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1.
遮光对不同基因型玉米光合特性的影响   总被引:16,自引:3,他引:16  
采用盆栽试验,研究了遮光对4个基因型玉米光合特性的影响.结果表明:4个基因型玉米叶片的光饱和点、净光合速率(Pn)、电子传递速率(ETR)、光系统Ⅱ最大光化学效率(Fv/Fm)和实际光化学效率(ΦPSⅡ)均受光强的影响.遮光降低了玉米的光饱和点,苗期遮光处理豫玉2号和丹玉13分别在光量子通量密度(PFD)为1400μmol·m-2·s-1和1100μmol·m-2·s-1时达到饱和.遮光还降低了玉米的Pn、ETR、Fv/Fm和ΦPSⅡ,但不同基因型玉米表现不同,豫玉2号和掖单22的下降幅度较小,而丹玉13和掖单6号的下降幅度较大.  相似文献   

2.
土壤水分胁迫对玉米形态发育及产量的影响   总被引:58,自引:1,他引:57  
未来气候变化可能加剧的干旱化将对我国主要粮食和最重要的饲料作物玉米产生严重影响。为增进玉米对干旱化响应与适应的理解及制定应对策略 ,利用大型活动遮雨棚及池栽对玉米进行了全程水分控制试验研究。对不同土壤水分胁迫下的玉米形态表征、生长发育及产量的分析表明 ,玉米受干旱胁迫的影响程度因受旱轻重、持续时间以及生育进程的不同而不同 ,受旱越重 ,持续时间越长 ,影响越甚。大喇叭口期前 ,玉米株高和生物产量受有限供水或轻度干旱影响不算很大 ,但从大喇叭口期后直至抽雄和灌浆期 ,轻度干旱胁迫持续久了也会对株高和生物产量产生较大不良影响。严重干旱胁迫则从拔节始至灌浆期均对株高和生物产量影响更为不利。进而引起果穗性状恶化 ,穗粒数和百粒重减小 ,最终导致经济产量大幅下降。说明玉米生育前期(大喇叭口期前 )进行有限的控水可行。而玉米生育前期干旱胁迫将使生育进程明显延缓 ,严重干旱胁迫可使抽雄、吐丝期较水分充足滞后 4 d左右 ,并引起成熟期推迟  相似文献   

3.
孙园园  孙永健  陈林  徐徽  马均 《应用生态学报》2012,23(10):2737-2744
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.  相似文献   

4.
2010—2011年以耐荫性较弱的玉米杂交种豫玉22和耐荫性较强的玉米杂交种郑单958为材料,在抽雄前3 d开始进行弱光胁迫处理,吐丝后10 d恢复自然光照,研究弱光胁迫及光恢复对不同耐荫型玉米果穗生长发育及其内源激素含量的影响。结果表明:弱光胁迫下,玉米果穗生长发育明显减缓,穗长、穗粗和果穗干物质积累显著减小,秃尖度变大;穗行数、穗粒数和籽粒库容显著降低;吐丝期果穗顶部小穗子房发育停滞,已有败育迹象的籽粒在恢复自然光照后无明显改善;豫玉22果穗和籽粒性状在处理间的差异程度均大于郑单958。弱光胁迫下,两玉米杂交种果穗的ABA和ZR含量均升高,而GA含量和GA/ABA比值均降低;IAA含量和IAA/ABA比值在郑单958果穗中表现为升高,而豫玉22则表现为下降。  相似文献   

5.
干旱对东北春玉米生长发育和产量的影响   总被引:14,自引:0,他引:14  
选取玉米品种丹玉39为供试材料,利用大型农田水分控制试验场,采用大田池栽方式,在玉米三叶-拔节期、拔节-吐丝期、吐丝-乳熟期分别开展中度干旱胁迫及复水控制对比试验,分析3个关键生育时期干旱胁迫对春玉米生长发育和产量的影响.结果表明:与水分适宜对照(CK)相比,三叶-拔节期遭受干旱胁迫后,全生育期推迟13 d,至拔节普遍期,株高偏低29.8%,叶面积偏小41.2%,复水后,株高和产量得到较大程度恢复,果穗性状和最终产量差异不大;拔节-吐丝期遭受干旱胁迫后,全生育期缩短7d,至吐丝普遍期,株高偏低18.6%,叶面积偏小14.1%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降6.9%、19.1%、28.1%和29.4%,空秆率增加13.3%;吐丝-乳熟期遭受干旱胁迫后,全生育期缩短15 d,生长至乳熟普遍期,株高偏低2.3%,叶面积偏小37.3%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降9.2%、24.1%、30.8%和27.9%,空秆率增加24.5%.拔节-吐丝期、吐丝-乳熟期干旱胁迫处理并复水后,玉米株高恢复不明显,产量降幅显著.  相似文献   

