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1.
不同粒型小麦品种内源GA3和ABA含量变化及其与源库的关系   总被引:11,自引:1,他引:10  
小麦大粒品种籽粒和旗叶中的GA3 含量高于小粒品种 ,而ABA含量低于小粒品种 ,其变化均为单峰曲线 ;但大粒品种籽粒和旗叶中的GA3 的峰值高于小粒品种 ,而ABA的峰值均低于小粒品种 ,而且大粒品种籽粒中ABA出现峰值的时间比小粒品种晚。大粒品种旗叶中GA3 /ABA与光合速率呈显著正相关 (r =0 .884 0 ) ,籽粒中GA3 /ABA与籽粒灌浆速率呈显著正相关 (r =0 .90 70 ) ,籽粒与旗叶中的GA3 /ABA相关不显著 ,而小粒品种籽粒与旗叶中的GA3 /ABA相关达极显著水平 (r =0 .95 98 )  相似文献   

2.
小麦花后水分亏缺和复水对同化物转运和籽粒灌浆的影响   总被引:1,自引:0,他引:1  
为了阐明水分亏缺对小麦花后同化物转运和籽粒灌浆的影响及其生理机制的相关变化,以盆栽小麦旱作品种‘长旱58’为材料,自花后9 d起,设置正常供水(WW)、中度干旱胁迫后复水(MD)和重度干旱胁迫后复水 (SD)3个水分处理,比较干旱胁迫后复水处理对小麦籽粒产量、产量构成因素及水分利用效率、强弱势粒灌浆动态、旗叶光合性能、茎鞘非结构性碳水化合物(NSC)转运、籽粒形成关键酶活性变化等的影响。结果表明:(1)与WW相比,MD处理显著增加了小麦穗粒数和千粒重,进而提高籽粒产量、水分利用效率和小麦弱势粒的最大灌浆速率和平均灌浆速率,对强势粒则无显著影响,而SD处理则显著降低了穗粒数、千粒重、强弱势粒的最大灌浆速率和平均灌浆速率,但水分利用效率显著高于WW处理。(2)MD处理植株旗叶在小麦灌浆过程中维持了与WW基本相同的净光合速率,同时在小麦花后9~20 d时MD处理下气孔导度和蒸腾速率变化不明显,而在SD处理下气孔导度和蒸腾速率则急剧下降;另外,与WW相比,在整个灌浆期MD处理下旗叶叶绿素含量变化不显著,而SD处理下叶绿素含量呈大幅下降趋势。(3)MD处理提高了小麦弱势粒蔗糖合成酶和腺苷二磷酸葡萄糖焦磷酸化酶活性;同时使灌浆中后期有较高的果聚糖水解酶(FEH)活性和较低果聚糖含量,显著增强了茎鞘同化物质转运,提高茎鞘储藏物质对粒重的贡献率。研究发现,中度水分胁迫后复水处理小麦植株具有较好的叶片性能、花后较多的茎鞘同化物向籽粒转运以及较高的弱势粒库活性,从而提高旱作小麦弱势粒灌浆速率,增加穗粒数和粒重, 进而提高籽粒产量。  相似文献   

3.
土壤水分胁迫加重,小麦旗叶、根系和籽粒中ABA含量迅速达到高峰,然后又快速降低;胁迫愈重,细胞分裂素(iPAs)峰值出现愈早,尔后下降,从而加速了植株衰老进程,导致产量降低。但在轻度水分胁迫上下上述性状与对照无显著差异。  相似文献   

