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

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。     

不同沼液用量对夏玉米源库代谢关键酶及产量的影响

以玉米杂交种郑单958为材料,研究了3个不同沼液用量（15000、22500、30000 kg·hm^-2）对夏玉米源库代谢关键酶和产量构成因素的影响.结果表明：与对照和施氮肥相比,田间浇灌沼液不仅可提高夏玉米地上部干物质量、叶面积指数和叶绿素含量,而且可提高叶片中硝酸还原酶（NR）、谷氨酰胺合成酶（GS）、蔗糖磷酸合成酶（SPS）和籽粒中蔗糖合成酶（SS）活性,从而显著增加了玉米穗粗、穗长、穗行数、穗粒数、穗粒重、千粒重和单位面积产量.在3个沼液用量中,以22500 kg·hm^-2处理(拔节期、大口期、抽雄期各追施7500 kg·hm^-2)对提高玉米酶活性和产量的效果最好,其产量可达14006.7 kg·hm^-2,比对照增产40.7％.     

种植方式对夏玉米光合生产特征和光温资源利用的影响

为研究套种与直播两种种植方式对夏玉米光合生产特征和光温资源利用的影响,选取郑单958和登海661为研究对象,设置3个播期,密度为67500株·hm^-2,以地上干物质积累量和作物生长速率、叶面积指数、穗位叶的单叶光合速率来评价夏玉米的光合生产特征;以Richards模型拟合籽粒灌浆过程;结合气象数据计算夏玉米光能利用率.结果表明：直播处理比套种处理籽粒产量增加1.17%～3.33%（P<0.05）,但千粒重显著降低;生育期随播期提前而延长;直播条件下叶面积指数和单叶光合速率在灌浆前期显著高于套种,但灌浆后期下降较快;与套种相比,直播开花前和开花后具有较高的干物质积累量和较快的作物生长速率.Richards模型解析表明,直播处理达到最大灌浆速率的时间明显早于套种,起始势较套种高,但灌浆期、活跃灌浆期和灌浆速率最大时的生长量均低于套种;与套种相比,直播处理生育期间总积温和总辐射量分别减少150～350 ℃·d和200～400 MJ·m^-2,但籽粒光能利用率较套种提高10.5%～24.7%.因此,直播较套种有优势,在夏玉米大田生产条件下,重视叶片的光合生产特征,延缓叶片衰老,有利于提高夏玉米的光能利用率,进一步挖掘增产潜力.     

氮肥后移对花后受渍冬小麦灌浆特性及产量构成的影响

2010～2012年连续2个生长季,以小麦品种‘烟农19’为材料,大田试验按基肥∶拔节肥∶孕穗肥比例设为氮肥处理N1(10∶0∶0)、N2(7∶3∶0)、N3(5∶5∶0)、N4(3∶5∶2),采用多项式、Logistic方程拟合不同氮肥运筹对花后受渍冬小麦灌浆期籽粒体积与干重变化过程,研究不同氮肥运筹对花后受渍冬小麦灌浆特性及产量构成的影响.结果表明:(1)两年度间各指标变化趋势基本一致,故各指标结果按其两年度平均值计算.(2)花后渍水使冬小麦籽粒体积减小11.8％,灌浆速率降低15.4％,灌浆历期缩短9.2％,千粒重降低20.9％,穗粒数减少7.0％,籽粒产量降低26.6％,而对穗数无显著影响.相对于氮肥全部作为基肥处理N1,氮肥后移处理N2、N3、N1的小麦籽粒体积分别增加10.2％、15.0％、19.4％,灌浆速率分别提高8.5％、16.0％、18.2％,灌浆历期分别延长5.0％、9.4％、11.5％,千粒重分别增加11.9％、20.2％ 、25.6％,穗粒数分别增加7.9％、12.3％、14.6％,产量分别提高18.1％ 、29.6％、37.6％,而穗数分别降低2.2％、3.8％、4.3％.(3)各灌浆参数与冬小麦籽粒产量的关联度表明,花后渍水逆境对灌浆速率的影响大于对灌浆历期的影响,氮肥后移主要通过提高小麦中后期灌浆速率缓解渍水逆境胁迫伤害.研究认为,在花后土壤受渍冬小麦生产区,生产中可获得最高小麦产量的最佳氮肥运筹模式为N4(3∶5∶2)处理.     

