陕西省不同年代玉米品种产量和氮效率性状的变化

明确陕西省不同年代玉米产量和氮效率性状响应氮肥的变化趋势,对西北旱区玉米高产氮高效品种选育具有重要的实践意义。本文以1981—2010年间陕西省12个玉米主栽品种为材料,于2011年和2012年在典型旱区陕西长武进行3个氮水平(0、120和240 kg hm–2)的田间试验,分析了不同年代玉米品种农艺和氮效率性状变化趋势。结果显示,不同年代玉米品种籽粒产量随氮水平增加而提高,在施氮0、120和240 kg hm–2处理下籽粒产量增益分别为每年46、65和83 kg hm–2。所有氮水平下2000—2010年间品种产量和生物量显著高于1980—1989年间品种,而秸秆产量变化不明显;现代玉米品种(2000—2010年)产量的增加归因于穗粒数、千粒重和生物量的提高。不同年代玉米品种消光系数随氮水平增加而降低,说明现代玉米品种(2000—2010年)较老品种(1980—1989年)叶片直立,截获更多的光能,致使产量和生物量高。随着年代的递进,玉米品种氮肥农学利用率呈递增趋势,在低氮水平下现代品种氮肥利用效率最高,且显著高于老品种。氮肥农学利用率与氮吸收效率(NUpE)和花后氮素积累量呈显著相关(r=0.75;r=0.72),而与氮生理效率(NUtE)和花前氮素积累量相关性不显著(r=0.42;r=0.39)。说明现代玉米品种氮肥农学利用率提高主要来自氮肥吸收效率和花后氮素积累量的增加。上述结果表明,陕西玉米育种应注重穗粒数、千粒重、氮吸收效率性状和株型结构改良,低氮环境压力选择将有助于旱区玉米高产氮高效新品种培育。     

不同降水状况下旱地玉米生长与产量对施氮量的响应

水分不足是旱地玉米生长主要限制因素,渭北旱塬雨养玉米种植区降水季节波动大,干旱频繁发生,已严重影响春玉米正常生长发育及产量稳定性。于2016—2018年在渭北旱塬合阳县进行旱地玉米施氮量定位试验,设置5个施氮量处理, 2016—2017年包括0、75、150、270、360 kg hm~(–2) (分别以N0、N75、N150、N270、N360表示), 2018年施氮量处理为0、90、180、270、360kgNhm~(–2) (分别以N0、N90、N180、N270、N360表示),供试品种为郑单958(ZD958)和陕单8806(SD8806)。分析了不同降水分布年份施氮量对春玉米生育期土壤水分变化动态、干物质积累动态、产量构成、经济效益及水分利用效率(WUE)的影响。结果表明,试验年份降水分布可分为穗期多雨、粒期干旱型(2016年和2018年)和穗期干旱、粒期多雨型(2017年)。生长季降水量及其分布显著影响土壤蓄水量和玉米地上部干物质积累,从而影响玉米产量及其构成因素,穗期干旱显著降低地上部干物质积累量和穗粒数,粒期干旱会明显降低粒重。不同降水分布年份施氮处理较N0增产6.72%～91.23%不等,施氮量对玉米产量、水分利用效率(WUE)影响呈现二次曲线关系,穗期多雨、粒期干旱型以N270处理籽粒产量和WUE最高,而穗期干旱、粒期多雨型以N150处理产量和WUE最好。籽粒产量与"休闲至抽雄期降水(FP2)"、"播前土壤蓄水量+播种至抽雄期降水(SP2)"相关性较强(FP2:R2=0.839**; SP2:R2=0.837**)。根据产量、水分利用和经济收益综合评价,渭北旱地玉米最适施氮方案为基施氮肥150kghm~(–2),再根据休闲至抽雄期降水量或播前土壤蓄水量与播种至抽雄期降水量之和预测产量,估算并及时追施适宜施氮量。     

