Effect of fertigation frequency on soil nitrogen distribution and tomato yield under alternate partial root-zone drip irrigation

Alternate partial root-zone drip fertigation (ADF) is a combination of alternating irrigation and drip fertigation, with the potential to save water and increase nitrogen (N) fertilizer efficiency.  A 2-year greenhouse experiment was conducted to evaluate the effect of different fertigation frequencies on the distribution of soil moisture and nutrients and tomato yield under ADF.  The treatments included three ADF frequencies with intervals of 3 days (F3), 6 days (F6) and 12 days (F12), and conventional drip fertigation as a control (CK), which was fertilized once every 6 days.  For the ADF treatments, two drip tapes were placed 10 cm away on each side of the tomato row, and alternate drip irrigation was realized using a manual valve on the distribution tapes.  For the CK treatment, a drip tape was located close to the roots of the tomato plants.  The total N application rate of all treatments was 180 kg ha–1.  The total irrigation amounts applied to the CK treatment were 450.6 and 446.1 mm in 2019 and 2020, respectively; and the irrigation amounts applied to the ADF treatments were 60% of those of the CK treatment.   The F3 treatment resulted in water and N being distributed mainly in the 0–40-cm soil layer with less water and N being distributed in the 40–60-cm soil layer.  The F6 treatment led to 21.0 and 29.0% higher 2-year average concentration of mineral N in the 0–20 and 20–40-cm soil layer, respectively and a 23.0% lower N concentration in the 40–60-cm soil layer than in the CK treatment.  The 2-year average tomato yields of the F3, F6, F12, and CK treatments were 107.5, 102.6, 87.2, and 98.7 t ha–1, respectively.  The tomato yield of F3 was significantly higher (23.3%) than that in the F12 treatment, whereas there was no significant difference between the F3 and F6 treatment.  The F6 treatment resulted in yield similar to the CK treatment, indicating that ADF could maintain tomato yield with a 40% saving in water use.  Based on the distribution of water and N, and tomato yield, a fertigation frequency of 6 days under ADF should be considered as a water-saving strategy for greenhouse tomato production.     

马铃薯对氮、磷、钾的吸收及分配规律研究进展

马铃薯的生长发育受到很多因素的影响,特别是养分的供应以及马铃薯对养分的吸收、利用,对其块茎的形成、膨大及淀粉积累的影响尤为显著。氮、磷、钾在马铃薯生长发育中需要量大,必须加以补充,才能满足其正常生长需求。生产上不合理的施肥,导致马铃薯产量不高、品质较差及生产成本增高。通过分析马铃薯不同生育阶段、不同器官吸收养分的特征和分配规律,从而探索马铃薯生产中最佳的氮、磷、钾施肥组合,这对于丰富马铃薯栽培生理理论和指导生产中氮、磷、钾肥合理配施均具有重要的现实意义。     

春季氮肥和多效唑调控对小麦生育和产量的影响

为明确春季调控措施对冬小麦生长发育和籽粒产量的影响,以冬小麦品种石新828为材料进行田间试验,4个处理分别为:起身期追全部氮肥(除基肥外,下同)并叶面喷多效唑(N1);起身期追2/3氮肥并喷多效唑+拔节期追1/3氮肥(N2);起身期追1/3氮肥+拔节期追2/3氮肥(N3);拔节期追全部氮肥(N4)。生育期间测定群体和个体生育特性,成熟期调查产量性状。结果表明,N1和N2处理小麦拔节期的总茎数、叶面积指数(LAI)和干物质积累量均显著高于N4和N3处理。孕穗期N4和N3处理小麦的总茎数、LAI和干物质积累量显著高于N1和N2处理。开花到成熟期各处理的总茎数、LAI和干物质积累量差异均不显著。孕穗期前,不同处理的株高差异不显著,孕穗期后,N4处理的株高最高,且显著高于N1处理。各处理基部节间直径和中上部节间长的差异不显著,N4处理基部第一节间长度显著大于其他处理。随追氮时期前移或前期施氮量增多,不孕小穗数减少,结实小穗和穗粒数增加,N1比N4处理不孕小穗数显著减少,结实小穗和穗粒数显著增多。N1处理小麦成熟期的千粒重最高,且显著高于N4处理。N1处理的籽粒产量最高,且显著高于N3和N4处理。起身期追氮配合多效唑调控,可以获得比拔节期追氮更高的穗粒数和千粒重,从而获得更高的产量。     