4.
不同供钾水平对小麦旗叶光合速率日变化的影响   总被引:20,自引:1,他引:19  
 在田间栽培条件下,研究了不同供钾水平对小麦(Triticum aestivum)‘安农8903’旗叶光合速率日变化的影响。结果表明:从扬花期到灌浆中期(5月1~20日),植株及叶片中钾含量随不同供钾水平的提高而增大,尤以施K 82.5 kg·hm-2的增幅较大(2.7倍)。在小麦籽粒的灌浆进程中,植株的含钾量不断增加,但叶片中的含钾量却呈下降趋势。扬花期到灌浆中期的小麦旗叶由于高光强、高温和较低的相对湿度,其气孔导度和净光合速率日变化均呈双峰曲线。两者皆在10∶00左右和15∶00左右各有一个峰值,前一峰值高于后一峰值,两峰之间的低谷在14∶00左右。胞间CO2浓度日变化则呈相反趋势,两个低谷出现于12∶00和15∶00,但灌浆中期时日变化曲线中只有一个低谷。土壤增施钾肥可增大小麦旗叶的气孔导度和净光合速率,减轻10%~37%由光合午休造成的CO2同化量损失,提高小麦产量。但施钾量与胞间CO2浓度之间相关性不显著。4种不同的钾素水平处理中以施用K2O 165 kg·hm-2的效果最佳。  相似文献   

5.
土壤水分胁迫加重,小麦旗叶、根系和籽粒中ABA含量迅速达到高峰,然后又快速降低;胁迫愈重,细胞分裂素(iPAs)峰值出现愈早,尔后下降,从而加速了植株衰老进程,导致产量降低。但在轻度水分胁迫下上述性状与对照无显著差异。  相似文献   

6.
氮素形态对小麦花后不同器官内源激素含量的影响   总被引:9,自引:0,他引:9       下载免费PDF全文
 采用盆栽方法,研究了酰胺态氮、铵态氮和硝态氮对小麦(Triticum aestivum) 花后根系、旗叶和籽粒内源激素IAA、GA3、ABA和ZR含量的影响。结果表明,小麦不同器官的内源激素含量对3种氮素形态的响应不同。氮素形态调节籽粒灌浆是通过根系、旗叶和籽粒中内源激素的协同作用而实现的。酰胺态氮与硝态氮处理相比,小麦花后5~15 d,旗叶GA3含量、籽粒IAA和ABA含量较高,籽粒灌浆速率(Grain-filling rate, GFR)较高;花后15~25 d,根系GA3含量、旗叶IAA和GA3含量、籽粒ABA含量较高,籽粒IAA含量较低,GFR较低。铵态氮与硝态氮处理相比,小麦花后5 d,籽粒ZR含量较高;花后15 d前后,籽粒IAA、ABA含量较低,GFR 较低;花后20~25 d,根系ZR、GA3含量较低,旗叶IAA、GA3含量较低,ABA含量较高,籽粒 ABA、GA3含量较低,IAA含量较高,GFR较高。铵态氮比硝态氮处理的小麦籽粒粒重显著增加。 铵态氮和酰胺态氮处理比硝态氮处理增产显著。建议在‘豫麦49’施肥时,使用铵态氮或酰胺态氮并配施硝化抑制剂。  相似文献   

7.
潘庆民1,于振文2,王月福2   总被引:5,自引:0,他引:5  
采用盆栽和水泥池栽研究了追氮时期对小麦光合作用、14C同化物运转分配和硝酸还原酶(NR)活性的影响.结果表明,拔节(雌雄蕊原基形成)期较起身(二棱)期追施氮肥,显著提高了小麦开花后的旗叶叶绿素含量和单叶光合速率;灌浆期旗叶14C同化物向籽粒转移比例显著提高,而在营养器官的滞留比例显著降低;旗叶和根系中硝酸还原酶(NR)活性亦显著提高.小麦穗粒数、粒重和产量增加,蛋白质含量提高.  相似文献   

8.
冷型小麦旗叶衰老和活性氧代谢特性研究   总被引:18,自引:2,他引:16  
以典型的冷型小麦和暖型小麦为试验材料,研究了同一环境背景下不同温度型小麦开花后的旗叶衰老和活性氧代谢特性。结果表明,与暖型小麦相比,冷型小麦籽料灌浆期旗叶叶绿素和可溶性蛋白质含量下降缓慢、含量高,整个业粒形成和灌浆期MDA积累速度慢、含量低,籽粒灌浆期防御活性氧伤害的关键性保护酶(SOD、CAT和POD)活性下隆幅度小,灌浆中后期活性水平高。由此认为,小麦旗叶衰老和活性氧代谢特性与其温度型的归属关  相似文献   

