Effect of Different Fertilization Patterns on Carbon and Nitrogen Components of Tobacco Topsoil

In order to explore the fertilizing ways and dynamic changes of soil carbon and nitrogen in the main producing areas of tobacco in Guizhou,research was conducted to study the variations of dissolved organic carbon and nitrogen,total organic carbon and nitrogen and their ratio of tobacco-topsoil in organic fertilization pattern and conventional cultivation pattern （No fertilizer as control） by pot experiment.The results were as follows：（1） The effects of different fertilization patterns on soil dissolved organic carbon and nitrogen and total organic carbon and nitrogen were significantly different.The content of DOC,DON,TOC and TON in tobaccotopsoil was decreased with the advancing of growth period in conventional fertilization pattern.In the conventional fertilization pattern,the accumulation of DOC and TOC was increased first and then decreased,and the accumulation of DON and TON was decreased first and then increased.（2） The TOC content at the different growing stage and DOC content at the middle and later stage of tobacco were significantly improved in organic fertilization patterns.The accumulation of DON and TON in the conventional fertilization pattern was significantly higher than those in the organic fertilizer pattern and control at the rosette stage and vigorous stage.In the harvest period,the content of DOC,DON,TOC and TON of tobacco-topsoil in the conventional fertilization and organic fertilization pattern was significantly higher than those in the control.（3）The DOC/DON ratio and the TOC/TiON ratio was increased gradually with the advancing of growth period in conventional fertilization pattern,but they were increased first and then decreased in the organic fertilization pattern and CK.The DOC/DON and TOC/TON ratio of tobacco-topsoil in different fertilization patterns was showed as Y J＞ CK＞ CG at the different growing stage.The experiment results revealed that：The organic fertilization pattern may improve significantly the accumulation of DOC,DON,TOC and TON of tobacco-topsoil at the middle and later stage and the DOC/DON and TOC/TON ratio at the different growth stage.It contributed to the continuous and balanced supply of nutrients at the middle and later stage of tobacco and the soil fertility.

Effects of Nitrogen Fertilizer Reduction and Application of Nitrogen Fertilizer as Base Fertilizer on Rapeseed Yield and Nitrogen Absorption

[Objective] The aim was to research effects of N fertilizer reduction and application of N fertilizer （as base fertilizer） on rapeseed yield and N absorption. [Method] Based on Ganyouza No.5, the ratio of N, P2O5 andK2O was set at 1：0.5：0.5; N fertilizers were set involving reduced quantity at 150 kg/hm2 and preferred quantity at 180 kg/hm2; 100%, 80% and 60% of N fertilizers were applied as base fertilizers in the test respectively. In general, field tests were conducted to explore effects of reduced N fertilizer and application of N fertilizer as base fertilizer on rapeseed yield and N absorption. [Resalt] When applied N fertilizer as base fertilizer was the same, plant height, stem diameter, length of major inflorescence, number of effective branch, pod number per plant, seed number per pod, and biomass yield in group with preferred N quantity were significantly higher than those in group with reduced N fertilizer. Rapeseed yield and profits in group with preferred N quantity were signifi- cantly higher than those in group with reduced N fertilizer in field with moderate fertili- ty. In fields with higher fertility, however, the two factors were just a little higher. In group with reduced N fertilizer, use efficiency of N fertilizer, N uptake efficiency, par- tial factor productivity and harvest index of N were all significantly higher than those in group with preferred N fertilizer. Agronomic nitrogen use efficiency in group with preferred N fertilizer was significantly higher than that in group with reduced N fertiliz- er in field with moderate fertility and was significantly lower in field with high yield. With amounts of N, P and K fertilizers fixed, economic characters, yield constitution, yield, profits and N absorption in group, where 60% of N fertilizers were applied as base fertilizer, were significantly higher than those in groups with 80% or 100% of base fertilizer （N fertilizers）. These indicated that rational fertilization would maintain rapeseed yield high and reduce N input to improve use efficiency of N fertilizer. On the other hand, it is effective to improve rapeseed yield.＇to reduce N fertilizer to 150 kg/hm2, and application of 60%. of N fertilizers as base fertilizer is still proved optimal at present. [Conclusion] The research provides.theoretioal and technical references for improvement of yield of rapeseed and efficiency of N fertilizer.

