占1.3%和0.9%.林分净第一性生产力为2227.3g·m^-2.年^-1,其中乔木层的净生产力为1553.5g·m^-2.年^-1,占整个林分净生产力的69.7%,灌木层、草本层及层间植物分别仅占26.9%、2.4%和1.0%.其器官分配比例以茎最高,达42.0%;其次为叶,占30.2%;枝仅占13.5%.叶面积指数为7.061.同时建立了林分优势种及乔木层各器官生物量的优化回归模型.     

应用灰色关联度分析影响两系杂交稻结实率的生理因素

采用灰色关联度分析法分析了在两系杂交水稻抽穗期喷施植物生长调节物质ALA对旗叶6个生理因素的综合影响,并对各生理因素与结实率间的灰色关联度进行了分析,所得结果如下:10-70 mg/L ALA处理的旗叶生理指标值与其最优值的关联度均比对照高,其中以30 mg/LALA处理与最优值的关联度最大．在灌浆前期,影响水稻结实率的主要生理因素是可溶性蛋白质含量和叶绿素含量,在灌浆中期、灌浆后期,影响水稻结实率的主要生理因素分别是叶绿素含量和鞘糖含量、叶面积和叶绿素含量．上述结果表明,在水稻抽穗期喷施10-70 mg/L ALA,能提高旗叶的生理活性．在水稻的整个灌浆期,叶绿素含量对水稻结实率作用最强烈,是水稻籽粒灌浆动态生理因素．     

Effects of High Temperature and Strong Light Combine Stress on Yield and Quality of Early <i>Indica</i> Rice with Different Amylose Content during Grout Filling

High temperature (HT) accompanied with strong light (SL) often occurs in early indica rice production during grout filling stage in southern China, which accelerates grain ripening. Two indica rice cultivars with different amylose content (Zhongjiazao17, ZJZ17, high amylose content; Xiangzaoxian45, XZX45, low amylose content) were grown under control (CK), HT, and HT+SL conditions during grout filling to determine the effects on grain yield and quality of rice. The results showed that compared with CK, HT and HT+SL significantly reduced the 1000-grain weight and filled grain rate whether in high or low amylose content early indica rice cultivars during grout filling, resulting in a significantly lower grain yield. Meanwhile, HT and HT+SL significantly decreased the milled rice rate, brown rice rate and head rice rate, whereas significantly increased chalky rate and chalky degree; and breakdown decreased and setback, pasting temperature increased in the cultivars, leading to the poor processing, appearance and cooking and eating quality of early indica rice cultivars. Compared with HT, the yield of ZJZ17 was significantly decreased under HT+SL, due to the lower 1000-grain weight. However, the effect of HT+SL on rice quality varied in the cultivars. In general, the yield and rice quality of ZJZ17 were relatively poor under HT+SL. Our results suggested that HT and HT+SL during grout filling had significant damage to the yield and quality of early indica rice cultivars, especially HT+SL, while the high amylose cultivar ZJZ17 showed a higher negative effect under HT+SL.     

Relationship between leaf photosynthetic function at grain filling stage and yield in super high-yielding hybrid rice (Oryza sativa. L)

The characteristics of dry matter production before and after heading and the relationships between photosynthesis of flag leaves and dry matter accumulation in panicles were investigated on super high-yielding rice cv. Xieyou 9308 (the yield of up to 12 t/ha) with rice cv. Xieyou 63 as a control. The results showed that (i) the capacity of dry matter production before and after heading in Xieyou 9308, i.e. biomass and daily dry matter production, was remarkably higher than that in Xieyou 63, especially after heading; (ii) CO2 assimilation capacity in flag leaves in Xieyou 9308, namely Leaf Source Capacity (LSC), was also significantly higher than that in Xieyou 63, and the supply of photosynthate in leaves and the demand of grain filling were completely synchronous in Xieyou 9308, but photosynthetic function in flag leaves in Xieyou 63 declined sharply 20 days after heading and it was not enough to meet the demand of grain filling. These results confirmed that high efficient photosynthetic function in     

