Late sowing enhances lodging resistance of wheat plants by improving the biosynthesis and accumulation of lignin and cellulose

Delayed sowing mitigates lodging in wheat. However, the mechanism underlying the enhanced lodging resistance in wheat has yet to be fully elucidated. Field experiments were conducted to investigate the effects of sowing date on lignin and cellulose metabolism, stem morphological characteristics, lodging resistance, and grain yield. Seeds of Tainong 18,a winter wheat variety, were sown on October 8(normal sowing) and October 22(late sowing) during both of the 2015–2016 and 2016–2017 growing seasons. The results showed that late sowing enhanced the lodging resistance of wheat by improving the biosynthesis and accumulation of lignin and cellulose. Under late sowing, the expression levels of key genes(Ta PAL, Ta CCR, Ta COMT, TaCAD, and TaCesA1, 3, 4, 7, and 8) and enzyme activities(TaPAL and TaCAD) related to lignin and cellulose biosynthesis peaked 4–12 days earlier, and except for the TaPAL, TaCCR, and TaCesA1 genes and TaPAL, in most cases they were significantly higher than under normal sowing. As a result, lignin and cellulose accumulated quickly during the stem elongation stage. The mean and maximum accumulation rates of lignin and cellulose increased, the maximum accumulation contents of lignin and cellulose were higher, and the cellulose accumulation duration was prolonged. Consequently, the lignin/cellulose ratio and lignin content were increased from 0 day and the cellulose content was increased from 11 days after jointing onward. Our main finding is that the improved biosynthesis and accumulation of lignin and cellulose were responsible for increasing the stem-filling degree, breaking strength, and lodging resistance. The major functional genes enhancing lodging resistance in wheat that are induced by delayed sowing need to be determined.

NH3 Volatilization from Aboveground Plants of Winter Wheat During Late Growing Stages

Ammonia volatilized from aboveground parts of winter wheat was collected with an enclosure growth chamber and measured from jointing to maturing stage. The results showed that ammonia released from unfertilized plants grown in high and low fertility soils remained at low rates of 2.3 and 0. 9μg NH3 40 plant-1 h-1 respectively at late filling stage. However, fertilized plants rapidly increased the rates to 43. 4 and 52. 2μg NH3, 40 plant-1 h-1 in the high and low fertility soils, respectively, at the same period. The released a-mount was different in different parts of plants. At filling stage, lower senescing stems and leaves volatilized more ammonia than upper parts, i. e. , ears and flag leaves that grew normally, with an average of 1. 4 and 0.7μg NH3 20 plant-1 h-1 respectively, strongly suggesting that it was the senile organs that released large amounts of ammonia. At the grain filling stage, shortage of water supply (drought stress) reduced ammonia volatilization. The average rate of ammonia released under water stress was 0. 9μg NH3 40 plant-1 h-1, but 1.2μg NH3 40 plant-1 h-1 with moderate water supply. Application of N together with P fertilizer resulted in a higher ammonia volatilization than N fertilization alone at the maturing stage. The average rate released was 135.3 μg NH3 40 plant-1 h-1 when 0.4 g N and 0.13 g P had been added to per kg soil, while 33. 7μg when 0. 4 g N added alone. Ammonia volatilization from plants was closely related with plant biomass and N uptake;P fertilization increased plant biomass and N uptake and therefore increased its release.