6.
干旱对东北春玉米生长发育和产量的影响   总被引:5,自引:4,他引:1  
选取玉米品种丹玉39为供试材料,利用大型农田水分控制试验场,采用大田池栽方式,在玉米三叶-拔节期、拔节-吐丝期、吐丝-乳熟期分别开展中度干旱胁迫及复水控制对比试验,分析3个关键生育时期干旱胁迫对春玉米生长发育和产量的影响.结果表明:与水分适宜对照(CK)相比,三叶-拔节期遭受干旱胁迫后,全生育期推迟13 d,至拔节普遍期,株高偏低29.8%,叶面积偏小41.2%,复水后,株高和产量得到较大程度恢复,果穗性状和最终产量差异不大;拔节-吐丝期遭受干旱胁迫后,全生育期缩短7 d,至吐丝普遍期,株高偏低18.6%,叶面积偏小14.1%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降6.9%、19.1%、28.1%和29.4%,空秆率增加13.3%;吐丝-乳熟期遭受干旱胁迫后,全生育期缩短15 d,生长至乳熟普遍期,株高偏低2.3%,叶面积偏小37.3%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降9.2%、24.1%、30.8%和27.9%,空秆率增加24.5%.拔节-吐丝期、吐丝-乳熟期干旱胁迫处理并复水后,玉米株高恢复不明显,产量降幅显著.  相似文献   

7.
弱光胁迫对玉米产量及光合特性的影响   总被引:21,自引:0,他引:21  
通过在玉米授粉前0~14d、授粉后1~14d、授粉后15~28d3个时期分别进行遮光处理,研究了弱光胁迫对两个玉米品种费玉3号和泰玉2号产量及光合特性的影响.结果表明:各时期弱光胁迫均使玉米产量降低,其中授粉前0~14d弱光处理的产量降幅最大,费玉3号对弱光胁迫的反应较泰玉2号敏感.弱光胁迫后籽粒灌浆高峰出现时间延迟、灌浆速率慢、积累量小;弱光胁迫开始的时间越早,籽粒达到最大灌浆速率的时间(Tmax)越晚.弱光胁迫期内,玉米Chl(a b)、Chla/b、光合速率(Pn)、光系统Ⅱ最大光化学效率(Fv/Fm)和光系统Ⅱ实际光化学效率(ФPSⅡ)显著下降,Chlb相对含量提高,胞间二氧化碳浓度(Ci)和非光化学淬灭系数(NPQ)则显著上升;胁迫结束后,玉米Chl(a b)、Chla/b、Pn、Fv/Fm、ФPSⅡ、Ci和NPQ逐渐恢复接近自然光照条件(CK)水平,而Chlb相对含量下降.表明非气孔因素是弱光胁迫下玉米光合速率降低的原因之一.  相似文献   

8.
探讨遮阴对玉米穗部特性的影响及其产量效应,可以为应对气候变化与密植栽培条件下的玉米品种选育和高产栽培提供参考依据.本研究选用2个品种(紧凑型‘中单909’、平展型‘内单4’)和2个种植密度(4.5、9.0万株·hm-2),在吉林省公主岭市开展田间遮阴试验,设置遮阴(遮阴度65%,小喇叭口期-成熟期)和不遮阴(对照)2个处理,研究遮阴和种植密度对不同株型玉米的穗部发育和植株生产力的影响.结果表明: 遮阴显著影响春玉米雌穗发育,造成散粉和吐丝期推迟,导致散粉吐丝间隔期延长3~15 d;遮阴显著降低春玉米干物质积累,籽粒产量下降50%以上(50.8%~87.0%);密植条件下春玉米穗部特性和产量性能受遮阴的影响显著高于稀植栽培;不同玉米品种相比,紧凑型品种的穗部特性和产量受遮阴和种植密度的影响低于平展型品种,紧凑型品种对生态环境变化的适应性较强,耐阴性和耐密性表现出一致性.  相似文献   