黑龙江省不同年代玉米杂交种产量对种植密度和施氮水平的响应

明确不同年代春玉米生产力对种植密度和氮肥水平的响应特征及其趋势,对高产高效的耐密品种选育和密植抗倒栽培具有重要的理论参考和技术指导意义。本文以黑龙江近50年来第一积温带大面积种植的8个典型春玉米品种为材料,于2009和2010年进行密度和施肥的田间试验,比较不同年代主栽品种生产力演变特征。结果显示,黑龙江省1970s—2000s玉米品种更替过程中,单株生产力与群体产量均明显提高,平均增幅分别为16.96 g 10年^-1和790 kg hm^-2 10年^-1;植株空秆率和倒伏率显著下降,株高、穗位、单株叶面积、穗粒数、千粒重显著提高。随着密度的提高,各年代玉米的单株产量呈显著下降趋势,群体产量呈抛物线形上升,群体最高产量的理论密度增幅为3 507株 hm^-2 10 年^-1;空秆率显著提高,但倒伏率仅1970s和1980s的品种呈递增趋势;株高、单株叶面积、棒三叶面积、穗粒数与千粒重均呈现下降趋势,穗位随密度增加呈显著上升趋势。各年代品种株高、穗位、单株叶面积和千粒重随氮肥水平提高呈增加趋势。在150~450 kg hm^-2的施氮水平范围,随着氮肥水平的提高,各年代品种增产效果不明显。各主要指标在年代、密度和氮肥水平之间存在显著的互作效应。对照东北玉米现有的品种特性、种植密度和施肥现状表明,选育耐密品种和实施密植抗倒栽培的增产潜力大,在现在的施肥水平上进一步提高种植密度是东北春玉米高产增效耕作栽培的技术创新方向。     

施氮对夏玉米顶部籽粒早期发育及产量的影响

以夏玉米杂交种郑单958为材料,对不同施氮水平下顶部籽粒的早期发育状况及产量进行了研究。结果表明,施氮明显促进关键酶活性的增强,促进顶部籽粒的早期发育。当施氮量为180 kg/hm²时,顶部籽粒的酸性蔗糖转化酶（AI）、中性蔗糖转化酶（NI）、蔗糖合成酶（SS）、腺苷二磷酸葡萄糖焦磷酸化酶（ADPGase）、淀粉     

Effects of Nitrogen and Plant Density on Growth, Yield and Chemical Composition of Two Winter Wheat (Triticum aestivum L.) Cultivars

A field study was conducted on the winter wheat cultivars Arminda and Okapi , using two seed rates (80 and 160 kg/ha) and three N applications (40, 80 and 120 kg/ha).
The cultivars did not differ in total dry matter production but did differ in grain yield. The difference in grain yield was mainly attributable to a higher harvest index (HI).
Increased plant density reduced HI; it resulted in more shoots per m², but in a lower grain yield. The reduction in grain yield was caused by fewer kernels per ear and a lower 1000-grain weight in both cultivars.
A higher rate of N increased total dry matter production and grain yield, except in Okapi at the high plant density. The number of kernels per ear increased, but 1000-grain weight fell.
The higher the N applications, the higher the N-content of the roots was.
Total N yield was greater in Arminda than in Okapi. The cultivars differed in the amount of nitrogen they took up after anthesis.
The content of water-soluble carbohydrates (WSC) differed between the cultivars, N treatments and growth stages. Carbohydrate formed before anthesis accounted for 23 % of Arminda's grain yield and for 10 % of Okapi's grain yield.
The content of cell-wall constituents (CWC) depended on cultivar, growth stage and the rate of the N dressing. Differences in CWC were more pronounced in Arminda than in Okapi. During leaf, stem and ear development there was a strong increase in content and amount of CWC. Concomitantly, WSC decreased. This implies that a large consumption of WSC is necessary for the formation of CWC. The competition for the WSC, necessary for CWC and shoot and ear development influences kernel initiation. Per unit of dry matter Okapi contained more CWC than Arminda. This was not in agreement with differences in straw sturdiness.     

