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1.
大穗型小麦形态特性与产量结构 总被引:3,自引:0,他引:3
大穗型小麦形态特性与产量结构李民栋李惠民杨洁莉李鑫(陕西省咸阳市农科所712034)小麦品种一般可分为多穗、大穗和中间型3种类型,其各有不同的高产模式。北方麦区以多穗取胜,南方麦区则多属大穗或中间型。虽然不同麦区的高产品种各具特点,但在高产栽培条件下... 相似文献
2.
不同穗型高产冬小麦产量构成因素探析 总被引:13,自引:0,他引:13
通过多年多点的高产攻关,对不同穗型高产冬小麦产量构成因素进行了研究.结果表明大穗型品种,栽培的主攻方向是穗重,但其分蘖成穗率低,应适当增加播种量,以获得理想穗数;多穗型品种,栽培的主攻方向是穗多,但其分蘖成穗率高,应适当减少播种量,既要获得足够穗数,又要防止倒伏;中穗型品种,栽培的主攻方向是在穗足的条件下,争取穗重.中穗型品种,取得高产的机率高,因此,超高产育种,应选育中穗型品种. 相似文献
3.
探明长江中下游地区不同穗型中籼杂交稻产量成因及高产品种群体共性特征。以120个中籼杂交稻为材料,于2019—2020年在安徽舒城农科所开展品种评比试验,并根据每穗粒数排序将供试品种均分为大穗型(193~270)、中穗型(167~191)和小穗型(108~166) 3类,比较不同穗型中籼杂交稻的产量及构成、生育进程、日产量、叶面积指数、生物量和穗型结构的差异。结果表明,各穗型下水稻产量变幅均较大,通过聚类分析可进一步分别分为高产、中产和低产3种类型。高日产量是不同穗型品种高产共性指标,其中大穗型与增加叶面积指数有关,而中、小穗型可能与促进光能转化效率有关。除日产量外,不同穗型品种高产形成极具差异。从产量构成来看,大穗型品种主要依靠有效穗数、每穗粒数和千粒重来增产;中穗型品种为有效穗数和结实率;而小穗型品种为有效穗数、每穗粒数和结实率,这种穗型间的差异与分类方法和大穗型水稻灌浆障碍有关。从物质积累来看,与小穗型高产品种较高的收获指数不同,大、中穗型水稻要依靠生物量增加来提高产量。各穗型下不同产量水平的穗位枝梗分布与穗长均无显著差异。主成分分析发现,大穗型高产品种主要表现为日产量高、生物量大... 相似文献
4.
本文利用灰色关联分析方法,系统地研究了极蘖大穗型冬小麦新品种鲁麦12号产量构成因素对其产量的影响,并与多穗型高产品种宝丰7728进行比较分析。研究结果认为,大穗型品种产量构成因素对产量影响关联序为千粒重〉穗粒数〉亩穗数,多穗型在联序为亩穗数〉千粒重〉穗粒数,为高产栽培和超高产育种提供参考依据。 相似文献
5.
玉米不同穗型品种产量、产量构成及源库关系的群体调节研究 总被引:15,自引:0,他引:15
用系统聚类的方法对我国80年代以来的50个主栽玉米品种进行了划分,在此基础上比较研究了不同穗型玉米品种的源库关系,并对有关高产潜力的问题进行了探讨.穗型不同,产量随密度变化表现出不同的变化趋势,在15 000~105 000株/hm2密度范围内,大穗型品种呈先升后降的单峰曲线,小穗型品种一直呈上升趋势.不同穗型品种获得最高产量的种植密度各不相同,此时,其产量组成各因素间的关系都协调的较好,表现在穗粒数较多、千粒重较高、空秆率较低、经济系数适宜,各穗型品种获高产的适宜经济系数均为0.5左右.密度对不同穗型品种源库关系的调节作用各不相同,但各穗型品种发挥最高群体产量时的库源比却达到了高度的统一,皆为1.50左右. 相似文献
6.
不同穗型冬小麦品种分蘖成穗特性的研究进展 总被引:3,自引:2,他引:1
分蘖成穗是小麦高产栽培中决定群体数量和质量的关键因素。为了研究不同穗型冬小麦分蘖成穗特性及其调节机理,进而提高小麦产量,研究归纳了遗传因素、群体环境因素、内源激素等方面对不同穗型品种分蘖成穗特性影响的研究进展。指出以后研究应侧重于各种因素影响分蘖发生的机制以及因素间的关系,通过研究分蘖过程中内源激素含量、激素间平衡及基因表达、调控与小麦分蘖发生关系的研究,以期为小麦高产栽培研究提供理论依据。 相似文献
7.