Late spring cold reduces grain number at various spike positions by regulating spike growth and assimilate distribution in winter wheat

Late spring cold(LSC) occurred in the reproductive period of wheat impairs spike and floret differentiation during the reproductive period,when young spikelets are very cold-sensitive.However,under LSC,the responses of wheat spikelets at various positions,leaves,and stems and the interactions between them at physiological levels remain unclear.In the present study,two-year treatments at terminal spikelet stage under two temperatures(2 C,-2 C) and durations(1,2,and 3 days) were imposed in an artificial climate chamber to compare the effects of LSC on grain number and yield in the wheat cultivars Yannong 19(YN19,cold-tolerant) and Xinmai 26(XM26,cold-sensitive).The night temperature regimes were designed to reproduce natural temperature variation.LSC delayed plant growth and inhibited spike and floret differentiation,leading to high yield losses in both cultivars.LSC reduced dry matter accumulation(DMA,g) in spikes,stems,and leaves,reducing the DMA ratios of the spike to leaf and spike to stem.Plant cell wall invertase(CWINV) activity increased in upper and basal spikelets in YN19,whereas CWINV increased in middle spikelets in XM26.Under LSC,soluble sugar and glucose were transported and distributed mainly in upper and basal spikelets for glume and rachis development,so that spike development was relatively complete in YN19,whereas the upper and basal spikelets were severely damaged and most of the glumes in middle spikelets were relatively completely developed in XM26,resulting in pollen abortion mainly in upper and basal spikelets.The development of glumes and rachides was influenced and grain number per spike was decreased after LSC,with kernels present mainly in middle spikelets.Overall,reduced total DMA and dry matter partitioning to spikes under LSC results in poor spikelet development,leading to high losses of grain yield.

Analysis on Relationship between Overcast and Rainy Weather, Drought, Flood and Wheat Yield

[Objective] The research aimed to study influence of meteorological factor in late growth stage of wheat. [Method] Based on precipitation, sunshine and yield per unit of wheat in Anyang City in May of 1979-2008, the positive and negative influences of meteorological condition in late growth stage of wheat (May) on wheat yield in Anyang City were analyzed by using agricultural climatic statistical method. Moreover, the reason and defense measure of green-dry hazard in late growth stage of wheat in the city were studied. [Result] When the sunshine percentage in May > 55%, and rainfall < 45 mm, the wheat yield generally increased. But when it was overcast and rainy, and the sunshine was less, especially monthly rainfall > 80 mm, and monthly sunshine percentage < 55%, the wheat yield generally reduced. The overcast and rainy weather, flood in late growth stage of wheat were easy to cause green-dry yield reduction. The rainless weather even drought weren’t obviously unfavorable for good harvest of wheat. In May, when precipitation was too more, or duration was too long, and the air humidity was too big, the normal water supply and inorganic nutrient transmission were affected. Meanwhile, when the overcast and rainy weather was longer, the sunshine was shorter, and the sunshine intensity weakened in late stage, it wasn’t favorable for accumulation of photosynthetic product, and the normal implementing of grouting process was affected. The measures should be used to prevent and control green-dry yield reduction of wheat, such as discharging water and preventing flood, breeding good seed, scientific planting and reasonable irrigation. [Conclusion] The research provided scientific basis for studying variety improvement, scientific plantation, reasonable irrigation, good quality and high yield of wheat.

氮肥运筹对晚播强筋小麦产量及品质的效应

为探索适宜的稻茬晚播小麦高产优质栽培技术,于2019-2021年在晚播条件下(较适播期推迟20 d播种),以强筋小麦扬麦29为材料,设置二因素随机区组试验,探究两种施氮量(210 kg·hm^(-2)和270 kg·hm^(-2))和3种基追比(基肥∶分蘖肥∶拔节肥分别为7∶1∶2、5∶1∶4和3∶3∶4)对晚播强筋小麦籽粒产量和品质的影响及其较优组合。结果表明,施氮量和氮肥基追比对扬麦29籽粒产量的影响均达极显著水平(P<0.01)。施氮量由210 kg·hm^(-2)增至270 kg·hm^(-2),扬麦29穗数、穗粒数及产量增加;随氮肥后移,穗粒数、千粒重、产量均呈增加趋势,其中基追比3∶3∶4处理两年平均产量分别比5∶1∶4和7∶1∶2高2.27%和7.69%。施氮量和氮肥基追比对蛋白质含量、湿面筋含量、面团形成时间、稳定时间、面包体积和面包评分等品质指标有极显著影响,而对籽粒硬度、吸水率、水SRC和蔗糖SRC影响不显著。增加施氮量或氮肥后移有利于提高蛋白质含量、湿面筋含量、面团形成时间、稳定时间、面包体积和面包评分等指标,在270 kg·hm^(-2)施氮量或210 kg·hm^(-2)施氮量、基追比3∶3∶4运筹下的面包评分均大于80分,达到优质强筋小麦标准。综上所述,晚播条件下,强筋小麦扬麦29在施氮量270 kg·hm^(-2)、基肥:壮蘖肥:拔节肥为3∶3∶4可实现产量与品质的协同提高。