施氮时期对高产夏玉米光合特性的影响

选用登海661(DH661)和郑单958(ZD958)为试验材料,研究了高产条件下施氮时期对高产夏玉米光合特性、产量和氮素利用率的影响.结果表明,分次施氮尤其是增加花后施氮较拔节期一次性施氮可提高产量9.3％-18.2％,氮肥偏生产力提高10.9％-17.5％.拔节期、大喇叭口期、花后10d按2∶4∶4施氮,DH661产量可达14188.9 kg/hm2;基肥、拔节期、大口期、花后10d按1∶2∶5∶2施氮,ZD958产量可达14529.6 kg/hm2.分次施氮较一次性施氮可延长灌浆期LAI高值持续期.花后施氮20％-40％较一次性施氮穗位叶Pn、φPSⅡ、NPQ和ETR分别提高了10.8％-24.1％,16.6％-25.1％、29.2％-45.3％和14.4％-25.8％,并保持了灌浆期RuBPCase和PEPCase较高活性,延缓了叶片衰老,提高了光能利用率.DH661较ZD958在相同的施氮方式下花后具有更高的光合性能.分次施氮及花后施氮可显著改善两个高产夏玉米品种光合特性,提高氮素利用率,提高产量.     

源库关系改变对小麦灌浆期植株光合速率及~(14)C同化物运转分配的影响

选用千粒重大小不同的小麦品种,研究了去除顶端两个小穗对两类品种（大粒品种和小粒品种）千粒重、穗粒数、穗粒重、籽粒平均灌浆速率、单穗平均增重速率、植株光合速率及１４Ｃ同化物运转分配的影响。试验结果表明,去除顶端两个小穗后,两类品种的千粒重提高,穗粒数降低或基本不受影响,但降低比例明显低于去除小穗数的比例。籽粒平均灌浆速率和单穗平均增重速率（分别表征籽粒库容活性和穗粒库容活性）相应提高。结果,两类品种的穗粒重表现为补偿性增长。两类品种比较,小粒品种的增长幅度大于大粒品种。穗粒库容活性增强使得小粒品种灌浆中后期的植株光合速率提高,使两类品种分配到籽粒中的１４Ｃ同化物比例增加。从而表明,无论是植株光合速率还是同化物的运转分配皆受穗粒库容活性的调控,调控方式和幅度因品种类型而不同。但提高其穗粒重的着眼点都应当是提高穗粒库容活性。     

CO2和O3浓度升高及其复合作用对玉米（Zea mays L.）活性氧代谢及抗氧化酶活性的影响

为了揭示CO2和O3浓度升高及其复合作用对植物活性氧(ROS)代谢及抗氧化酶活性的影响机理,以玉米(Zea mays L.)为研究材料,利用开顶式气室(OTCs)研究了CO2和O3浓度升高及其复合作用下,玉米叶片活性氧产生速率、含量,膜脂过氧化程度,抗氧化酶活性,净光合速率及玉米籽粒产量的变化.结果表明,在整个生育期内,与对照相比,高浓度CO2((550±20)μmol · mol-1)处理下,玉米叶片净光合速率升高,O- ·2 产生速率、H2O2含量下降, MDA含量、相对电导率减小,SOD、CAT、POD活性增强,玉米百粒重和穗粒数增加;而在O3浓度为(80±10)nmol · mol-1的条件下,玉米叶片净光合速率下降,O- ·2 产生速率、H2O2含量升高,MDA含量、相对电导率增大,SOD、CAT、POD活性减弱,玉米百粒重和穗粒数降低;CO2和O3浓度升高复合((550±20)μmol · mol-1 (80±10)nmol · mol-1)处理下,玉米叶片的净光合速率、H2O2含量、SOD活性先升高后降低, MDA含量、相对电导率、CAT活性增加,POD活性减弱,而O- ·2 产生速率几乎不变化,且玉米的百粒重和穗粒数略低于对照.以上结果说明,CO2浓度升高抑制了玉米叶片活性氧的代谢速率,提高了抗氧化酶的活性,从而增强了光合作用,使玉米籽粒产量增加,对玉米表现为保护效应,而O3浓度升高促进了玉米叶片活性氧的代谢速率,降低了抗氧化酶的活性,抑制了光合作用,使玉米籽粒产量下降,对玉米表现为伤害效应.在CO2和O3浓度升高复合处理下,CO2浓度升高在一定程度上缓解了O3浓度升高对玉米的伤害效应,而O3浓度升高亦在一定程度上削弱了CO2浓度升高对玉米的保护效应.     