为探索不同穗粒结构杂交稻品种高产栽培的增产因素,以在生产上大面积推广、穗粒结构不同的杂交稻汕优63、Ⅱ优838、丰两优四号3个品种为试验材料,根据3个品种参加区试的产量构成,进行有效穗、每穗粒数、结实率、千粒重4个产量构成因素与产量的相关分析、4个产量构成因素间的相关分析、4个产量构成因素与产量的通径分析。结果表明,穗数多、每穗粒数中等的汕优63,高产栽培增产的主要因素是提高有效穗与每穗粒数,对增产的贡献率分别为37.3%和38.1%,提高结实率对增产的贡献率为24.1%;穗数中等、每穗粒数较多的Ⅱ优838,高产栽培增产的主要因素是提高有效穗,对增产的贡献率为62.2%,提高每穗粒数对增产的贡献率为26.2%;穗数较少、每穗粒数多的大穗型品种丰两优四号,高产栽培增产的主要因素是提高有效穗和每穗粒数,对增产的贡献率分别为49.2%和44.8%。可见,穗数多、每穗粒数中等的品种高产栽培的增产因素是提高有效穗与每穗粒数,同时提高结实率;穗数中等、每穗粒数较多的品种高产栽培的增产因素是提高有效穗,同时提高每穗粒数;穗数较少、每穗粒数多的大穗型品种高产栽培的增产因素是提高有效穗和每穗粒数。 相似文献
8.
不同类型水稻品种的产量与食味品质的关系比较 总被引:7,自引:2,他引:7
本试验采用辽宁省近年来主栽的13个水稻品种为试验材料,研究不同类型水稻品种的产量与品质间的差异和相互关系,以期为高产优质栽培及育种提供理论基础.结果表明:不同类型水稻品种的产量为:密穗型>中间型>散穗型.密穗型品种的成粒数、总颖花数均高于散穗型品种.密穗型品种的食味值高于散穗型品种;密穗型品种的蛋白质含量低于散穗型品种.着粒密度8.5~9.2粒/cm,320万~330万穗/hm2,每穗颖花数150~170个,成粒数达125~150粒/穗,产量和食味品质均能达到较高水平,因此,中间类型品种具有更高产优质的潜力. 相似文献
9.
不同穗型水稻产量形成及物质生产分析 总被引:2,自引:0,他引:2
以穗倾角为分类依据,研究了不同穗型水稻群体产量形成和干物质生产特点。结果表明,直立穗型、半弯曲穗型、弯曲穗型品种平均产量依次降低,成粒率和千粒重较高是直立穗型高产的主要原因;弯曲穗型品种抽穗期干物重和表观输出率较高,直立穗型品种较低;直立穗型品种抽穗后干物重和成熟期干物重明显高于另二种穗型,抽穗后干物重占成熟期干物重和产量的百分比也较高;直立穗型品种上三叶短而宽、上中部叶片直立而下部叶片较平展,半弯曲穗型品种上三叶长而窄、叶片较平展,弯曲穗型品种上三叶长而宽、上部叶片平展而中下部叶片较直立;抽穗后直立穗型品种群体中下部透光性能好、叶面积和叶绿素含量下降较慢、丙二醛含量上升较慢;直立穗型和半弯曲穗型品种抽穗后单个颖花拥有的干物质越多,成粒率越高。 相似文献
10.
氮素水平对不同穗型水稻品种光合作用、生产特性的影响 总被引:2,自引:1,他引:2
以不同穗型水稻品种为试验材料,研究不同氮素水平下,水稻的生理特性和生产特性.结果表明:在高氮和低氮两种条件下直立穗型水稻品种的稻谷产量均高于弯曲穗型品种,收获指数却低于弯曲穗型品种.在低氮条件下,两品种的收获指数均提高,且弯穗型品种的稻谷产量略高于直穗型品种.在高氮条件下则相反.在相同肥力下,抽穗前两品种的物质生产差异不大,但抽穗后直穗型品种的物质生产明显高于弯穗型品种.在高氮条件下,两品种单叶光合速率、群体光合速率均高于低氮处理,下降速度也慢于低氮处理. 相似文献
11.
12.
小麦慢叶锈品种具有侵染率低、潜伏期长、孢子堆小、产孢量少、严重度低、病害进展曲线下面积小和病害虽流行但产量损失不显著等特点.潜伏期和扬花期平均病害严重度与产量损失的关系最密切,因此测定某一小麦品种的潜伏期(x_1)和平均病害严重度(x_2)(田间感病对照品种发病达50%或95%时),可以作为衡量该品种慢(快)叶锈性的两个指标和选种的依据.用y=94.67-3.10x_1+0.51x_2估测由叶锈造成的小区产量损失(y)有一定可靠性(R=0.96).用聚类分析法把供试品种分为慢锈、中慢、中快和快锈品种类型.苗期和成株期慢叶锈性有一定的吻合性. 相似文献
13.