不同密氮模式下高产玉米品种籽粒产量与氮素利用特性研究

为给玉米高产高效栽培提供科学依据,在大田试验条件下,选用郑单958和先玉335为材料,在每个品种下设置2个种植密度(6.75,8.25万株/hm~2)和4个施氮水平(0,180,240,300 kg/hm~2),研究了种植密度和施氮水平下2个高产玉米品种籽粒产量和氮素吸收利用特性。结果表明:在相同密度水平下,2个玉米品种籽粒产量、氮素积累量和蛋白质产量均随施氮量增加总体呈现增加趋势,氮素利用效率则降低;在相同施氮水平下,2个玉米品种籽粒产量、氮素积累量和蛋白质产量均随密度的增加总体呈现增加趋势,氮素利用效率则降低。在不同密氮组合下,先玉335的籽粒产量、氮素积累量、蛋白质产量及氮素利用效率均高于郑单958。本研究条件下,2个玉米品种在密度为8.25万株/hm~2,施氮量为240 kg/hm~2组合下,均可以同步协调实现籽粒产量、蛋白质产量和氮素利用效率的协调统一。     

Effects of Nitrogen Application Time on Ear Components of Maize

Pot and field experiments were conducted with two varieties of maize to study the effects of nitrogen applied in different doses. The total amount of N applied was same in all variants of one experiment. The development of maize plants varied due to variety and N-doses. In pot experiment no N application before sowing or in the begin of the ear differentiation reduced total number of spikelets, spikelet rows/ear, length of ear, kernel yield as well as plant height. In field experiments an amount of 30 kg N/ha in the begin of ear formation was sufficient for maximum increase in almost all yield characteristics. Higher doses than that were not effective to promote these parameters further.     

Effects of Nitrogen Fertilization on Yield and Yield Components of Tropical Maize Cultivars

Six tropical maize cultivars were grown in Thailand on a reddish brown latosol under three nitrogen regimes, 0, 40 and 80 kg N/ha. With regard to biomass and economic yield several "cultivar by N fertilization response types" were discriminated. The low fertilization type was represented by an early and a late maturing cultivar, both yielded comparatively well without additional N and responded little to N fertilization. An opaque 2 cultivar and a commercial hybrid belonged to the high fertilization type, they had a very low yield without N and needed high N fertilization to produce a high yield. The other genotypes were of an intermediate type with comparatively high yields without N, a considerable increase in yield at 40 kg N/ha and some increase from 40 to 80 kg N/ha. Genotypic variability for the harvest index was high but values were at the usual low level of tropical cultivars. High fertilization types reacted to an additional N supply with a marked increase in kernel number/plant and little increase in kernel weight. The early maturing low fertilization type reacted quite the opposite way. All other genotypes predominantly increased kernel number from 0 to 40 kg N/ha and kernel weight from 40 to 80 kg N/ha.     

氮密互作对夏玉米物质生产及氮素利用的影响

以夏玉米杂交种郑单958为材料,对不同种植密度和不同施氮水平下夏玉米的物质生产和氮素利用状况进行了研究。结果表明,在中(67 500株/hm2)、高(82 500株/hm2)密度下,氮肥对玉米单株物质生产能力的调控作用更为明显,并主要是通过影响穗粒数来实现的。适量施氮,可促进顶部子粒发育,减少败育,使秃尖缩短、瘪粒数减少,增加穗粒数,增加产量;促进植物体吸收的氮素高效地向籽粒中分配,提高氮肥的利用效率;使玉米叶片维持较高的光合性能,为籽粒形成提供充足的光合碳量,并促进营养体碳氮向子粒运转。     

中熟高产玉米杂交种主要农艺性状演变规律的研究

通过对山东省１９７６￣１９９５年中熟玉米高产杂交种主要农艺性状的分析，认为中熟高产玉米杂交种产量的提高，主要由于选育了紧凑型品种而增加了密度（公顷株数和公顷穗数）、公顷粒数和提高了籽粒千粒重；１９７６￣１９９５年中熟高产玉米杂交种主要农艺性状的演变规律是，公顷产量、公顷株数、公顷穗数、公顷粒数和千粒重等性状呈上升趋势，穗长呈下降趋势，穗行数、穗粒数、株高、穗位高、大斑病、小斑病和生育期等性状则变化     