叶面喷施腐殖酸对小麦临界期干旱的生理调节作用的初步研究

临界期干旱使小麦后期分蘖不能成穗,总穗数减少,每穗的不孕小穗数增加,穗粒数减少,产量明显降低。临界期干旱时喷施腐殖酸类物质能使小麦叶片气孔开张度减小,蒸腾降低,水分消耗速度减慢,从而使小麦体内水势提高,叶片含水率上升,水分亏缺程度减轻;同时,叶绿素含量提高,下层叶片衰老推迟,根系活力保持较高,每穗粒数及千粒重都有增加。叶面喷施腐殖酸类物质有抗旱增产的作用。     

气象因子对寒地玉米籽粒灌浆进程的影响

为探讨粒重和籽粒灌浆参数与气象因子之间的关系,选择早熟品种"德美亚1号"、中熟品种"吉单27"和晚熟品种"郑单958"3个品种,于2017—2018年在哈尔滨进行播期试验,对籽粒发育动态及灌浆特性进行了分析。结果表明:产量与粒重呈极显著正相关,与穗粒数相关不显著;粒重与灌浆速率呈显著正相关,与达到最大速率的时间和灌浆活跃期无显著相关性;积温、辐射、饱和水气压差与灌浆速率呈极显著正相关;前期温度升高,辐射增大有利于早熟品种灌浆速率的提高,而后期温度降低、辐射减少显著缩短晚熟品种灌浆时间,降低其灌浆速率;粒重与花后的降水量呈负相关,与辐射量呈正相关,与积温的关系因品种而不同;积温是影响粒重最主要的气象因子,当早、中、晚熟品种在灌浆期积温分别达到920、1020、1100℃时,可获得最大粒重。     

2-氯乙基三甲基氯化铵(CCC)对小麦灌浆过程中物质分配与累积的影响

我们在1970—1972年,对四个春小麦品种和一个冬小麦品种进行了 CCC 处理的小区试验及大田试验。处理方法用叶面喷洒或浸种法。结果证明 CCC 对茎秆长度的伸长有抑制作用,但使每株穗数、每穗粒数、每穗粒重及千粒重都增加了,并使籽粒的最后产量提高6—31%。施用 CCC 也引起植株总干重的增大,同时经济产量系数也提高了,说明有更多的物质进入籽粒。在灌浆期中籽粒干重的增长率与茎叶干重的增减量之间有密切联系。在灌浆初期,当籽粒干重增长较慢时,茎叶干重还在增加。但在花后18—30天期间,当籽粒干重的增长率达到高峰期时,茎叶干重的损失量也到达最大值。CCC 处理的籽粒干重增长率在灌浆的前一阶段比对照低,进入高峰期时,处理的籽粒增长率即迅速上升并超过对照,而且以后仍保持较高水平,直至成熟。处理植株的叶片干重损失总量也远比对照为多。这些结果证明了 CCC 对于灌浆后期物质向籽粒中集中与累积的促进作用。     

Raising yield potential of wheat. III. Optimizing partitioning to grain while maintaining lodging resistance

A substantial increase in grain yield potential is required, along with better use of water and fertilizer, to ensure food security and environmental protection in future decades. For improvements in photosynthetic capacity to result in additional wheat yield, extra assimilates must be partitioned to developing spikes and grains and/or potential grain weight increased to accommodate the extra assimilates. At the same time, improvement in dry matter partitioning to spikes should ensure that it does not increase stem or root lodging. It is therefore crucial that improvements in structural and reproductive aspects of growth accompany increases in photosynthesis to enhance the net agronomic benefits of genetic modifications. In this article, six complementary approaches are proposed, namely: (i) optimizing developmental pattern to maximize spike fertility and grain number, (ii) optimizing spike growth to maximize grain number and dry matter harvest index, (iii) improving spike fertility through desensitizing floret abortion to environmental cues, (iv) improving potential grain size and grain filling, and (v) improving lodging resistance. Since many of the traits tackled in these approaches interact strongly, an integrative modelling approach is also proposed, to (vi) identify any trade-offs between key traits, hence to define target ideotypes in quantitative terms. The potential for genetic dissection of key traits via quantitative trait loci analysis is discussed for the efficient deployment of existing variation in breeding programmes. These proposals should maximize returns in food production from investments in increased crop biomass by increasing spike fertility, grain number per unit area and harvest index whilst optimizing the trade-offs with potential grain weight and lodging resistance.     