9.
采用盆栽和水泥池栽研究了追氮时期对小麦光合作用、^14C同化物运转分配和硝酸还原酶(NR)活性的影响,结果表明,拔节(雌雄蕊原基形成)期较起身(二棱)期追施氮肥,显著提高了小麦开花后的旗叶叶绿素含量和单叶光合速率;灌浆期旗叶^14C同化物向籽粒转移比例显著提高,而在营养器官的滞留比例显著降低;旗叶和根系中硝酸还原酶(NR)活性亦显著提高,小麦穗粒数、粒重和产量增加,蛋白质含量提高。  相似文献   

10.
以2个粒重不同的小麦品种为材料,研究了开花后旗叶、根系和籽粒异戊烯基腺苷(iPA)和脱落酸(ABA)含量的变化及其与旗叶光合速率、根系活力和籽粒样重的关系。结果表明,高粒重的鲁麦22较低粒重的鲁麦14,旗叶和根系iPA含量高且速降始期推迟,ABA含量低且速升始期推迟;与此相对应,旗叶光合速率和根系活力高且高值持续期长。鲁麦22籽粒iPA含量高于鲁麦14,其ABA含量在花后16d内高于鲁麦14,16  相似文献   

11.
渍水对小麦扬麦5号旗叶和根系衰老的影响   总被引:15,自引:0,他引:15  
姜东  陶勤南  张国平 《应用生态学报》2002,13(11):1519-1521
1 引  言生育中后期渍水是长江中下游麦区小麦高产稳产的主要限制因子[13 ,16] .该区由于普遍实行稻麦多熟种植制度 ,前茬水稻使土壤浸水时间过长 ,土壤粘重 ,排水困难 ,透气性差而造成湿害 ;另外 ,该区常年麦季降雨量 5 0 0~ 80 0mm (浙江省可达 10 0 0mm)多集中于小麦生长的中后期 ,大大超过了小麦正常需水量 (35 0~ 4 5 0mm) ,从而加剧渍害[5] .  研究表明 ,渍水小麦株高、地上部干重、分蘖数、主茎绿叶片数、绿叶面积等都受到影响[1,12 ,16] ,叶片光合速率、气孔导度、细胞间隙CO2 浓度下降[8] ,RuBPCO活性降低[14…  相似文献   

12.
施氮量和花后土壤含水量对小麦旗叶衰老及粒重的影响   总被引:18,自引:0,他引:18  
在防雨池栽培条件下,研究了施氮量和花后土壤含水量对小麦旗叶衰老和粒重的影响.结果表明:各氮肥处理下,小麦旗叶SPAD值、可溶性蛋白质含量、超氧化物歧化酶(SOD)活性、过氧化氢酶(CAT)活性和光合速率(Pn)均表现为:花后土壤含水量60%~70%处理>80%~90%处理>40%~50%处理,小麦旗叶丙二醛(MDA)含量表现为:花后土壤含水量40%~50%处理>80%~90%处理>60%~70%处理,表明花后土壤含水量过高或过低均可导致小麦旗叶早衰,影响籽粒灌浆,降低粒重.在花后相同土壤含水量条件下,旗叶SPAD值、可溶性蛋白质含量、SOD活性、CAT活性和Pn均随施氮量的增加而升高,MDA含量随施氮量的增加而降低,表明增施氮肥可以延缓小麦旗叶衰老,但过量施用氮肥则不利于小麦粒重的提高,尤其是在花后土壤缺水的情况下,施用过多氮肥可导致小麦粒重下降.在小麦生产中可以将施用氮肥和控制花后土壤水分含量相结合,延缓小麦植株衰老,提高粒重.  相似文献   