不同种植密度下甜玉米氮磷钾养分吸收量差异研究

采用单因素田间试验,对不同种植密度对甜玉米产量和氮磷钾吸收量的影响进行了研究,以期为高产、优质、资源高效、环境保护等多重目标并重的最佳养分资源管理提供理论依据。结果表明：低密度（51282株/hm²）、中密度（61538株/hm²）和高密度（76923株/hm²）下,甜玉米鲜苞产量分别为9179、10285、11664kg/hm²;氮磷钾养分施用量相同的情况下,低密度、中密度和高密度下,甜玉米收获期秸秆和籽粒总吸氮量分别为65.5、89.1、122.5kg/hm²,总吸磷量分别为14.5、15.3、20.1kg/hm²,总吸钾量分别为81.6、98.2、130.0kg/hm²。甜玉米鲜苞产量和氮磷钾总吸收量均随着种植密度的增加而明显增加。     

增施氮肥、硼肥对花期遮阴条件下玉米籽粒产量的影响

遮阴已成为影响夏玉米产量的重要因子,提高玉米耐阴性可为高产、抗逆栽培提供理论依据。以‘苏玉29’为试验材料,系统研究了小喇叭口期增施氮肥、硼肥缓解花期遮阴胁迫对夏玉米形态建成、物质积累和产量的影响。结果表明:遮阴处理降低了株高、茎粗、单株叶面积和干物质积累量,并延长了散粉吐丝间隔期。与遮阴处理比,小喇叭口期增施硼肥、氮肥不同程度提高了株高、茎粗、单株叶面积和干物质积累量,且同时增施硼肥、氮肥增幅最大。遮阴处理显著增加了秃尖长,降低了穗粒数和粒重,增施硼肥氮肥缓解了遮阴对突尖长、穗粒数和粒重的影响。增施硼肥、氮肥和同时增施硼肥、氮肥处理产量分别较遮阴处理提高36.7%、8.0%和43.1%。遮阴处理降低叶面积影响干物质积累,产量的降低与突尖增长、穗粒数减少和粒重降低有关。小喇叭口期增施硼肥和氮肥是缓解花期遮阴对产量不利影响的有效措施。     

宜机收玉米新品种‘豫单132’适宜种植密度的筛选

为了筛选宜机收玉米新品种‘豫单132’的适宜种植密度,在长葛和原阳试验基地设置5个不同种植密度处理,分别为60000、64500、67500、72000、75000株/hm²,研究不同种植密度对其产量及农艺性状的影响。结果表明,随着种植密度的增加,‘豫单132’的株高和穗位高逐渐增高,茎粗减小;穗长、穗粗、穗行数和行粒数整体呈降低趋势,秃尖长随种植密度的增加而增大;随着种植密度的增加籽粒产量表现出先增加后降低,在67500株/hm²时产量表现最高,呈近似抛物线状分布。因此,玉米新品种‘豫单132’的适宜种植密度为67500株/hm²,这为该品种的推广应用提供了参考。     

30%胺鲜酯-乙利水剂对玉米杂交种主要农艺性状的影响

在75000株/hm2的种植密度下,研究了玉米专用增效剂对玉米杂交种主要农艺性状的影响。结果表明:不同剂量的玉米增效剂对玉米杂交种农艺性状的影响存在明显差异;合理使用增效剂可以降低玉米杂交种株高、穗位高、倒伏率、空秆率、秃尖长,增加茎粗和千粒重,稳定穗长、穗粗、行数、行粒数、出籽率,提高玉米籽粒产量。玉米杂交种洛玉5号的适宜施用浓度为150～200mL/hm2。     