9.
低氮胁迫对不同基因型夏玉米源库性状和灌浆特性的影响   总被引:10,自引:0,他引:10  
2007和2008年连续2年在低氮(105 kg·hm-2)和正常施氮(337.5 kg·hm-2)两种施肥水平下,分析了6个不同基因型玉米品种的群体源库关系及籽粒灌浆特性间的差异.结果表明:低氮胁迫对不同基因型玉米品种的群体产量、叶面积指数(LAI)、群体源库性状和籽粒灌浆特性影响明显,在低氮胁迫下,先玉335、郑单958等耐低氮能力较好品种的籽粒活跃灌浆期较长、最大灌浆速率高、最大叶面积指数持续期较长,群体库源关系比较协调;陕单902和豫玉22等耐低氮能力较差品种吐丝后的籽粒活跃灌浆时数、最大灌浆速率、灌浆速率最大时的生长量及LAI较低,源的供应能力显著下降;低氮胁迫明显加剧了不同基因型玉米品种间的产量差异.  相似文献   

10.
针对江汉平原小麦生长季阴雨天气持续时间长、光照辐射少而形成的弱光环境,本试验以江汉平原大面积推广品种‘郑麦9023’和‘扬麦23’为材料,研究了孕穗期遮光处理(S1)和开花期遮光处理(S2)对两品种小麦产量的影响及其生理基础,并设置遮光前喷施6-BA处理(S1+6-BA、S2+6-BA),探究喷施6-BA对弱光胁迫的缓解作用.结果表明:孕穗期与开花期遮去自然光强的45%均显著降低了各处理籽粒产量,且开花期遮光处理籽粒产量下降幅度大于孕穗期遮光处理,遮光处理开花后14~21 d籽粒干物质积累量显著下降导致的粒重降低是造成籽粒产量下降的主要原因;两时期遮光均降低了成熟期干物质积累量,改变了营养器官干物质分配比例,使籽粒产量更多地依赖于开花前营养器官贮藏同化物,从而导致遮光处理籽粒产量下降.开花期遮光前喷施6-BA处理的籽粒产量显著大于开花期遮光处理,主要是由于喷施6-BA能够延缓遮光处理下旗叶的衰老进程,其灌浆速率和粒重亦显著大于遮光处理,同时提高了开花期遮光处理植株在成熟期的干物质积累量,且S2+6-BA花后同化物的转运量及对籽粒的贡献量较S2增大,最终提高了遮光处理的籽粒产量.总之,开花期遮光对小麦籽粒产量的影响大于孕穗期,开花期遮光前喷施外源6-BA对遮光造成的不利影响有一定的缓解效应,降低了开花期遮光造成的产量损失.  相似文献   

11.
The plant growth regulator PGR-IV has been reported to improve the growth, boll retention, and yield of cotton (Gossypium hirsutum L.) under optimum growing conditions. However, little is known about the response of cotton to PGR-IV under low light stress. A 3-year field study was conducted to determine if applying PGR-IV before an 8-day period of shade (63% light reduction) benefitted the growth and yield of shaded cotton. Shading during early squaring did not affect yield. Shading after the first flower stage significantly increased leaf chlorophyll concentration and fruit abscission and decreased the leaf photosynthetic rate, nonstructural carbohydrate concentrations, and lint yield. Foliar application of PGR-IV at 292 mL ha−1 at early squaring and first flower did not improve the leaf photosynthetic rate of shaded cotton. However, shaded plants receiving PGR-IV had higher nonstructural carbohydrate concentrations in the floral buds and significantly lower fruit abscission than the shaded plants without PGR-IV. Applying PGR-IV to the foliage before shading resulted in a numeric increase (6–18%) in lint yield compared with shaded plants without PGR-IV. The decreased fruit abscission from the application of PGR-IV was associated with improved assimilate translocation. The yield enhancement from foliar application of PGR-IV was attributed to increased fruit retention. However, the average boll weight of shaded plants with PGR-IV tended to be lower than that of shaded plants without PGR-IV. Lint percentage was not affected by PGR-IV. Foliar application of PGR-IV appears beneficial for increasing the fruit retention of shaded cotton. Received June 12, 1997; accepted January 19, 1998  相似文献   