药剂拌种对沿淮地区迟播小麦壮苗效应及产量的影响

播期延迟易使小麦产量下降,为了探讨药剂拌种对迟播小麦的壮苗效应及产量的影响,以‘淮麦40’为试验材料,设置4组不同药剂拌种处理,调查分析了小麦生长素质、籽粒产量等方面的数据。结果表明:通过药剂拌种能提高小麦成苗率;降低麦苗高度,增加叶龄,促进根系生长及生物量积累;可以促进分蘖,增加有效穗数,提高大穗比例,具有增产效应。其中药剂Y3表现最优,与对照处理比较,成苗率提高了2.1个百分点,在越冬前使小麦株高降低11.9%,叶龄增加16.4%,茎基部宽度增加58.2%,地上部及根系干重分别增加35.8%和45.9%;分蘖能力显著增强,有效穗数增加12.4%,穗粒数及千粒重得到提高,产量增加19.4%。综上表明,在小麦迟播情况下,使用药剂Y3拌种可以增强小麦生长素质,实现稳产增产。

药剂拌种对稻麦轮作中迟播小麦生长及产量的影响

为探讨药剂拌种对沿淮地区迟播小麦的壮苗效应及产量的影响,以准麦33为试验材料,设置3个不同药剂拌种处理和1个不拌种对照处理,调查分析了对小麦田间生长及产量影响.结果表明:与不拌种相比,药剂A1及A2可以降低小麦第1叶出叶高度及第1、2节间长度,从而使株高降低;同时可以促进生物量积累,增强小麦分能力,增加有效穗数.其中A1药剂组的千粒重性状表现较好,产量增加显著;A3药剂组增加了小麦节间长度及株高,营养生长旺盛,分能力较强,有效穗数增加,产量得到提高,但每穗粒数有所降低.综上表明,药剂拌种具有壮苗效应、促进分藥,促进小麦稳产增产,其中药剂A1表现最优.

药隔期倒春寒对小麦根际细菌群落结构的影响

以抗倒春寒性强的小麦品种烟农19(YN)和抗倒春寒性弱的小麦品种新麦26(XM)为实验材料,于小麦幼穗分化的药隔形成期利用智能超低温培养箱进行4℃(T1)和-4℃(T2)低温胁迫处理,以15℃作为对照(CK),利用高通量测序技术对开花期小麦根际土壤细菌群落进行测定,研究药隔期倒春寒对小麦根际细菌多样性和群落结构的影响。结果表明:(1)倒春寒危害后两品种小麦根际土壤细菌的ACE指数较CK均有所降低,且对抗倒春寒性弱的品种XM影响显著(P<0.05)。(2)两品种小麦根际土壤细菌群落主要由变形菌门(53.20%~57.55%)、放线菌门(13.34%~21.69%)、拟杆菌门(10.56%~12.37%)和芽单胞菌门(6.17%~9.19%)等33个门及819个属的细菌组成,且不同程度倒春寒处理间各菌门相对丰度表现出差异性,其中放线菌门(Actinobacteria)相对丰度在YN中升高9.79%~19.11%,在XM中降低26.43%~38.47%。(3)根际土壤细菌功能预测分析显示,药隔期倒春寒提高了膜运输、氨基酸代谢、碳水化合物代谢、复制与修复功能基因在YN根际土壤中的相对丰度,降低了其在XM根际土壤中的相对丰度。综上所述,药隔期倒春寒降低了小麦根际土壤细菌群落的丰富度,改变了细菌群落结构,影响了细菌群落的膜运输、氨基酸代谢、碳水化合物代谢和复制与修复功能。