Effects of Different Irrigation Times and Nitrogen Fertilizer Application on Leaf Area Index and Grain Yield of ‘Yujiao 5'

To provide ＂more reasonable, more saving and more efficient＂ water and fertilizer application proposals, taking ‘Yujiao 5＇ as the experimental material, the effects of different irrigation times and nitrogen application treatments on the leaf area index and yield of wheat were studied using three-factor split plot method. The results showed that irrigation times, nitrogen application rate and the ratio of basa to topdressed nitrogen respectively had significant effects on the leaf area index, the yield and component factors of wheat. Under the treatment of W1（irrigation before sowing）, the leaf area index showed a positive linear correlation with nitrogen application rate; under the treatments of W2（irrigation before sowing and at jointing stage） and W3（irrigation before sowing, at jointing stage and at grain filling stages）,the leaf area index showed a positive linear correlation with nitrogen application rate at the jointing stage, booting stage and heading stage; 20 d after heading, the leaf area index showed a quadric curve relationship with nitrogen application rate at these stages, and the LAI of N3R2 was the highest. Under different irrigation times,the yield, ear number and kernels per ear showed quadric curve relationship with nitrogen application rate, 1 000-seed weight showed the trend of linear decrease with the increase of nitrogen application rate. Under the treatment combination of irrigation before sowing, at jointing stage and at grain filling stage, nitrogen application rate at 240 kg/hm^2 and the ratio of basal to topdressed nitrogen of 5：5, the grain yield（8 609.60 kg/hm^2）, ear number（688.2×104/hm^2） and kernel number per ear（37.9 grains） reached the highest value at W3N3R2, and the grain yield of W3N3R2 increased by 144.8% compared to the W1N0. In conclusion, in Eastern Henan where the rainfall is insufficient at the late growth stage of wheat, the irrigation-saving space in wheat production is relatively small, but the nitrogen-saving space is relatively large.

Available Silicon Contents of Paddy Soils and the Effect of Silicon Fertilization on Rice in Sichuan Province

Based on the results of field trials and soil and plant measurements, the available silicon contents ofpaddy soils, their relations with the SiO_2 content of rice plant, the relationships between rice yield on theone hand and the SiO_2 content and SiO_2/N ratio of rice plant on the other, the effects of silicon on riceyield and resistance to diseases and pests and the effective conditions and causes for increasing rice yield inSichuan Basin are expounded in the present paper. The study results show that about one half of the paddysoils developed from yellow soil, purple soil, alluvial soil, etc. in Sichuan Province were insufficient in siliconsupply. Critical values for silicon fertilization were 98 mg kg￣(-1) available Si in the paddy soils and < 112.8gkg￣(-1) SiO_2 in the rice plants. A SiO_2 content of rice plant over 121.6g kg￣(-1) and a SiO_2/N ratio maintainedat about 12 were required for gaining a rice yield of 7500 kg ha￣(-1). The yield increase by silicon fertilizationwas due to the improvement of silicon nutrition in rice plants and the balance of SiO_2/N ratio, and the reasonfor enhanced resistance to diseases and pests was concerned with the inhibition of luxury N absorption andthe raising of plant SiO_2/N ratio. Silicon fertilization tended to balance the uptake of N, P and K by riceplant .

Four years of free-air CO_2 enrichment enhance soil C concentrations in a Chinese wheat field

Elevated atmospheric CO2 can influence soil C dynamics in agroecosystems. The effects of free-air CO2 enrichment （FACE） and N fertilization on soil organic C （Corg）, dissolved organic C （DOC）, microbial biomass C （Cmic） and soil basal respiration （SBR） were investigated in a Chinese wheat field after expose to elevated CO2 for four full years. The results indicated that elevated CO2 has stimulative effects on soil C concentrations regardless of N fertilization. Following the elevated CO2, the concentrations of Corg and SBR were increased at wheat jointing stage, and those of DOC and Cmic were enhanced obviously across the wheat jointing stage and the fallow period after wheat harvest. On the other hand, N fertilization did not significantly affect the content of soil C. Significant correlations were found among DOC, Cmic, and SBR in this study.