籼稻桂华占、八桂香花后营养器官干物质流转与籽粒灌浆关系

以桂华占和八桂香2个籼稻品种为材料,研究籼稻花后不同部位器官物质积累、运转与籽粒生长的动态特征及相互关系。结果表明:(1)叶、叶鞘、节间干物质流转存在一定差异,倒2叶鞘对籽粒的贡献超过倒3叶鞘和倒1叶鞘,倒3节间对籽粒的贡献超过倒2节间和倒1节间;(2)不同部位籽粒的灌浆速率和拐点粒重呈现UPG(上部籽粒)MPG(中部籽粒)BPG(下部籽粒)变化趋势,拐点时间和活跃灌浆时间及持续灌浆时间均呈现BPGMPGUPG变化规律,UPG启动早,灌浆速率大,BPG的灌浆速率小,灌浆时间滞后,籽粒粒重呈现UPGMPGBPG;(3)叶片、叶鞘及节间干物质运转速度和运转率都与籽粒起始灌浆势呈正相关,其中器官间与起始灌浆势的相关系数大小表现为节间叶鞘叶片,不同叶位间与起始灌浆势的相关系数大小表现为倒2叶倒3叶倒1叶,其中节间干物质运转对籽粒生长的作用大于叶鞘,叶片干物质运转与籽粒生长的相关性最小。倒1节鞘物质输出与BPG生长时间上同步,倒2节鞘与MPG生长同步,倒3节鞘与UPG生长同步。     

喷施脱水剂对不同熟期夏玉米脱水特性和籽粒品质的影响

目前,我国种植的夏玉米品种收获时籽粒含水率过高,限制了玉米机械粒收技术的发展。喷施脱水剂可以调控作物籽粒灌浆生理过程,降低收获时的籽粒含水率。本试验研究了喷施脱水剂对不同熟期夏玉米品种脱水过程、收获期籽粒含水率和籽粒品质的调控作用。结果表明: 喷施脱水剂减少了玉米各器官的干物质积累量,促进了植株向籽粒中的干物质转移,提高了收获指数,而且对籽粒品质没有显著影响。相关性分析显示,籽粒脱水速率与各器官脱水速率呈正相关,喷施脱水剂后籽粒脱水速率与茎鞘脱水速率呈极显著正相关。喷施脱水剂在产量没有显著降低的前提下提高了总脱水速率,缩短了开花期至生理成熟期的时间,增加了生理成熟期到收获的时间,有利于后期籽粒含水率的进一步降低,为玉米机械粒收提供了更大的可能性。不同熟期夏玉米品种喷施脱水剂进行机械粒收的经济效益与机械穗收相比没有显著差异,中晚熟品种的经济效益高于早熟品种。因此,收获前合理喷施脱水剂可以作为玉米机收籽粒的一种可行性配套技术。     

Effect of Plastic Film Mulching on the Grain Filling and Hormonal Changes of Maize under Different Irrigation Conditions

Plastic film mulching (PM) is widely utilized for maize production in China. However, the effect of PM on the grain yield of crops has not been established, and the biochemical mechanism underlying the increase or decrease in grain yield under PM is not yet understood. Grain filling markedly affects the grain yield. The objective of this study was to investigate the effects of PM on maize grain filling under different irrigation levels and the relationship of such effects with hormonal changes. In the present study, PM was compared with traditional nonmulching management (TN) under 220 mm, 270 mm and 320 mm irrigation amount, and the grain filling characters of the grains located in various parts of the ear and the hormonal changes in the grains were measured. The results indicated that at 220 mm irrigation, PM significantly increased the grain filling rate of the middle and basal grains and decreased the grain filling rate of the upper grains. At 270 mm irrigation, the PM significantly increased the grain filling rate of the all grains. At 320 mm irrigation, the PM only significantly increased the grain filling rate of the upper grains. The IAA, Z+ZR and ABA content in the grains was positively correlated with the grain weight and grain-filling rates; however, the ETH evolution rate of the grains was negatively correlated with the grain weight and grain-filling rates. These results show that the effect of PM on maize grain filling is related to the irrigation amount and that the grain position on the ear and the grain filling of the upper grains was more sensitive to PM and irrigation than were the other grains. In addition, the PM and irrigation regulated the balance of hormones rather than the content of individual hormones to affect the maize grain filling.     