基于临界氮浓度稀释曲线的小麦氮肥需求量估测研究

为探究基于临界氮浓度稀释曲线估测小麦氮素需求量的可行性,基于不同生态区开展的不同品种及氮肥水平的小麦试验,结合小麦临界氮浓度曲线(N_c=4.16W~(-0.41)),构建了拔节期、孕穗期、抽穗期和开花期四个关键生育时期下,小麦氮营养指数(NNI)、氮素需求量(NR)及相对产量(RY)三者间的关系模型,并进行了验证。结果表明,在江苏地区,当总施氮量在120～180kg·hm~(-2)时,小麦的氮素需求量最接近于0,氮营养指数最接近于1,为最优的氮素施用量。氮营养指数与氮素需求量(NNI-NR)在小麦生长的各关键阶段存在极强的线性关系(R~2=0.93～0.97);相对产量与氮营养指数(RY-NNI)在各生育时期呈现线性加平台关系,在开花期表现最好,R~2=0.86;相对产量与氮素需求量(RY-NR)的拟合关系在抽穗期表现最好,R~2值为0.72。NNI-NR验证结果与建模结果一致,即在各时期均表现良好,其中拔节期相关关系最强;但RY-NNI和RY-NR验证结果显示两模型分别在开花期和抽穗期预测效果表现最佳。综上,所构建的NNI-NR、RY-NNI和RY-NR三种模型均具有良好的拟合优度和稳定性,运用基于临界氮浓度曲线的小麦氮营养指数和确立的相对产量水平,可以较好地估测当季的小麦氮素需求量,并进行小麦田间氮素精确管理。     

锌钼营养对苦瓜产量、品质及叶片氮素代谢的影响

采用田间试验、植株生理生化测定方法,研究了锌钼营养对苦瓜（品种株洲长白）产量、品质及叶片氮素代谢的影响。结果表明:在土壤缺锌、钼的条件下,叶面喷施一定范围质量浓度配比的硫酸锌和钼酸钠均可显著提高苦瓜产量,并可提高苦瓜蛋白质、可溶性糖、维生素C（Vc）和17种氨基酸,尤其是人体必需氨基酸含量,降低NO3-含量,改善苦瓜品质;锌钼营养还可提高叶片蛋白质、核酸含量以及硝酸还原酶（NR）活性,并降低游离氨基酸、NO3-含量和核糖核酸酶（RNase）活性。在对叶片氮素代谢的影响程度上,锌和钼的作用存在一定的差异,且锌和钼呈现相互促进作用。苦瓜产量与叶片NR活性,叶片蛋白质与硝酸还原酶活性、核酸含量呈极显著正相关,而苦瓜产量与叶片RNase活性、叶片蛋白质与游离氨基酸、叶片核酸与RNase活性、叶片NO3-含量与硝酸还原酶活性等两两相互间则呈极显著负相关。讨论了锌钼对苦瓜品质和氮代谢的影响机理。      

新型控释肥机插侧深施对江淮中稻产量及氮肥利用率的影响

基于新型控释肥的机插侧深施肥,可以实现简化施肥次数,减少施肥量,提高肥料利用率。2020年在安徽江淮水稻主产区多点试验的结果表明,基于生物基包膜控释肥（MFi）机插侧深施,江淮杂交中籼稻在常规施肥量（其中N=13.5 kg/667 m²）基础上减量20%,江淮常规中粳稻在常规施肥量（其中N=15.6 kg/667m²）基础上减量10%,或在常规施肥量（其中N=15.6 kg/667m²）基础上减量20%+1次孕穗肥,均可以实现不减产（平产或略增）,显著提高肥料利用效率。     