喷施KH_(2)PO_(4)提高倒春寒胁迫小麦功能叶片和根系的生理活性

【目的】倒春寒是影响黄淮麦区小麦产量形成的主要灾害,喷施磷酸二氢钾(KH_(2)PO_(4))被广泛应用于减轻倒春寒对小麦的伤害。研究喷施磷酸二氢钾对低温胁迫下小麦花后功能叶与根系生理活性的调控效应,为小麦生产中的防灾减灾提供理论支撑。【方法】盆栽试验在田间条件下进行,选用抗倒春寒性强的小麦品种烟农19(YN)和抗倒春寒性弱的小麦品种新麦26(XM)为试验材料,设置常温对照+喷施清水(CK)、倒春寒处理+喷施清水(T1)、倒春寒处理+喷施KH_(2)PO_(4)(T2)3个处理。在小麦幼穗分化到四分体期,将T1和T2处理的盆栽移入人工气候室内(−4℃)处理4 h,然后移出,24 h后进行喷施处理。于小麦花后7、14、21、28天测定旗叶SPAD值、根系活力、旗叶与根系的超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性和丙二醛(MDA)含量。通过主成分分析(PCA),综合评价倒春寒对小麦花后28天地上部与地下部生理活性指标的影响。【结果】与CK处理相比,两小麦品种T1处理的旗叶SPAD值和抗氧化酶活性分别显著降低了13.94%~35.03%、16.09%~32.84%(SOD)、18.16%~50.10%(POD)和19.21%~75.40%(CAT),MDA含量显著增加了29.55%~124.56%;T1处理的根系活力显著降低了44.00%~75.63%,SOD和POD活性分别显著降低了42.42%~86.11%和31.00%~66.67%,MDA含量增加了61.54%~330.11%。与T1相比,两品种T2处理的旗叶SPAD值显著增加了7.90%~23.38%,SOD、POD和CAT活性分别显著增加了10.63%~32.28%、14.20%~57.20%和10.75%~115.56%,MDA含量显著降低了6.66%~36.08%;根系活力上升了44.71%~139.75%,根系SOD、POD活性分别显著增加了12.13%~102.01%和21.05%~146.61%,根系MDA含量显著降低了12.01%~51.23%。选定的花后28天地上部与地下部9个生理活性指标之间关系密切,一个主成分其可解释9个变量82.82%的变化,其综合生理活性指数的排序为:YNCK>XMCK>YNT2>XMT2>YNT1>XMT1。【结论】受倒春寒影响后,施用KH_(2)PO_(4)可提高小麦花后旗叶SPAD值、根系活力和抗氧化酶活性,降低旗叶和根系的MDA含量,从而延缓旗叶和根系的衰老,减轻倒春寒对小麦花后旗叶和根系生理活性的不利影响。