12.
Because light conditions in the forest understory are highly heterogeneous, photosynthetic acclimation to spatially variable irradiance within a crown is important for crown‐level carbon assimilation. The effect of variation in irradiance within the crown on leaf nitrogen content and photosynthetic rate was examined for pinnate compound leaves in saplings of Cedrela sinensis, a pioneer deciduous tree. Five shading treatments, in which 0, 25, 50, 75 and 100% of leaves were shaded, were established by artificial heavy shading using shade screen umbrellas with 25% transmittance. Although the nitrogen content of leaves was constant regardless of shading treatment, ribulose 1·5‐bisphosphate carboxylase/oxygenase (Rubisco) content and light‐saturated photosynthetic capacity were lower in shade leaves within partially shaded crowns than within fully shaded crowns. Shade leaves within partially shaded crowns contained higher amount of amino acids. Most shade leaves died in partially shaded crowns, whereas more than half of shade leaves survived in totally shaded crowns. Assumptions on photosynthetic acclimation to local light conditions cannot explain why shade leaves have different photosynthetic capacities and survival rates in between partially and totally shaded crowns. Irradiance heterogeneity within the crown causes a distinct variation in photosynthetic activity between sun and shaded leaves within the crown.  相似文献   

13.
刘贤赵  康绍忠 《生态学报》2002,22(12):2264-2271
对番茄植株做了两种不同程度的遮荫处理,观测了夏季午间遮荫对光合速率,干物质积累量及其在根,茎,叶之间的分配,和叶N,P,K的含量以及经济产量的影响,发现不同时期遮荫影响不同。(1)遮荫增加三个阶段(开花早期,盛花期和开花后期)的气孔导度和胞间CO2浓度,显著降低开花早期中午的净化合速率,但盛花期中度遮荫(40%遮荫)使净光合速率随着时间的增加逐渐上升,在开花后期表现更加明显,平均净光合速率比对照高20%以上,蒸腾速率也增加较多。(2)开花早期和盛花期重度遮荫(如本实验中的75%遮荫)显著降低根,茎的干重,而开花后期中度遮荫的根,茎干重高于对照,但遮荫对叶干重的影响不明显。(3)开花早期和盛花期遮荫不明显影响叶片中N,P,K的含量,但开花后期中度遮荫使N,P,K含量增加,(4)开花早期两种遮荫对果实产量影响较小,但盛花期重度遮荫使产量降低,全部产量中无效部分所占的比例上升,开花后期中度遮荫的总产量和有效产量增加,单果重也增加,这些结果表明,在某些时期中度遮荫可以克服夏天辐射过强,气温过高对番茄的不良影响,对番茄生长,干物质积累和提高产量等有利,在生产上有意义。  相似文献   

14.
We tested whether the degree of shade-induced plasticity in petiole length and leaf area is related to the mean trait value expressed under high-light conditions, and to what extent trait values expressed under high-light and shaded conditions affect plant performance. Thirty-four Trifolium repens genotypes were used with a wide range of petiole lengths and leaf areas. Plants were subjected to a high-light environment and two shading regimes: homogeneous shading and a vertical light gradient. Absolute petiole elongation in response to both shading treatments and absolute leaf area expansion in response to homogeneous shading were independent of the trait values expressed in high light. Consequently, relative plasticity was higher for genotypes with lower high-light trait values. Plasticity was associated with enhanced plant performance in a vertical light gradient but not in homogeneously shaded conditions. We also found costs associated with the ability to express plasticity. Our results suggest that selection can act separately on trait values expressed under high-light conditions and on the degree of plasticity.  相似文献   