黄淮海区域现代夏玉米品种产量与养分吸收规律

为玉米合理施肥,实现高产高效提供理论依据,2016年在济南商河国家农作物新品种展示示范中心和山东农业大学作物生物学国家重点实验室进行试验,于玉米完熟期进行植株取样,测定产量、产量构成因素和植株矿质元素含量,探究黄淮海区域现代夏玉米品种的产量与养分吸收规律。探测分析和正态分布检测结果表明单株生产力、单株生物产量、千粒重和籽粒产量分别符合正态分布N (167.0, 22.722)、N (285.0, 33.472)、N (318.0, 35.752)和N (10.9,1.502),其变化范围为141.55～246.99 g株–1、197.68～389.92 g株–1、226.58～413.76 g和5.84～13.41 t hm~(–2)。每生产100kg籽粒氮素需求量平均为1.95 kg,单位籽粒氮素需求量随籽粒产量提高呈降低趋势。当产量水平由7.0 t hm~(–2)增加到8.0～9.0 t hm~(–2)时,每生产100 kg籽粒氮素需求量从2.15 kg降低到1.96 kg,主要是收获指数升高和籽粒氮浓度降低造成的;当产量水平由8.0～9.0 t hm~(–2)增加到10.0～11.0 t hm~(–2)时,每生产100 kg籽粒氮素需求量从1.96 kg降低到1.84 kg,主要是籽粒氮浓度降低造成的;当产量水平由10.0～11.0 t hm~(–2)增加到11.0 t hm~(–2)时,单位籽粒氮素需求量基本不再变化。生产100kg玉米籽粒的磷素需求量平均为0.97kg,其与籽粒产量呈显著负相关,从产量水平7.0t hm~(–2)的1.07 kg下降到产量水平11.0 t hm~(–2)的0.92 kg,这是由收获指数升高和籽粒磷浓度降低造成的。生产100 kg玉米籽粒钾素需求量平均为1.89 kg,其与籽粒产量呈显著负相关,从产量水平7.0 t hm~(–2)的2.14 kg下降到产量水平11.0 t hm~(–2)的1.74 kg,这是由收获指数升高、茎秆钾浓度增加和叶片钾浓度降低造成的。当前黄淮海区域现代玉米品种籽粒产量为(8.91±1.23)thm~(–2),生产100kg籽粒的氮素、磷素和钾素需求量的变化范围分别为(1.95±0.24)、(0.97±0.11)和(1.89±0.28)kg。氮磷钾需求量随产量的提高而增加,但每生产100kg籽粒产量的氮素、磷素和钾素需求量随着产量升高而下降。     

密度与播期对晋西旱作玉米农艺性状及产量的影响

为了研究不同玉米品种在晋西旱作条件下的最佳栽培模式,采用3因素随机区组设计,对3个耐密型品种在4个种植密度和3个播期下的农艺性状及产量的数值差异进行比较研究。结果表明,密度对3个品种的最大叶面积指数、穗粒数、千粒重、产量的影响达显著或极显著水平,对株高、穗位高的影响不显著;播期对株高、穗位高、最大叶面积指数、穗粒数、千粒重、产量的影响达显著或极显著水平,主要农艺性状之间的交互作用共同影响并且决定了玉米产量。综合分析可知‘：先玉335’和‘大丰30’在67500株/hm²和5月中旬处理组合下产量最高,分别为13914.17kg/hm²、13487.67kg/hm²‘;福盛园55’在75000株/hm²和4月下旬处理组合下,产量最高为16114.37kg/hm²,本研究为3个玉米品种在本地区获得高产提供了一定的技术支撑。     

Yield Components of Apical and Subapical Ear Contributing to the Grain Yield Responses of Prolific Maize at High and Low Plant Populations