13.
于2016和2017年,以春小麦品种‘陇春27'为试验材料,在甘肃省中部半干旱雨养农业区设置定位试验,分析全膜覆土平作穴播(PMS)、全膜覆土平作穴播+有机肥(PMO)、裸地平作穴播(CK)3个处理春小麦抽穗至灌浆阶段土壤水分与群体冠层温度、净光合速率(Pn)、气孔导度(gs)、蒸腾速率(Tr)、旗叶C/N、旗叶全氮之间的相互关系,探讨不同处理对产量及其构成要素的影响。结果表明: 施用有机肥可提高小麦生育中后期土壤含水量,PMO抽穗至灌浆阶段0~300 cm土层土壤贮水量较PMS和CK分别提高4.6%和8.5%,群体冠层温度分别降低0.1~1.3 ℃和1.4~4.9 ℃,Pn分别提高9.3%和29.7%,gs分别提高30.9%和103.8%,Tr分别提高5.1%和55.0%,全氮含量分别提高6.6%和18.9%,C/N分别降低6.4%和22.8%。收获后,PMO较PMS和CK显著促进穗粒数和千粒重增加,籽粒产量分别提高9.1%和53.7%。抽穗至灌浆阶段旗叶Pngs与C/N呈负相关性;C/N与籽粒产量呈显著负相关。因此,半干旱区全膜覆土穴播条件下施有机肥可提高春小麦抽穗至灌浆阶段土壤含水量,促进旗叶光合作用,有利于降低生理干旱胁迫强度和旗叶氮吸收同化限制,促进穗粒数和粒重增加,使产量提升。  相似文献   

14.
Winter wheat is threatened by drought in the Huang-Huai-Hai Plain of China, thus, effective water-saving irrigation practices are urgently required to maintain its high winter wheat production. This study was conducted from 2012 to 2014 to determine how supplemental irrigation (SI) affected soil moisture, photosynthesis, and dry matter (DM) production of winter wheat by measuring the moisture in 0–20 cm (W2), 0–40 cm (W3), and 0–60 cm (W4) soil profiles. Rainfed (W0) and local SI practice (W1, irrigation with 60 mm each at jointing and anthesis) treatments were designed as controls. The irrigation amount for W3 was significantly lower than that for W1 and W4 but higher than that for W2. The soil relative water content (SRWC) in 0–40 cm soil profiles at jointing after SI for W3 was significantly lower than that for W1 and W4 but higher than that for W2. W3 exhibited lower SRWC in 100–140 and 60–140 cm soil profiles at anthesis after SI and at maturity, respectively, but higher root length density in 60–100 cm soil profiles than W1, W2 and W4. Compared with W1, W2 and W4, photosynthetic and transpiration rates and stomatal conductance of flag leaves for W3 were significantly greater during grain filling, particularly at the mid and later stages. The total DM at maturity, DM in grain and leaves, post-anthesis DM accumulation and its contribution to grain and grain filling duration were higher for W3. The 1000-grain weight, grain yield and water use efficiency for W3 were the highest. Therefore, treatment of increasing SRWC in the 0–40 cm soil profiles to 65% and 70% field capacities at jointing and anthesis (W3), respectively, created a suitable soil moisture environment for winter wheat production, which could be considered as a high yield and water-saving treatment in Huang-Huai-Hai Plain, China.  相似文献   

15.
钾对小麦旗叶蔗糖和籽粒淀粉积累的影响   总被引:29,自引:0,他引:29       下载免费PDF全文
 利用冬小麦品种‘鲁麦22’(Triticum aestivum cv. `Lumai 22’)在大田条件下研究了钾素对小麦旗叶蔗糖和籽粒淀粉积累及其有关酶活性的影响。结果表明,钾素有利于提高旗叶光合速率,增强开花后旗叶磷酸蔗糖合成酶活性,提高旗叶中蔗糖的含量;从而提高了灌浆期间籽粒中蔗糖的供应,增强了籽粒中蔗糖合成酶和腺苷二磷酸葡萄糖焦磷酸化酶的活性,加速了淀粉积累速率,提高了粒重和产量。  相似文献   