秸秆还田与优化施氮改善烤烟根际土壤碳氮转化及氮素吸收

针对华南沙泥田烟区氮肥过量施用导致烟叶品质下降的问题,拟通过秸秆还田与氮肥优化配施调节烤烟各生育期氮吸收、根际土壤碳氮转化及相关酶的活性。试验采用随机区组设计,设水稻秸秆还田与氮肥两因素,其中3个碳（秸秆还田）水平：C0,无秸秆还田,0 kg/hm ²;C1,中量秸秆还田,4500 kg/hm ²;C2,全部秸秆还田,9000 kg/hm ²;2个氮水平：N1,传统施氮,169.50 kg/hm ²;N2,优化施氮,105.00 kg/hm ²。结果表明,与N1相比,N2处理秸秆还田下烤烟前期烟叶和根系氮吸收和累积正常,而后期有所下降;C1、C2处理时,与现蕾期相比,成熟期时根系氮含量均降低4.2 g/kg,叶片氮含量降低3.8、3.0 g/kg;成熟期时,与N1处理相比,N2处理时C1、C2处理的土壤无机氮含量降低30.4%、20.0%,前期2个氮处理间土壤无机氮含量无差异,优化施氮下中量秸秆还田（C1N2）处理烤烟土壤NH₄ ⁺-N含量在整个生育期内较高且呈降低趋势,而硝态氮和土壤无机氮含量在成熟期最低,表明中量秸秆还田下优化施氮能够维持生育前期土壤无机氮含量,且降低成熟期土壤无机氮含量。2个秸秆还田量处理时,团棵期N2处理的土壤转化酶活性是N1处理的1.30、1.13倍;旺长期土壤转化酶活性是N1处理的1.27、1.10倍;与传统施氮相比,秸秆还田下优化施氮处理增加了整个生育期土壤脲酶、磷酸酶、过氧化氢酶活性。在中量秸秆还田（C1）处理下,与N1水平相比,现蕾期和成熟期的N2处理土壤水溶性碳含量提高11.2%和14.1%;与N1相比,N2处理的土壤微生物量氮含量呈降低趋势。综上所述,优化施氮耦合中量秸秆还田（C1N2）能够提高土壤水溶性碳含量,维持土壤氮素合理供应,稳定烤烟生育前期对氮素吸收与累积,减少生育后期烟叶氮素奢侈吸收,与烤烟吸氮规律比较吻合。     

不同施氮处理对水稻颖果灌浆和呼吸活性的影响

为了研究施氮量和施氮时期对水稻颖果生理活性的影响,以一籼一粳两个水稻品种为材料,施用分蘖肥和孕穗肥,并在施氮总量相同的条件下设置了前高后低和前低后高两个处理。研究结果表明：增施氮肥维持了水稻颖果灌浆后期较高的含水率,延长了颖果灌浆充实的时间;维持了水稻颖果灌浆充实期尤其是灌浆后期较高的呼吸速率,并且使颖果维持较高呼吸活性的时间延长;延长了颖果各组织维持脱氢酶活性的时间。其中孕穗肥较高的施氮处理比分蘖肥较高的施氮处理效果更为显著。     

Effects of Exogenous Materials on Nitrogen Photosynthetic Efficiency and Yield Formation of japonica Rice in Cold Region Under Cold Water Stress at Booting Stage

【Objective】Our goal is to develop disaster-reducing, production-preserving and chemical-controlling cultivation techniques to effectively resist cold damage at the booting stage of japonica rice in cold region.【Method】The split plot design and the central combination test design were used to screen out the optimal application concentrations of CaCl2, glutamic acid(Glu), and γ-aminobutyric acid(GABA) through the membership function values of yield-related indicators under cold-water stress at booting stage.【Result】1) Under cold water stress at the booting stage, the optimal concentrations of exogenous CaCl2, Glu and GABA (CGG) were 1.87 mmol/L, 2.76 mg/L, 4.40 mmol/L, respectively and the average membership function value is the largest (0.932). 2) Compared with normal irrigation, the nitrogen photosynthetic efficiency of cold-region japonica rice decreased under cold stress at the booting stage. Compared with cold water stress at the booting stage, CGG application at the optimal concentration significantly increased the leaf area index (5.37%) and nitrogen photosynthetic efficiency (4.53%) of Dongnong 428 at the full heading stage; significantly increased leaf biomass per leaf area (2.56%) and leaf area index (3.39%) of Songjing 10 at the full heading stage. 3) Compared with cold water stress at the booting stage, the application of the optimal concentration of CGG increased the dry matter accumulation from heading stage to maturity in the cold-region japonica rice, but it was still lower than that of the normal irrigation, and there were differences between varieties and treatments. 4) Compared with cold water stress at booting stage, the yield and yield components of cold-region japonica rice increased with the application of the optimal concentration CGG, and the impact on cold-sensitive varieties was more significant. 5) Compared with the cold water stress at the booting stage, the average increase in temperature production efficiency of Dongnong 428 and Songjing 10 was 5.55% and 23.72% under the optimal concentrations of CGG, respectively. The contribution rate of exogenous CGG to the gap of temperature production efficiency is 8.99%.【Conclusion】The application of the optimal concentration of CGG under cold water stress at the booting stage promoted leaf growth of cold-region japonica rice at the full heading stage and increased the population nitrogen photosynthetic efficiency, which was beneficial to dry matter accumulation and yield formation after heading stage, thereby reducing the loss of cold-region japonica rice under cold water stress at booting stage and improving the temperature production efficiency of cold-region japonica rice.     

新疆阿克苏地区膜下滴灌棉田施肥及病虫防治技术

探讨了新疆阿克苏地区膜下滴灌棉田施肥及病虫害防治技术,分别从施肥技术和病虫害防治技术两方面提出技术指导。