15.
Shading is assumed to reduce allocation to plant phenolics and to defense in general. We here report the results of experimental shading of individual branches or whole canopies in mountain birch on foliar chemistry and on the growth and consumption of a geometrid, Epirritaautumnata. Branch‐wide shading tended to have at least as strong effects on both leaf chemistry and herbivore performance as canopy‐wide shading, indicating local responses of the host to shading. Responses to shading varied among the key leaf traits. Leaf water content was higher and toughness lower in shaded than in non‐shaded leaves. Leaf sugars were lower and protein‐bound and free amino acids higher in shaded than in control leaves. Sucrose and galactose were at high levels in unshaded branches adjacent to shaded ones, suggesting that partial shading enhanced translocation of sugars within canopies. Total phenolics and soluble proanthocyanidins were low in both shading treatments. Of the other phenolic groups, concentrations of gallotannins and cell‐wall‐bound proanthocyanidins did not differ between shaded and non‐shaded leaves. Epirrita larvae grew better in both types of shading treatments compared to either unshaded control trees or to unshaded branches in the branch‐shading trees. By far the most important correlate of larval growth was the amount of water consumed with leaf mass (r=0.94). When variance in water intake was standardized (also largely eliminating parallel variation in proteins), fructose and glucose still had significant positive correlations and proanthocyanidins negative with larval growth on control but not on shade leaves. Concentrations of several phenolic compounds correlated negatively with intake of dry matter and especially water, and different phenolics were important in shaded (gallotannins) and in control (flavonoids) leaves. Our findings strongly suggest that the effects of putatively defensive leaf traits on insect consumption and growth interact with nutritive leaf traits, particularly with water.  相似文献   

16.
Plants of barley were grown under controlled conditions andthe first or second leaves covered with tubular shades thusreducing the light intensity at the leaf surface to low levels.Expansion of the shaded leaves was not prevented, but appearanceof the next leaf but one and all subsequent leaves on the mainstemwas delayed by up to 3 days. Primordia of the first four leaveswere present in the dry grain. Shade treatment delayed slightlythe initiation of the eighth and subsequent leaves and transitionto the double ridge stage at the mainstem apex. Shading the first leaf caused a temporary reduction in the rateof dry-matter increase of plants, but after 14 days the ratewas similar to that of control plants. Smaller effects werefound when the second leaf was shaded. Dry-matter productionfollowed two logarithmic phases in the period prior to awn emergence,and rates for the whole plant and for plant parts were similarfor control and shaded plants. Thus, apart from the initialperturbation, shading had no effect on growth in terms of rateof dry-weight gain. Shade treatment did not affect weight per grain or numbers ofgrain per ear, but over-all yield of grain was significantlyreduced since shading delayed the appearance of tillers andalso reduced the number of tillers bearing grain. The effectof shade was especially marked on tillers originating on primarytillers. Similar qualitative effects on tiller development werefound in an experiment on wheat.  相似文献   

17.
干热区小粒咖啡水光管理粗放,产量和品质得不到保证.为探明干热区小粒咖啡最佳灌水和荫蔽栽培耦合模式,通过大田试验,设3个灌水水平(充分灌水、轻度亏缺灌水和重度亏缺灌水)和4个荫蔽栽培模式(无荫蔽:单作咖啡;轻度荫蔽:4行咖啡间作1行香蕉;中度荫蔽:3行咖啡间作1行香蕉;重度荫蔽:2行咖啡间作1行香蕉),研究香蕉荫蔽栽培下亏缺灌溉对小粒咖啡生长、叶片光合特性、水光利用和产量的影响.结果表明: 小粒咖啡叶片的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(gs)、叶片水分利用效率(LWUE)、叶片表观光能利用效率(LRUE)随灌水量的增大而增大,胞间CO2浓度(Ci)随灌水量的增大而减小;与充分灌水相比,轻度亏缺灌水的干豆产量减小9.4%,重度亏缺灌水的干豆产量减小36.7%,水分利用效率(WUE)减小16.9%.Pn、Tr、gs、LWUE随荫蔽度的增大呈先增大后减小的趋势,中度荫蔽栽培的增量最大;与无荫蔽模式相比,轻度荫蔽模式干豆产量增加13.0%,WUE增加12.9%,中度荫蔽栽培模式干豆产量增加23.1%,WUE增加23.4%.干豆产量、WUE、百粒咖啡豆的体积和百粒鲜质量随灌水量和荫蔽度的增大呈不同程度增大,其中,中度荫蔽栽培下充分灌水的干豆产量和WUE增量最大.相同土层深度的土壤含水率随荫蔽度的增加而减小;在0~50 cm土层,土壤含水率随土层深度的增加先增大后减小.LRUE与光合有效辐射呈显著的负指数关系或符合Logistic曲线变化.因此,从优质高产、水光高效利用的综合效益考虑,中度荫蔽栽培下充分灌水是小粒咖啡灌水处理和香蕉荫蔽栽培模式的最佳组合.  相似文献   

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