NP配施对平茬后云南松苗木N、P、K化学计量比的影响

为了解NP配施对平茬后云南松(Pinus yunnanensis)苗木各器官N、P、K化学计量比的影响,分析云南松苗木不同器官(根、茎、叶、萌条)的ω(N)∶ω(P)、ω(N)∶ω(K)、ω(P)∶ω(K)化学计量比的季节变化特征,探讨各器官间N、P、K化学计量比的相关性及其变异来源。采用N、P二因素三水平的3×3回归设计开展不同施肥试验,并对苗木采样测定,研究NP配施对平茬后云南松根、叶、茎及其萌条N、P、K化学计量特征的影响。结果表明:平茬后云南松苗木不同器官的营养元素分配没有统一的规律,展现出丰富的变异。随着施肥季节的变化,ω(N)∶ω(P)在根、茎和萌条中逐渐下降,在叶中先下降后上升,但总体差异不大。单施N肥、P肥和NP配施均对云南松苗木生长的影响产生一定差异,总体来看NP配施更有利于促进苗木的生长,且以处理5(N_(1)P_(1))表现为极显著(P<0.01)。云南松苗木各器官N、P、K化学计量比主要受N×P交互作用的影响,其次是N,影响最小的是P。除在根和叶中ω(N)∶ω(P)与ω(N)∶ω(K)之间相关性发生改变之外,其余两两间的正负相关性均保持不变,而ω(N)∶ω(P)与ω(P)∶ω(K)、ω(N)∶ω(K)与ω(P)∶ω(K)的相关性均随着施肥季节的变化相关性发生改变,且相关系数降低,分别受P和K的调控。平茬改变植株体内的营养元素含量,不同施肥处理促使云南松各器官中N、P、K化学计量特征差异极显著(P<0.01)。NP配施可以有效缓解单施N肥、P肥对植株的限制作用,使养分处于一个平衡状态,从而满足植株对生长的需要。

适宜氮磷钾用量和配比协同促进盆栽牡丹营养和生殖生长

【目的】牡丹是我国著名的木本观赏植物,施肥不平衡严重影响盆栽牡丹的生长和观赏效果。研究开花前后氮、磷、钾不同施用量和配施比例对盆栽牡丹生长的影响,确定适宜的氮、磷、钾施用量及配比,为盆栽牡丹精准施肥提供理论依据。【方法】本研究以5年生牡丹‘紫二乔’为供试材料,采用“3414”不完全正交回归设计进行盆栽试验,结合隶属函数法评价牡丹的生长状况,利用肥料效应模型拟合牡丹植株的综合隶属函数值与施肥量之间的数学关系,得出牡丹最佳生长的氮、磷、钾肥推荐施肥量。【结果】牡丹开花前后施用氮磷钾肥显著影响植株株高、茎粗、冠幅、花径和单株花数(P<0.05),适宜氮磷钾用量和配比促进盆栽牡丹营养和生殖生长的协同提高。氮、磷、钾三因素配合处理的牡丹综合隶属函数值均大于缺素处理,缺素处理又大于无肥处理,N_(2)P_(2)K_(2)处理的综合隶属函数值(0.73)是N_(0)P_(0)K_(0)的3.17倍。氮磷钾对牡丹综合生长的影响表现为氮>磷>钾。氮、磷、钾肥对牡丹营养和生殖生长存在明显交互作用,任一肥料水平的过量或不足均会抑制牡丹植株生长,降低观赏效果。采用一元二次、二元二次、三元二次肥料效应函数方程拟合牡丹的综合隶属函数值和施肥量,二者相关性均达显著水平,综合各肥料效应函数方程的推荐用量及相应的综合隶属函数值,得出牡丹开花前后氮(N)、磷(P_(2)O_(5))、钾(K_(2)O)的最优推荐施肥量分别为4.21、2.07、2.52 g/株,适宜的氮、磷、钾施肥比例为1∶0.49∶0.60。【结论】开花前后施用适量的氮、磷、钾肥可提高牡丹的农艺性状,促进牡丹的营养和生殖生长协同提高。氮、磷、钾的最优推荐施肥量为4.21、2.07、2.52 g/株,适宜的氮、磷、钾施肥比例为1∶0.49∶0.60。