Subapical ears are largely responsible for grain yield variations in prolific maize (Zea mays L.) grown under conditions favourable for the expression of prolificacy trait, but limited information exists on yield components contributing to yield responses. A field experiment was conducted to determine the yield components of apical and subapical ear in prolific maize after various pollination treatments at two plant populations. Hybrid Pioneer 3733 was grown in the perfect stands of 71 428 and 35 714 plants ha^?1. Three pollination treatments were carried out: (i) free pollination; (ii) subapical earshoots were covered to prevent pollination; and (iii) apical earshoots were covered to prevent pollination. Grain yields of free pollinated plants were by 50.1 % larger at low plant population (265 g per plant) than at high plant population (177 g per plant) due to a 45.3 % increase in kernels per plant, whereas 1000‐kernel weight slightly increased by 3.3 %. These increased kernels per plant at low plant population were, in part, the result of kernel increments on apical ear (10.1 %), and mainly associated with kernels from subapical ears that did not occur at high plant population. At low plant population, the total grain yield per plant was reduced by 94 g (35.5 %) after the apical ear was bagged to prevent pollination, but only 52 g (19.6 %) when the subapical ear was bagged. When subapical ear development was stopped at low plant population, grain yield on apical ears increased by only 3.9 % as a result of heavier 1000‐kernel weights, clearly demonstrating limitations in kernel set and size. After grain development on apical ear was prevented, subapical ear enlarged to 80.3 % of maximum apical ear yield because the former had, on average, 2.5 % lighter 1000‐kernel weight and 17.5 % fewer kernels than the latter. Ears did not differ in row number when only apical or subapical ear was developed on plant, whereas subapical ears tended to have fewer rows than apical ears when both were present on the same plant. Our results showed that: (i) plant population affected all yield components on both apical and subapical ear except row number; (ii) the occurrence of subapical ear is triggered by achieving maximum potential kernel set on apical ear; and (iii) subapical ear is inferior in potential grain yield to apical one even when the latter was prevented from pollination.     

不同种植密度下缓/控释肥施肥量对夏玉米氮利用和子粒产量影响

为了探明缓释肥施肥量对夏玉米氮积累利用和子粒产量的影响,以夏玉米品种‘郑单958’为材料,在不同种植密度水平（6.75×104株/hm2、8.25×104株/hm2）下,以当地传统施肥量(750 kg/hm2)为对照,增加缓释肥施肥量(975 kg/hm2)进行比较研究。结果表明：缓/控释肥施肥量对夏玉米各器官及全株氮含量、氮利用效率均无显著影响;增加缓/控释肥施肥量明显降低了玉米空秆率（其均值较对照施肥量降低了20.0%）,尤其是在高密度下空秆率比同密度低肥量处理降低了27.0%,单穗重也增加12.4%。缓/控释肥施肥量对产量影响虽然未达到显著水平,但高密度下增施缓/控释肥处理比对照产量增加15.0%,比同密度低肥量处理增加19.4%,经济效益也比对照增加12.3%。因此,在高密度种植（8.25×104株/hm2）下适量增加缓释肥(975 kg/hm2)更有利于挖掘夏玉米增产潜力,实现夏玉米节本增产增效。     

不同施肥制度对夏玉米产量特性的影响

研究了北京褐潮土13年长期定位不同施肥制度夏玉米生物产量和籽粒产量特性,主要结果:(1)长期N、P、K化肥配合(NPK处理)以及N、P、K化肥与有机肥或秸秆配合施用(NPKM与NPKS处理),生物产量和籽粒产量表现稳定且持续高产;(2)长期N、P、K化肥非平衡施肥的处理(NP、N、NK、PK处理)以及不施肥的CK,夏玉米生物产量和籽粒产量连年持续下降,植株矮小、瘦弱,甚至出现发育停滞现象。氮磷钾缺乏其中任何一种元素,都会造成植株和籽粒发育障碍,影响生物和籽粒产量。     

不同施肥模式对夏玉米产量及生长发育的影响

研究不同施肥模式对玉米产量和生长发育影响,探讨玉米最佳机械化施肥模式,为玉米全程机械化生产提供依据。连续2年在河南不同生态区进行多点试验,以‘郑单958’为材料,设置4种施肥模式,比较不同施肥模式下夏玉米产量及生长发育等。结果显示,与对照传统模式比,机械2次施肥的产量和氮肥效率均增加8.8%,穗粒数增加5.9%,千粒重增加1.2%,最终干物质增加9.8%,果穗性状也有一定幅度提高;与经验模式比,机械2次施肥的产量、干物质、果穗性状、氮肥效率等指标与之接近。由此得出,机械2次施肥是较理想的玉米机械化施肥模式。