播量对超晚播冬小麦基部节间性状、机械强度及倒伏率的影响

为探究北疆超晚播栽培方式下小麦基部节间结构特点及播期和播量的最佳组合,以新冬18号为试验材料,设D1(10月25日)、D2(11月4日)、D3(11月14日)3个超晚播期及M1(7.50×10^(6)粒·hm^(-2))、M2(1.00×10^(7)粒·hm^(-2))、M3(1.25×10^(7)粒·hm^(-2))、M4(1.50×10^(7)粒·hm^(-2))4个播量,选择当地适宜播期和播量(9月25日、6.00×10^(6)粒·hm^(-2))为对照(CK),分析了播期和播量对开花期、乳熟期及蜡熟期超晚播小麦基部节间形态结构、3种力学特征及倒伏率的影响。结果表明,小麦开花后抗倒伏性能逐渐降低。与CK相比,超晚播小麦基部节间长度、直径、壁厚、干物质量、茎粗系数、充实度、压碎力、穿刺力及抗折力均减少,表观倒伏率、倒伏级别增加,抗倒伏能力降低。在超晚播条件下,播量相同时,基部节间长度表现为D1>D2>D3,基部节间直径和干物质量表现为D1>D3>D2,田间表观倒伏率和节间壁厚、茎粗系数、充实度以及3种力学指标均表现为D3>D1>D2;播期相同时,增加播量后,基部节间长度、直径、壁厚、干物质量、茎粗系数、充实度、压碎力、穿刺力及抗折力均减少,表观倒伏率、倒伏级别增加;播期与播量对各项指标均不存在互作效应。加大播量后,收获穗数增加,有利于超晚播小麦产量形成。本试验条件下,经综合抗倒伏相关指标和产量考虑,11月4日播种1.00×10^(7)粒·hm^(-2)是北疆超晚播小麦适宜的播期与播量组合。

晚播条件下不同密度对金麦1号小麦群体质量及产量的影响

2022-2023年在西北农林科技大学曹新庄试验农场以推广新品种金麦1号小麦为材料,研究了晚播条件下不同密度(3.0×10^(6)株/hm^(2)、4.2×10^(6)株/hm^(2)和5.4×10^(6)株/hm^(2))对其分蘖、群体结构、产量及其构成因素的效应。结果表明:不同种植密度条件下晚播后,随种植密度的增加,金麦1号小麦在越冬至拔节期Ⅰ级分蘖和Ⅱ级分蘖呈降低趋势,Ⅰ级分蘖减少3.0%~17.4%,Ⅱ级分蘖减少14.3%~87.0%,密度过大会显著影响Ⅱ级分蘖形成;随着密度的增加,越冬至拔节期总茎数增加8.9%~44.8%;成穗率降低0.5%~2.9%。在种植密度为4.2×10^(6)株/hm^(2)小麦产量最高,为11272.1 kg/hm^(2)。对产量构成三要素寻优结果表明,在播期为10月25日和密度为4.2×10^(6)株/hm^(2)时,有利于晚播小麦获得更高产量。

基本苗和施氮量对稻茬迟播小麦品质的影响

以强筋小麦农麦88和弱筋小麦宁麦13为供试材料,探究迟播条件下基本苗和施氮量对其品质的影响,筛选适宜江苏淮南优质栽培措施组合。结果表明:基本苗和施氮量及其互作对迟播小麦主要品质指标有显著或极显著影响。随基本苗数量的增多,两品种面粉吸水率、干(湿)面筋含量、稀解值以及面团稳定时间和形成时间有所降低,支链淀粉含量、低谷黏度、最终黏度有所升高,直链淀粉含量先升后降;两品种籽粒硬度、蛋白质含量、面筋指数、总淀粉含量、峰值黏度、反弹值等指标的变化趋势不一致。随施氮量的增加,两品种籽粒容重、面筋指数、总淀粉及支链淀粉含量呈降低趋势,面粉吸水率、面团稳定时间和形成时间呈升高趋势,蛋白质含量和干(湿)面筋含量呈先增后降的规律;两品种籽粒容重、直链淀粉含量以及面粉糊化特性相关指标的响应变化有所差异。迟播宁麦13和农麦88分别在基本苗375×10^(4)苗·hm^(-2)、施氮量315 kg·hm^(-2)和基本苗300×10^(4)苗·hm^(-2)、施氮量270 kg·hm^(-2)的处理组合下,其蛋白质、湿面筋含量及面团稳定时间等主要品质指标均达到较优,符合国家弱、强筋小麦品种分级标准。