Grain yield and kernel weight of two maize genotypes differing in nitrogen use efficiency at various levels of nitrogen and carbohydrate availability during flowering and grain filling

Grain yield per plant (GYP) and mean kernel weight (KW) of maize (Zea mays L.) are sensitive to changes in the environment during the lag phase of kernel growth (the time after pollination in which the potential kernel size is determined), and during the phase of linear kernel growth. The aim of this study was to assess genotypic differences in the response to environmental stresses associated with N and/or carbohydrate shortage at different phases during plant development. The rate and timing of N and carbohydrate supply were modified by application of fertilizer, shading, and varying the plant density at sowing, at silking or at 14 d after silking. The effects of these treatments on the photosynthetic capacity, grain yield and mean kernel weight were investigated in two hybrids differing in N use efficiency. The total above-ground biomass and grain yield per plant of the efficient hybrid responded little to altered environmental conditions such as suboptimal N supply, enhanced inter-plant competition, and shading for 14 d during flowering, when compared to the less efficient genotype. We conclude that grain yields in the efficient genotype are less sensitive not only to N stress, but also to carbohydrate shortage before grain filling. Shading of N deficient plants from 14 d after silking to maturity did not significantly reduce grain yield in the non-efficient genotype, indicating complete sink limitation of grain yield during grain filling. In the efficient genotype, in contrast, grain yield of N-deficient plants was significantly reduced by shading during grain filling. The rate of photosynthesis declined with decreasing foliar N content. No genotypic differences in photosynthesis were observed at high or low foliar N contents. However, at high plant density and low N supply, the leaf chlorophyll content after flowering in the efficient genotype was higher than that in the non-efficient genotype. Obviously, the higher source capacity of the efficient genotype was not due to higher photosynthetic N use efficiency but due to maintenance of high chlorophyll contents under stressful conditions. In the efficient genotype, the harvest index was not significantly affected by N fertilization, plant density, or shading before the grain filling period. In contrast, in the non-efficient genotype the harvest index was diminished by N deficiency and shading during flowering. We conclude that the high yielding ability of the efficient genotype under stressful conditions was associated with formation of a high sink capacity of the grains under conditions of low carbohydrate and N availability during flowering and with maintenance of high source strength during grain filling under conditions of high plant density and low N availability.     

Restricting the above ground sink corrects the root/shoot ratio and substantially boosts the yield potential per panicle in field‐grown rice (Oryza sativa L.)

Rice has shallow, weak roots, but it is unknown how much increase in yield potential could be achieved if the root/shoot ratio is corrected. Removing all tillers except the main one, in a japonica (Sakha 101) and an indica (IR64) rice cultivar, instantly increased the root/shoot ratio from 0.21 to 1.16 in Sakha 101 and from 0.16 to 1.46 in IR64. Over 30 days after detillering, the root/shoot ratios of the detillered plants decreased to 0.49 in Sakha 101 and 0.46 in IR64 but remained significantly higher than in the controls. The detillered plants showed two‐ or fourfold increase in the main tiller fresh weight, as a consequence of more positive midday leaf relative water content (RWC), and consistently higher rates of stomatal conductance and photosynthesis, but not transpiration, compared with the controls. The enhanced photosynthesis in Sakha 101 after detillering resulted from both improved water status and higher Rubisco contents whereas in IR64, increasing the Rubisco content did not contribute to improving photosynthesis. Detillering did not increase the carbohydrate contents of leaves but prevented starch depletion at the end of grain filling. The leaf protein content during vegetative and reproductive stages, the grain filling rate, the number of filled grains per panicle were greatly improved, bringing about 38.3 and 35.9% increase in the harvested grain dry weight per panicle in Sakha 101 and IR64, respectively. We provide evidence that improving the root performance by increasing the root/shoot ratio would eliminate the current limitations to photosynthesis and growth in rice.     

Studies on the nature of relationships between grain size,spikelet number,grain yield and spikelet filling in late duration varieties of rice (Oryza sativa L.)

