The priority of management factors for reducing the yield gap of summer maize in the north of Huang-Huai-Hai region, China

Understanding yield potential, yield gap and the priority of management factors for reducing the yield gap in current intensive maize production is essential for meeting future food demand with the limited resources. In this study, we conducted field experiments using different planting modes, which were basic productivity(CK), farmer practice(FP), high yield and high efficiency(HH), and super high yield(SH), to estimate the yield gap. Different factorial experiments(fertilizer, planting density, hybrids, and irrigation) were also conducted to evaluate the priority of individual management factors for reducing the yield gap between the different planting modes. We found significant differences between the maize yields of different planting modes. The treatments of CK, FP, HH, and SH achieved 54.26, 58.76, 65.77, and 71.99% of the yield potential, respectively. The yield gaps between three pairs: CK and FP, FP and HH, and HH and SH, were 0.76, 1.23 and 0.85 t ha^(–1), respectively. By further analyzing the priority of management factors for reducing the yield gap between FP and HH, as well as HH and SH, we found that the priorities of the management factors(contribution rates) were plant density(13.29%)>fertilizer(11.95%)>hybrids(8.19%)>irrigation(4%) for FP to HH, and hybrids(8.94%)>plant density(4.84%)>fertilizer(1.91%) for HH to SH. Therefore, increasing the planting density of FP was the key factor for decreasing the yield gap between FP and HH, while choosing hybrids with density and lodging tolerance was the key factor for decreasing the yield gap between HH and SH.

氮肥减施对京科968与郑单958氮效率及产量的影响

以郑单958与京科968为材料,在减施氮肥（正常施氮量210 kg/hm^2）14.3%~28.6%水平下,比较玉米品种氮效率与产量。结果表明,施氮肥150~180 kg/hm2,郑单958产量下降2.39%~4.03%,京科968产量下降1.67%~2.99%。随着施氮量减少,氮肥偏生产力、氮肥利用效率,氮肥农学利用效率升高,氮肥表观利用效率、100 kg子粒需氮量降低,氮收获指数保持基本稳定。适度减施氮肥,可有效提高玉米生产效率。施氮处理下不同器官的氮转运率与对子粒的氮贡献率高于不施氮处理,不同器官的氮转运率顺序为穗轴〉叶片〉苞叶〉叶鞘〉茎秆;对子粒的氮贡献率表现为叶片〉茎秆〉穗轴〉叶鞘〉苞叶。京科968氮收获指数、氮肥偏生产力、氮肥表观利用效率均优于郑单958,氮肥农学利用效率、氮肥利用效率与子粒吸氮量与郑单958相当。京科968氮吸收效率优于郑单958,具备较好的耐低氮特性。

MC812和郑单958子粒灌浆和脱水特性研究

以MC812和郑单958为试验材料,分析其子粒灌浆和脱水特性,研究不同基因型玉米品种子粒灌浆和脱水特性的差异。结果表明,百粒干物重在品种间存在显著差异,MC812平均百粒干物重较郑单958高2.64 g。与郑单958相比,MC812子粒达到最大灌浆速率的时间(Tmax)平均提前4.40 d,灌浆起始势(R0)高0.25,活跃灌浆期(P)长1.33 d。MC812灌浆渐增期的平均灌浆速率显著高于郑单958,灌浆缓增期则与郑单958相当。MC812生理成熟时子粒含水量略低于郑单958,但差异不显著。收获时的子粒含水量在品种间呈极显著差异,MC812收获时的子粒含水量则较郑单958低5个百分点。生理成熟后的脱水速率在品种间呈极显著差异,MC812分别较郑单958高0.15%/d。穗粒数、百粒重和产量在品种间呈极显著差异,MC812产量较郑单958高6.67%、穗粒数和百粒重分别较郑单958高8.56%和8.04%。

基于称重式蒸渗仪的玉米耗水特性及影响因素研究

以我国玉米生产主导品种京科968和郑单958(对照)为供试材料,采用称重式蒸渗仪系统研究其耗水特性及影响因素。结果表明,京科968的全生育期需水量低于郑单958,水分利用效率高于郑单958。京科968的全生育期需水量为347.81 mm,较郑单958低78.98 mm;水分利用效率为3.16 kg/m^3,显著高于郑单958;京科968各生育阶段的平均日耗水量不同,分别为2.04、3.54、3.34、3.35 mm/d,分别比郑单958低1.62、1.43、0.55、1.10 mm/d。影响玉米各生育阶段日耗水量的气象因素不同,影响出苗至吐丝和播种至收获阶段日耗水量的主要气象因素为空气温度、光辐射和平均风速,影响吐丝至收获阶段日耗水量的主要气象因素是空气温度和光辐射。

低温胁迫对不同基因型玉米种子萌发特性的影响

以不同基因型玉米生产品种郑单958、先玉335、京科968和京农科728为试验材料,研究适温和低温胁迫下玉米种子萌发过程中发芽势、发芽率、芽长、根长、种子a-淀粉酶及保护酶活性等的变化,探讨低温胁迫对不同基因型玉米品种种子萌发特性的影响。结果表明,在25℃适温和10℃低温胁迫条件下,京科968和京农科728的发芽势和发芽率均高于郑单958和先玉335;在10℃低温胁迫下,京科968、京农科728的发芽势、发芽率显著高于郑单958和先玉335。10℃低温胁迫条件下,京科968和京农科728的芽长和根长显著高于郑单958和先玉335;在25℃适温条件下4个参试玉米品种的芽长和根长差异不显著。2个温度处理条件下,京科968和京农科728种子的α-淀粉酶、过氧化物酶(POD)和过氧化氢酶(CAT)活性均高于郑单958和先玉335,在10℃低温胁迫条件下优势更明显;丙二醛(MDA)含量在品种间呈相反趋势。在低温胁迫下,京科968和京农科728表现出较强的耐低温萌发能力。