16.
叶部激素变化与小麦的整体衰老   总被引:11,自引:0,他引:11  
魏道智  宁书菊 《广西植物》2002,22(4):382-384,374
旗叶中的叶绿素含量在抽穗—开花期达其最大值 ,然后迅速下降 ;丙二醛的含量逐渐上升 ;SOD活性逐渐下降。脱落酸的含量在灌浆的初期逐渐升高 ,中期达其最高值 ;玉米素在开花期达其峰值后迅速下降 ,旗叶的衰老与叶片中二激素间的浓度变化、平衡有关 ;根系活力在拔节—孕穗期达其高峰值 ,以后逐渐下降 ;根系活力在生育中、后期的下降与叶片中玉米素的下降、脱落酸的上升有直接关系 ,根系的早衰可能是引发小麦地上部衰老的重要原因之一。  相似文献   

17.
Twenty-one durum wheat genotypes originating from different geographic areas were grown during 3 successive years. The trials were characterised by different precipitation regimes. Carbon isotope discrimination (Δ), carbon content (CC) and ash content (ma) were assessed in the flag leaf during anthesis, then in the kernel at full maturity. Differences between the 3 years, due to water availability, were noted for Δ, ma, CC and yield. Genotypic differences were also noted within each year for all the traits studied. Some genotypes from the Middle East exhibited higher flag leaf and kernel Δ than those originating from the West of the Mediterranean basin. The kernel Δ was strongly correlated with grain yield (GY). The leaf Δ correlated with GY only under strong water limitation and with biomass production (BP) in favourable water conditions. For the flag leaf, Δ was correlated with ma and with CC. Silicon content was then assessed in the flag leaf and in the kernel on a subset of 10 genotypes differing in their Δ values. Strong positive correlations were noted between silicon content and Δ and ma for the flag leaf. However, no clear relationship was found between silicon content and GY. The results obtained in this study confirm the validity of kernel Δ as a predictive criterion for GY under water stress and suggest the possible use of kernel ma as an alternative criterion to select genotypes with higher water stress tolerance.  相似文献   

18.
Carbon isotope discrimination has been proposed as a criterion for the indirect selection to improve transpiration efficiency and grain yield in bread wheat and barley. Less attention has been devoted to durumwheat (Triticum durumDesf.) despite its economic importance in the Mediterranean basin. The Δ genetic variation and its relationships to dry matter production and harvest index in durum wheat were investigated in this study. For this purpose, field experiments were conducted on 144 durum wheat accessions under Mediterranean conditions (South of France) during three consecutive years with contrasting climatic conditions. Grain yield, above-ground biomass, harvest index, and carbon isotope discrimination of flag leaf and kernel were measured. Differences between years, noted for both leaf and kernel carbon isotope discrimination, were probably related to the variation in water availability from year to year. A large genotypic variation was also noticed for both leaf and kernel carbon isotope discrimination. The two traits were found to be positively correlated with grain yield within and across years, which confirms the interest in carbon isotope discrimination for selection for grain yield improvement under Mediterranean conditions. Both kernel and leaf carbon isotope discrimination correlated better with harvest index than with grain yield, suggesting that carbon isotope discrimination could reflect the efficiency of carbon partitioning to the kernel. The lack of correlation between leaf carbon isotope discrimination and both harvest index and grain yield in favourable water conditions (1996) was probably due to the difference in water availability between the period until flag leaves sampling (favourable conditions) and the strong water stress which accompanied the grain filling. Kernel carbon isotope discrimination correlated better with both harvest index and grain yield than did leaf carbon isotope discrimination. Moreover, a higher broad-sense heritability was obtained for kernel carbon isotope discrimination than for leaf carbon isotope discrimination. As a result, kernel carbon isotope discrimination appeared to be a better predictive criterion for efficiency of the carbon partitioning to the kernel (harvest index), and hence for grain yield, than did flag leaf carbon isotope discrimination.  相似文献   

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