Summary Studies on the nature of relationship between grain size (in terms of thousand grain weight), grain number, rate of filling and yield have been worked out with late duration (140–150 days) rice varieties. Grain number per m², grains per panicle and yield showed a negative relationship with grain size. There was no compensatory balance between grain size and grain number within a range of thousand grain weight of 15 to 30 g. Based on the peaks in grain filling activity, the varieties were classified into four groups. There was no relationship between grain size and rate of grain filling thereby suggesting that grain filling is determined by inherent endogenous factors.     

施氮水平和收获时期对夏玉米产量和籽粒品质的影响

为明确黄淮海夏玉米适宜的施肥量和最佳收获时期,设计了5个氮肥水平（不施肥、113、181、249和375 kg N·hm^-2）和2个收获时期（S₁：9月23日,农民习惯收获时间;S₂：9月29日,推迟6 d收获）,研究施氮量和收获时期对夏玉米产量和品质的影响.结果表明：随施肥量增加,夏玉米穗粒数、千粒重和产量均增加,但差异不显著,其中施肥量在113～181 kg N·hm^-2的玉米产量、氮素利用效率均相对较高;随施肥量增加,夏玉米蛋白质和赖氨酸含量增加,淀粉含量降低.与9月23日蜡熟期收获相比,9月29日完熟期收获的夏玉米籽粒千粒重、产量、淀粉和赖氨酸含量均增加,籽粒蛋白质和脂肪含量降低.依据产量水平,黄淮海高产夏玉米区适宜的施肥量在113～180 kg N·hm^-2,最佳收获时期应推迟至9月29日-10月5日.     

冬小麦根系时空分布动态及产量对不同氮源配施的响应

为了解不同氮(N)源(有机/无机肥)配施对冬小麦(Triticum aestivum)根系时空分布特征和产量的影响, 采用微根管(minirhizotron)动态监测技术, 以强筋小麦品种‘豫麦34’为试验材料, 在等养分条件下, 设置不施肥(T₀)、100%尿素N (T₁)、75%尿素N + 25%鸡粪N (T₂)、50%尿素N + 50%鸡粪N (T₃)、25%尿素N + 75%鸡粪N (T₄)和100%鸡粪N (T₅)等6个有机N与化肥N配施处理, 研究分析了‘豫麦34’在不同生育时期及0-100 cm土层中根系直径、根长密度、根长生长量和死亡量等根系特征参数的变化及其产量表现。结果表明, 施肥不仅有利于各生育时期及不同土层中根系直径、根长密度和根长生长量的增加, 而且增加了根长死亡量, 促进了根系的周转。对不同配施处理进行比较, 发现T₃处理(尿素和鸡粪等氮配施)的效果最为显著, 全生育期平均根长密度、周期生长量与周期死亡量分别较对照T₀增加了55.52%、57.79%和61.61%, 有效分蘖数、穗粒重、经济产量和经济系数也以T₃处理增加最多, 分别较T₀增加了52.63%、43.90%、40.16%和12.02%; 穗粒数在T₄处理下最大, 较T₀增加了45.79%; 生物产量在T₅处理下最高, 比T₀增加了26.95%。因此, 不同氮源合理配施有利于促进冬小麦根系的生长及在不同土层中的扩展, 提高冬小麦产量。尿素和鸡粪为N源时等氮配施(50 : 50)的效果最佳。     

种植密度对夏玉米产量和源库特性的影响

以高产玉米品种郑单958(ZD958)和登海661(DH661)为试验材料,在4个不同区域(山东农业大学、汶口、兖州和莱州)设置22500、45000、67500、90000和112500株.hm-25个种植密度,研究了种植密度对夏玉米产量及源库特性的影响.结果表明:两品种在112500株.hm-2密度条件下玉米籽粒产量和生物产量最高,分别为19132和36965kg.hm-2,与22500和67500株.hm-2密度相比,籽粒产量分别增加了72%和48%,生物产量分别增加了152%和112%.两品种单株叶面积、最大花丝数、穗粒数和千粒重随密度增大而减小,但叶面积指数随密度增大而显著提高.收获指数与粒叶比随密度增大而显著减小,当密度超过67500株.hm-2时差异不显著,表明高密度条件下玉米通过增加群体库来提高产量.