黄淮麦区高产小麦品种的产量结构及其生理基础的研究 总被引:19,自引:1,他引:19
研究了黄淮麦区具有不同产量潜力水平的小麦品种的产量结构及其相关生理基础。结果表明,随着小麦品种由低产型向高产型转变,每穗粒重,每穗粒数,千粒重,收获指数,生物产量均有所增加,其中以收获指数和每穗粒重所起的作用最大;在生理特征上,干物重呈现出拔节期递增、开花期递减、成熟期又表现递增的“N”型变化曲线,相对生长率的变化也呈同一趋势。旗叶净光合强度及叶绿素含量均呈递增趋势。开花期叶面积指数(LAI)则呈 相似文献
14.
不同冬小麦品种产量和节水性状差异及对供水的反应 总被引:11,自引:1,他引:10
以24个冬小麦品种(系)为材料,在不同的灌水处理下,研究了产量、产量构成因素和抗旱指数的品种差异。结果表明,灌水处理间与品种间产量差异均极显著,灌水与品种互作差异显著。2水处理产量高于4水。石4185,冀 5579,石麦12等19个品种2水处理产量高于4水,多丰2000,师栾02-1,良星99等5个品种4水产量高于2水。分别以2水处理和4水处理下的产量作为水地产量计算抗旱指数,得出抗旱型,不抗旱型和中间型比例分别为4.2%, 29.2%,66.6%和20.8%,20.8%,58.4%。综合分析认为石麦12,冀5579和石新618等产量和节水综合性状较好的品种更适于节水栽培。 相似文献
15.
我国黄淮和南方主要大豆育成品种家族产量和品质优异等位变异在系谱中遗传的研究 总被引:4,自引:1,他引:3
以往研究育成品种间的遗传关系只能通过系谱追踪进行一般性分析, 分子标记的发掘则提供了在位点及其等位变异基础上分析育成品种间遗传关系的手段。本研究在黄淮和南方190份大豆育成品种的85个SSR标记与农艺性状关联分析基础上, 将其中163份品种按系谱祖先归为58-161、徐豆1号、齐黄1号、南农493-1、南农1138-2五个家族, 对产量和品质性状进行优异等位变异在系谱中传承情况的分析。所涉及的最佳位点, 产量9个、百粒重3个、蛋白质含量2个、脂肪含量4个, 总解释率分别为91%、36%、13%和31%。每位点考查2个最优等位变异, 家族系谱祖先具有各自的优异等位变异, 随着育种轮次的增加在后育成品种中有丢失; 在系谱祖先基础上新品种衍生过程中吸纳其他亲本, 5个家族趋向共有大部分优异等位变异, 但频率分布不同。5个家族的品种所含有产量最多优异等位变异数未达饱和, 9个位点中最高含7个优异等位变异, 平均每个品种2.23个, 产量有进一步改良潜力。供试条件下高产品种平均产量是低产的2.36倍, 平均优异等位变异数是低产的4.17倍, 高、低产品种优异等位变异构成差异明显, 但高产品种间优异等位变异构成并不相同。也有的品种高产而优异等位变异数并不多, 有的品种优异等位变异较多但产量并不高。大豆育种不断从不同亲本中累积目标性状优异等位变异, 同时有些也在丢失, 应重视保存过时品种的优异等位变异, 以备后用。 相似文献
16.
Weed and nutrient management in cropping systems of semi-arid areas is a major constraint to cereal yield. Where the use of herbicides is banned or discouraged, the competitive ability of a crop is crucial to reduce weed growth and diffusion. Genotypic differences in the competitive abilities of crops are an important trait to reduce weeds, especially for plant height. However, there is contrasting information about the interactions of other management practices and genotypic traits on wheat yield and competitive ability against weeds and weed growth. The present study investigated yield and quality of durum wheat (Triticum durum Desf.) and weed growth and composition for two wheat cultivars with contrasting competitive abilities against weeds. Wheat was grown under three spatial arrangements (5-cm, 15-cm, 25-cm inter-row distance) and three sowing densities, and broadleaf weeds were either removed or not. The sowing rate did not affect the yield of these wheat cultivars or the weed growth. Reduced inter-row distance dramatically reduced weed biomass for both wheat cultivars, and increased wheat yield and nitrogen uptake in the low-competitive, high-yielding, semi-dwarf cv. ‘PR22D89’, when both weed free and with weeds. These results have direct implications for weed and nutrient management in low-input and organic cropping systems. 相似文献
17.