应用^(15)N研究小麦花生两熟制氮肥分配方式对小麦、花生产量及N肥利用率的影响

在小麦花生两熟制条件下 ,全年氮肥两作 3次施用 (小麦基肥、追肥和花生基肥 )氮素利用率为 3 2 52 % ,一作两次施用 (小麦基肥和追肥 )氮素利用率为 3 7 0 1 % ,但前者土壤残留多 ,损失少 ,氮肥回收率为 69 2 4% ,较后者高 1 2 0 3个百分点。且前者有利于小麦、花生产量的形成 ,是小麦花生两熟制适宜的施肥方式。小麦当茬氮肥利用率为 1 6 80 %～ 3 5 63 %。夏直播花生当茬及前茬小麦基肥和追肥 (拔节期 )的氮肥利用率分别为 2 3 70 %、6 57%～ 7 70 %和 1 0 0 3 %～ 1 2 73 % ;

不同肥土比对NO_3^--N浓度变化的影响研究

采用室内培养方法,对不同肥土比对NO-3 N浓度变化的影响及可能机理进行了探讨。结果表明,肥土比为1∶400(处理G)可能是引起土壤性质变化的一个敏感量,NO-3 N浓度、脲酶活性和硝化细菌数量在肥土比低于G处理时随尿素用量的增加而增加,高于G处理时随尿素用量增加而下降。尿素用量增加引起的土壤pH值变化是硝化与反硝化细菌数量和脲酶活性变化的主要原因,也是影响土壤中NO-3 N浓度变化的重要因素。

控释掺混肥对小麦–玉米轮作体系产量、氮肥利用效率及氨挥发的影响

【目的】针对华北平原冬小麦-夏玉米轮作体系氮肥施用量大、氮肥利用率低、氮素损失严重等问题,探讨不同配比的控释掺混肥减氮和一次性施肥对周年作物产量、氨挥发损失和施肥经济效益的影响,确立麦玉轮作体系轻简高效和环境友好的施肥技术。【方法】于2022—2023年,在山东省德州市现代农业科技园区开展田间试验。冬小麦和夏玉米均设不施氮对照(CK)、农户习惯施氮(FFP)、优化施氮(OPT)、CRBF1(包膜尿素与普通尿素在冬小麦和夏玉米上的掺混比例分别为5∶5和3∶7)和CRBF2(包膜尿素与普通尿素在冬小麦和夏玉米上的掺混比例分别为7∶3和5∶5),共5个处理。基施和追施肥后,监测了氨挥发量、强度和损失率。分析了作物干物质积累和产量、氮素吸收量和氮肥利用效率,并计算了施肥经济效益。【结果】与FFP处理相比,CRBF1和CRBF2处理的夏玉米、冬小麦和周年产量差异不显著;CRBF1和CRBF2处理夏玉米氮肥偏生产力提高了8.87~9.86 kg/kg,CRBF2处理玉米氮肥回收率提高了48.4%(P<0.05);CRBF1和CRBF2处理冬小麦季氮肥回收率、氮肥农学利用率和氮肥偏生产力分别提高了30.3%~37.2%、5.22~5.77 kg/kg和6.52~7.06 kg/kg(P<0.05)。与FFP和OPT处理相比,CRBF1和CRBF2处理的肥料+施肥人工投入减少381~960元/hm^(2),周年净收入增加1208~2654元/hm^(2)。CRBF1和CRBF2处理的周年氨挥发损失量、损失强度和损失率较FFP处理分别降低了69.7%~71.9%、72.0%~74.5%和90.0%~94.1%(P<0.05)。【结论】包膜尿素与普通尿素在冬小麦、夏玉米季按照5∶5、3∶7,或者按照7∶3、5∶5的比例掺混一次性基施,均可在减少氮肥用量和施肥劳力投入的条件下,确保周年作物产量稳定,提高生产效益,并显著降低氨挥发损失,是华北平原冬小麦-夏玉米轮作系统高产高效、轻简施肥的有效氮肥施用技术。