Effects of Soil Drought and Atmospheric Humidity on Yield,Gas Exchange,and Stable Carbon Isotope Composition of Barley

The combined effects of water status, vapour pressure deficit (VPD), and elevated temperature from heading to maturity were studied in barley. Plants growing at high VPD, either under well-watered or water deficit conditions, had higher grain yield and grain filling rate than plants growing at low VPD. By contrast, water stress decreased grain yield and individual grain dry matter at any VPD. Water regime and to a lesser extent VPD affected ¹³C of plant parts sampled at mid-grain filling and maturity. The differences between treatments were maximal in mature grains, where high VPD increased ¹³C for both water regimes. However, the total amount of water used by the plant during grain filling did not change as response to a higher VPD whereas transpiration efficiency (TE) decreased. The net photosynthetic rate (P _N) of the flag leaves decreased significantly under water stress at both VPD regimes. However, P _N of the ears was higher at high VPD than at low VPD, and did not decrease as response to water stress. The higher correlation of grain yield with P _N of the ear compared with that of the flag leaf support the role of ear as the main photosynthetic organ during grain filling under water deficit and high VPD. The deleterious effects of combined moderately high temperature and drought on yield were attenuated at high VPD.     

Relationship between leaf photosynthetic function at grain filling stage and yield in super high-yielding hybrid rice (<Emphasis Type="Italic">Oryza sativa</Emphasis>. L)

The characteristics of dry matter production before and after heading and the relationships between photosynthesis of flag leaves and dry matter accumulation in panicles were investigated on super high-yielding rice cv. Xieyou 9308 (the yield of up to 12 t/ha) with rice cv. Xieyou 63 as a control. The results showed that (i) the capacity of dry matter production before and after heading in Xieyou 9308, i.e. biomass and daily dry matter production, was remarkably higher than that in Xieyou 63, especially after heading; (ii) CO₂ assimilation capacity in flag leaves in Xieyou 9308, namely Leaf Source Capacity (LSC), was also significantly higher than that in Xieyou 63, and the supply of photosynthate in leaves and the demand of grain filling were completely synchronous in Xieyou 9308, but photosynthetic function in flag leaves in Xieyou 63 declined sharply 20 days after heading and it was not enough to meet the demand of grain filling. These results confirmed that high efficient photosynthetic function in leaves after heading and its complete synchronization with grain filling are the key approaches to super high yield of rice.     

Relationship between leaf photosynthetic function at grain filling stage and yield in super high-yielding hybrid rice ( Oryza sativa . L)

The characteristics of dry matter production before and after heading and the relationships between photosynthesis of flag leaves and dry matter accumulation in panicles were investigated on super high-yielding rice cv. Xieyou 9308 (the yield of up to 12 t/ha) with rice cv. Xieyou 63 as a control. The results showed that (i) the capacity of dry matter production before and after heading in Xieyou 9308, i.e. biomass and daily dry matter production, was remarkably higher than that in Xieyou 63, especially after heading; (ii) CO₂ assimilation capacity in flag leaves in Xieyou 9308, namely Leaf Source Capacity (LSC), was also significantly higher than that in Xieyou 63, and the supply of photosynthate in leaves and the demand of grain filling were completely synchronous in Xieyou 9308, but photosynthetic function in flag leaves in Xieyou 63 declined sharply 20 days after heading and it was not enough to meet the demand of grain filling. These results confirmed that high efficient photosynthetic function in leaves after heading and its complete synchronization with grain filling are the key approaches to super high yield of rice.     

施氮量对超高产冬小麦灌浆期旗叶光响应曲线的影响

为冬小麦超高产栽培的氮肥管理提供技术支撑,在大田条件下研究了施氮量对超高产冬小麦灌浆期旗叶光响应曲线的影响.采用开放式气路测定了小麦旗叶的净光合速率、气孔导度、胞间二氧化碳浓度、蒸腾速率等相关指标,并运用"米式方程"对旗叶净光合速率进行了模拟,计算了光响应曲线的特征参数.结果表明,在0～300kg/hm2施氮范围内,随着光照强度的增加,各处理的旗叶净光合速率、气孔导度、蒸腾速率均随之增加,而胞间二氧化碳浓度却随之降低,但是在375kg/hm2施氮水平下旗叶的净光合速率、气孔导度、蒸腾速率的增加和胞间二氧化碳浓度的降低反而低于300kg/hm2施氮水平,表明合理的氮素水平对超高产小麦灌浆期旗叶的光响应曲线有明显的调节作用.在合理的施氮范围内,增施氮肥小麦旗叶在整个灌浆期内的最大净光合速率随之增加.在本试验条件下,超高产麦田的适宜施氮量为300kg/hm2.     