商丘市冬小麦晚霜冻灾害综合风险分析

[目的]明确商丘市冬小麦晚霜冻灾害综合风险时空分布特点,为指导晚霜冻灾害防灾、减灾措施制定与实施提供决策依据。[方法]选取河南省商丘市7个代表气象站点1970-2019年的气象数据及所在区域的冬小麦种植与生长资料,确定冬小麦拔节期及晚霜冻发生指标,通过对晚霜冻灾害发生的致灾因子危险性、孕灾环境暴露性、承灾体脆弱性以及灾害综合风险等的分析,进而对商丘市冬小麦晚霜冻灾害发生特征特性进行分析。[结果](1)1970-2019年间,商丘市中部地区冬小麦轻霜冻和重霜冻的发生频率均较低,而东部地区重霜冻发生频率普遍要高于西部地区。(2)从冬小麦晚霜冻灾害综合风险角度看,商丘市东部的永城冬小麦晚霜冻灾害综合风险指数最高,其次是东部的虞城和南部的柘城,而中部的商丘晚霜冻灾害综合风险指数最低。[结论]因此,商丘市东、南部地区冬小麦晚霜冻灾害综合风险相对要高。在实际生产中,应重点关注高风险区的晚霜冻灾害防御工作,以减少晚霜冻灾害带来的损失。

浅谈倒春寒对小麦影响及预防措施

泗县每年3-4月常出现倒春寒现象,危害小麦生长,影响小麦稳产高产。因此,在小麦生产中要培育壮苗,安全越冬,提高小麦抵御倒春寒的能力。该文阐述了小麦拔节期前后受倒春寒危害的症状,并提出了倒春寒来前的预防措施及来后的补救措施。

不同药剂组合对小麦中后期病害的田间防效及效益评价

为筛选防治小麦中后期病害的药剂组合,本试验分别在其拔节孕穗期、抽穗扬花期和扬花盛期施用18.7%丙环·嘧菌酯悬浮剂(扬穗)等7种新型药剂和50%苯甲·丙环唑水乳剂(颖越)等6种常规药剂,以不施用药剂为空白对照。调查其对小麦中后期赤霉病等3种病害的防控效果,并观测小麦安全性和产量。结果表明,不同药剂处理组合在试验剂量下对小麦生长安全,对小麦中后期赤霉病、白粉病和锈病有较好的防治效果,增产效果较好,其中T2处理(拔节孕穗期施扬穗750 mL/hm^(2)+力承300 mL/hm^(2)+阿立卡150 mL/hm^(2)+益施帮750 mL/hm^(2);抽穗扬花期施麦甜900 mL/hm^(2)+麦甜伴侣600 mL/hm^(2)+阿立卡150 mL/hm^(2)+益施多金750 mL/hm^(2);扬花盛期施麦甜900 mL/hm^(2)+麦甜伴侣600 mL/hm^(2)+益施多金750 mL/hm^(2))防效最好,小麦产量最高。综上,在小麦赤霉病常发区通过不同药剂轮换施用,可有效防治小麦病害,延缓其抗药性的产生。

晚播小麦栽培技术

小麦是鄄城县重要的粮食作物,在当地农业经济发展及农民脱贫增收中发挥着重要作用,保证小麦生产安全意义重大。晚播小麦栽培时,栽培技术应用是否规范标准,直接影响着小麦的产量、品质以及种植效益。以鄄城县为例,在分析晚播小麦生育特点的基础上,着重对晚播小麦栽培技术要点展开了深入研究。

2023年单季晚粳品种筛选

为鉴定单季晚粳品种的丰产性、稳产性、适应性、抗性、米质及其他重要特征特性表现,进一步筛选适宜当地推广种植的麦茬粳稻品种,满足种植需求,本研究选取10个水稻新品种,以嘉优5号作为对照,开展2023年单季晚粳品种筛选试验。每个品种重复种植3个小区,每个小区面积13.3 m^(2),田间完全随机区组排列,对10个品种及对照的产量、米质、抗病性及其他性状进行综合分析。结果表明,适宜在研究区及周边地区种植的高产粳稻新品种有5个,分别是W214176、W217682、W097、W227962和W098;抗性品种3个,分别是申优531、W220096和W220130;优质稻品种1个(W222509)。