应用^(15)N、^(32)P示踪法研究双季稻一次性全层施肥技术的肥料效应

试验在双季高产稻区湖南醴陵市大田条件下进行。为比较一次性施肥技术与高效施肥技术肥料效应的差异 ,应用15N和3 2 P双标记研究了一次性施肥法的肥料效应 ,结果表明 :与对照法相比 ,一次性施肥技术可以促进水稻前中期对养分的吸收和增加干物质的积累量 ,全生育期水稻对氮和磷肥的利用率、氮肥回收率、水稻生物产量及谷物产量与对照相当。但由于一次性施肥法操作简单 ,有利于双季稻大面积平衡增产 。

水肥配比对葡萄生长发育及^(15)N-硫酸铵吸收分配及利用的影响

以无核白鸡心葡萄为试材,采用15N同位素标记示踪法研究了不同水肥配比对葡萄幼树生长和15N-硫酸铵吸收、分配及利用的影响。试验设置3个水分处理(75%~80%FC、55%~60%FC、40%~45%FC)和3个肥料配比(N∶P∶K=2∶1∶3、N∶P∶K=2∶1∶5、N∶P∶K=2∶5∶3),共9个处理。结果表明:不同水肥配比处理间葡萄幼树新梢粗度、叶面积、叶绿素含量差异显著,以55%~60%FC、N∶P∶K=2∶5∶3的水肥处理能有效促进植株新梢粗度、叶面积的增大,最适宜葡萄幼树的生长。以40%~45%FC、N∶P∶K=2∶1∶3的水肥处理更有利于叶绿素的积累。综合生长期光合速率和蒸腾速率,以55%~60%FC、N∶P∶K=2∶5∶3的水肥处理可降低蒸腾速率,提高光合速率。不同水肥配比处理并没有改变树体各器官间15N丰度(Ndff%)的高低顺序和15N分配规律,但同一器官的Ndff%和15N分配率在不同处理间有所不同,轻中度水分胁迫下,葡萄植株对15N的征调能力较高。不同水肥处理对葡萄各器官15N分配率和利用率的影响存在差异,根系的15N分配率、利用率均显著高于其他器官,分别达43.37%和11.17%。主干和新梢次之,叶片最小。轻度水分胁迫下增加磷钾肥比例对提高葡萄植株的氮肥利用率有促进作用。综上所述,各肥水配比处理中以55%~60%FC、N∶P∶K=2∶5∶3的水肥处理为最优处理,建议在无核白鸡心葡萄幼树生产栽培中按照此配比进行肥水管理。