在高土壤肥力条件下,设置不施氮肥和施氮240 kg/hm22个处理,研究了6个强筋冬小麦品种的产量、品质和氮素利用的差异。结果表明,在施氮与不施氮的条件下,8901和济麦20两个品种均表现为高产、优质和高的氮素利用效率;施氮有利于进一步改善8901小麦的品质,提高济麦20的子粒蛋白质含量。两种处理下,淄麦12亦表现为产量较高,品质较优,但该品种氮素利用效率低,施氮后氮素利用效率进一步下降。烟农15的氮素利用效率亦较低,但施氮后氮素收获指数和氮素利用效率降低较少,子粒品质得到明显改善。与上述4个品种比较,济南17和烟农19的产量、品质和氮素利用效率居中;施氮后济南17的子粒产量显著提高,但两品种的品质均未得到显著改善。 相似文献
18.
H. Fufa P. Stephen Baenziger B. S. Beecher R. A. Graybosch K. M. Eskridge L. A. Nelson 《Euphytica》2005,144(1-2):187-198
Evaluation of wheat cultivars from different eras allows breeders to determine changes in agronomic and end-use quality characteristics
associated with grain yield and end-use quality improvement over time. The objective of this research was to examine the trends
in agronomic and end-use quality characteristics of hard red winter wheat cultivars grown in Nebraska. Thirty historically
important and popular hard red winter wheat cultivars introduced or released between 1874 and 2000 were evaluated at Lincoln,
Mead and North Platte, Nebraska in 2002 and 2003. An alpha lattice design with 15 incomplete blocks of two plots and three
replications was used at all locations. Agronomic (days to flowering, plant height, spike length, culm length, grain yield
and yield components, and grain volume weight) and end-use quality (flour yield, SDS-sedimentation value, flour protein content,
and mixograph time and tolerance) traits were measured in each environment. Highly significant differences were observed among
environments, genotypes and their interactions for most agronomic and end-use quality characteristics. Unlike modern cultivars,
older cultivars were low yielding, and less responsive to favorable environments for grain yield and yield components. Semidwarf
cultivars were more stable for plant height than traditional medium to tall cultivars. All cultivars had high grain volume
weight since it is part of the grading system and highly selected for in cultivar release. Modern cultivars were less stable
than older cultivars for SDS-sedimentation and mixing tolerance. However, the stability of older cultivars was attributed
to their having weak mixing tolerance and reduced SDS-sedimentation values. The reduced protein content of modern cultivars
was offset by increased functionality, as measured by mixograph and SDS sedimentation. In conclusion, breeders have tailored
agronomic and end-use quality traits essential for hard red winter wheat production and marketing in Nebraska. 相似文献
19.
Summary Twenty one diverse, standard and experimental cultivars of common spring wheat (Triticum aestivum L.) were tested for the effect of heat stress on phenology, yield and its components by growing the materials for 2 years under full irrigation during the hot summer (offseason), and the cool winter (normal) conditions. Heat tolerance was estimated for each variable by the heat susceptibility index (S) which scales the reduction in cultivar performance from cool to hot conditions relative to the respective mean reduction over all cultivars.Genotypes differed significantly in S for yield and its components. The ranking of cultivars in S over the 2 years was consistent for yield, kernels per spike and kernel weight, but not for spike number. Of the three yield components, the greatest genotypic variation in S was expressed for kernels per spike. However, S for yield could not be simply attributed to S in a unique component across all cultivars. On the other hand, a general linear model regression of summer yield on its components revealed that the most important yield component affecting yield variation among cultivars under heat stress was kernel number per spike. Kernel number per spike was positively associated across cultivars with longer duration and greater stabilty of thermal time requirement from emergence to double ridge. It is therefore concluded that kernel number per spike under heat stress is a reasonable estimate of heat tolerance in yield of wheat and that this tolerance is operative already during the first 2 to 3 weeks of growth. 相似文献
20.
P. D. Walton 《Euphytica》1972,21(3):553-556
Summary A diallel cross between five spring wheat cultivars was used to study the inheritance of yield, its components, certain developmental stages and morphological structures above the flag leaf node. In all cases additive genetic variance formed the major part of the genetic variance present. Dominance was, however, present for yield and for three yield components as well as for ear volume, flag leaf length and extrusion length. Dominance effects were also evident in the inheritance of the three stages of development studied.Contribution from the Plant Science Department, University of Alberta, Edmonton, Canada. Supported by National Research Council of Canada Grant No A5452. 相似文献