Leaf senescence and grain filling affected by post-anthesis high temperatures in two different wheat cultivars

High temperature is a major factor affecting grain yield and plant senescence in wheat growing regions of central and east China. In this study, two different wheat cultivars, Yangmai 9 with low-grain protein concentration and Xuzhou 26 with high-grain protein concentration, were exposed to different temperature regimes in growth chambers during grain filling. Four day/night temperature regimes of 34°C/22°C, 32°C/24°C, 26°C/14°C, and 24°C/16°C were established to obtain two daily temperatures of 28 and 20°C, and two diurnal day/night temperature differences of 12 and 8°C. Concentration of a lipid peroxidation product malondialdehyde (MDA), activities of the antioxidants superoxide dismutase (SOD) and catalase (CAT), chlorophyll concentration (SPAD) in flag leaves and kernel weight were determined. Results show that activities of SOD and CAT in leaves increased markedly on 14 days after anthesis (DAA) for the high-temperature treatment (34°C/22°C) and then declined. As a result, MDA concentration in leaves increased significantly under high temperature (34°C/22°C and 32°C/24°C). Compared with optimum temperature treatment, high temperature reduced the concentration of soluble protein and SPAD values in flag leaves. Grain-filling rate increased slightly initially, but decreased significantly during late grain filling under high temperature. As a result, final grain weight was reduced markedly under high temperature. Decreases in the activities of SOD and CAT and increases in MDA concentration in leaves were more pronounced with a 12°C of day/night temperature difference when under high temperatures. Kernel weight was higher under 12°C of day/night temperature difference under optimum temperatures (24°C/16°C and 26°C/14°C). The responses to high-temperature regimes appeared to differ between the two wheat cultivars with different grain protein concentrations. It is concluded that a larger diurnal temperature difference hastened the senescence of flag leaves under high-temperature conditions, but retarded senescence under optimum temperature treatments of 26°C/14°C and 24°C/16°C.     

Cereal flag leaf adaptations for grain yield under drought: knowledge status and gaps

Selection for drought-tolerant cereal varieties has successfully moved to screening for grain yield under stress. Grain yield is the culmination of the process of grain filling, which in turn is closely linked to flag leaf functionalities. For grain filling to occur under drought, either a relatively uncompromised or a favorably reprogrammed functioning of the flag leaf is required. However, knowledge is limited on how effectively flag leaves can function under stress conditions or what adaptations could allow such functioning. The information on rice flag leaf function and/or adaptation under drought is critically limited, while rice continues to be the crop with the highest potential to alleviate hunger and poverty. In fact, other cereal crops are equally important in maintaining regional food baskets and these too suffer intermittently from different intensities and kinds of drought. Patchy information is available on the morpho-anatomical, physiological and biochemical aspects of flag leaves under drought; even this is dispersed within different cereals, with studies predominantly on wheat. Hence, a reasonable understanding of the function of flag leaf under drought is lacking for any cereal. Importantly, very few reports exist on the molecular and mechanistic understanding of any known adaptations of flag leaf function under drought. Here we review the existing information on cereal flag leaf function under drought and highlight the need to better understand its characteristics/adaptations, especially at the molecular level. Novel drought-tolerant breeding material generated through selection for yield under stress can be a useful resource to underpin the mechanistic basis of the contribution of flag leaves to such yield. Improved knowledge can then be used for providing dependable markers (morphological, anatomical, physiological, biochemical and/or molecular) for robust flag leaves, leading to efficient and judicious use of resources for screening broader germplasm collections.