长江中下游麦区小麦迟播的不利影响及育种对策

近年来长江中下游稻麦轮作区水稻成熟期不断推迟,致使小麦播期大幅度推迟,这已成为该麦区小麦高产稳产的主要障碍。迟播不仅导致小麦生育期缩短,积温、光照时数减少,营养生长不足,难以形成高产群体基础,还导致赤霉病和白粉病严重发生,增加了灌浆期遭遇高温危害的风险及收获前遇阴雨发生穗发芽的概率。为了减少小麦迟播的不利影响,除了栽培措施应对外,根本措施是培育适合迟播的小麦品种。在育种时应重点加强迟播条件下出苗快、生根快、分蘖早、越冬期仍能保持较大生长量和分蘖发生量等性状的选择;提高抗性,特别是赤霉病抗性、耐渍性和抗穗发芽性;注重选择灌浆速率高、耐高温逼熟的品种,利用灌浆速率的提高补偿灌浆时间缩短的不利效应,培育迟播高产品种。

晚收迟播对稻麦周年产量及经济效益的影响

为给长江下游地区家庭农场稻麦高产高效栽培提供参考,选用江苏省淮南麦区6个主栽小麦品种扬麦16、扬麦18、扬麦20、镇麦9号、宁麦14和镇麦168和4个主栽水稻品种镇稻14号、淮稻5号、镇稻16号、镇稻18号为材料,设置11月1日、11月15日和11月29日3个小麦播期处理,探讨了晚收迟播对稻麦周年产量及经济效益的影响。结果表明,小麦播期为11月1日和11月15日时,稻麦周年产量较高,其中在11月15日播种时镇稻18、扬麦18周年粮食产量最高,达到1 5048kg·hm-2。小麦在11月15日和11月29日播种时稻麦周年经济效益明显高于11月1日播种,每公顷可增收1 000多元,其中在11月29日播种时镇稻18、镇麦9号周年经济收益最高,达到30 897.04元·hm-2。

中国小麦品种穗发芽抗性差异的研究

利用收获时种子发芽率和面粉降落值法,于2000—2002年2个小麦种植年度,研究了黄淮、北部、长江中下游、西南冬麦区和东北春麦区1950年以来的781个主要推广品种和新品系的穗发芽抗性。结果表明,小麦穗发芽抗性测定值在年度间极显著或显著正相关,不同年代小麦品种的穗发芽抗性差异较大。1990年以来育成品种的穗发芽抗性与20世纪80年代相近,但明显弱于506、0以及70年代。黄淮、西南和春小麦3个麦区种子发芽率低于2%的高抗品种数分别占各自麦区供试总数的1.7%、4.5%和5.7%,而长江中下游和北部2个冬麦区的种子发芽率都在10%以上;东北春麦区品种的抗性较强,种子发芽率平均为11.2%。利用等电聚焦电泳从发芽率和降落值均偏低的品种中鉴定出异源2号、蜀万24、蜀万761、陕160、孟县4号、京411、京9428、鉴26、燕大1817、农大45、衡水6404、晋麦5号、8号、鄂麦14和克辉等15个携带迟熟α-淀粉酶基因的品种,分布在5个不同麦区。对这些品种及其亲本进行SSR分子标记分析,发现有些与其亲缘关系密切的品种,却不携带迟熟α-淀粉酶基因。上述结果说明,该基因在我国五大小麦产区均有分布,但具该基因的品种数量少,占供试品种数的1.9%,通过育种程序容易选择出不携带该基因的小麦品种。