有机肥C/N优化及钾肥运筹对烤烟钾含量及香气品质的影响

利用大田试验研究了有机肥C/N优化及钾肥运筹对烤烟钾吸收及香气品质的影响。采用裂区试验设计,主处理为利用猪厩肥与腐熟花生饼肥混合配制不同碳氮比(m:m)的有机肥,设3个C水平,C1:饼肥420 kg/hm^2,猪厩肥2 250 kg/hm^2;C2:饼肥300 kg/hm^2,猪厩肥3 750 kg/hm^2;C3:180 kg/hm^2,5 250 kg/hm^2;副处理为3个K(K2O)水平,K_低:120 kg/hm^2;K_中:240 kg/hm^2;K_高:480 kg/hm^2。结果表明:C1、C3水平时,随钾用量增加中部叶生物量增加,K_高处理上部叶生物量高于K_低;C3水平时,供钾量对上、中部叶生物量无显著影响;C2水平时,钾量增加提高烟叶生物量;相同碳水平时,随生育进程烟叶钾含量呈降低趋势,随钾量增加呈增加趋势;相同钾供应下,C1、C2对烟叶钾含量无显著性影响;现蕾期、成熟期时,与C1相比,K_中、K_高处理时C2水平增加烟叶钾含量,而C3水平降低烟叶钾含量。不同部位烟叶钾含量为C2>C3>C1处理;解钾菌在团棵期-旺长期呈增加趋势,现蕾期-成熟期呈降低趋势;K_中、K_高处理解钾菌高于K_低处理;C2水平时,K_中、K_高处理解钾菌随生育期呈增加趋势,且C2水平时K_中、K_高处理显著高于其他处理时;K_中、K_高时C3与C1处理时无显著差异,显著高于K_低处理;各处理烟叶常规化学成分在C2处理时K_中、K_高处理中部叶总糖含量25.39%~25.27%,还原糖22.75%~25.73%,总氮1.67%~1.72%,氮碱比0.79,糖碱比10.78~11.80,烟碱含量2.11%~2.18%,表明有机肥碳氮比优化下,钾肥用量增加提高了烟叶中总烟碱、蛋白质及总氮量,改善糖碱比及优化氮碱比值,增加烟叶中钾离子含量;所有处理烟叶中性致香物质种类相同(28种),K_低处理其总量低于K_中、K_高处理,且部位间差异显著;上部叶总量低于中部叶;K_中、K_高处理提高烟叶致香物质总量,C2处理上部叶提高幅度最大。由此可见,通过花生饼肥300 kg/hm^2与猪厩肥3 750 kg/hm^2(中碳水平)的碳氮比优化下,施钾量增加对提高烟叶中性致香物质效果最佳,特别对上部叶。

缓释肥N／P养分配比及加载量对3种珍贵树种大规格容器苗生长的影响

[目的]研究缓释肥N/P养分配比及加载量对南方红豆杉、浙江楠和浙江樟苗木生长发育的影响,以科学指导大规格容器苗的高效培育。[方法]试验采用析因设计,研究N/P养分配比(1.75∶1、2.25∶1、2.75∶1和3.25∶1)及其加载量(1.5 kg·m^(-3)、2.5 kg·m^(-3)、3.5 kg·m^(-3)和4.5 kg·m^(-3))对3种珍贵树种2年生容器苗生长、株高生长节律、干物质积累及叶片SPAD值等影响。[结果]缓释肥N/P养分配比及加载量对3个树种容器苗生长及SPAD值影响不一。南方红豆杉、浙江楠和浙江樟干物质积累及根冠比在不同N/P养分配比间差异不大,浙江樟苗木生长受N/P养分配比影响较小,随着N/P养分配比增加,明显促进了浙江楠容器苗生长,却抑制了南方红豆杉的生长。缓释肥加载量对3个树种2年生容器苗生长和干物质积累的影响均达到极显著水平,随着缓释肥加载量增加可明显地促进3种树种株高、地径生长及干物质积累,增加了浙江楠地上干物质积累及南方红豆杉地下干物质积累,而对浙江樟根冠比影响未达统计学显著水平,但均显示加载量在3.5 kg·m^(-3)时达到最大值。N/P养分配比及与加载量的互作对3个树种苗木生长和干物质积累影响不明显,说明N/P养分配比对3个树种容器苗生长和质量的影响不因加载量的改变而变化或变化不大,反之亦然。随着缓释肥N/P养分配比的增加,可明显地延长南方红豆杉苗木株高的线性生长期,提高浙江楠株高的线性生长量,但对浙江樟株高的线性生长影响不明显。3种树种苗木叶片SPAD值差异很大,N/P养分配比及加载量并未改变3种树种叶片SPAD值动态变化规律,但随着N/P养分配比提高使南方红豆杉和浙江樟叶片SPAD值的起伏强度增大,3个树种SPAD值动态变化均随加载量增加而增大。[结论]南方红豆杉大规格容器苗培育较适宜的N/P养分配比为A1(1.75∶1)或A2(2.25∶1),而浙江楠和浙江樟为A3(2.75∶1),加载较高量的缓释肥F3(3.5 kg·m^(-3))可明显促进3种树种大规格容器苗的生长及SPAD值的提高,但加载量超过一定限度后,反而影响苗木的生长发育。

有机肥C/N优化下氮肥运筹对烟株根际无机氮和酶活性的影响

大田条件下研究了基于有机肥C/N优化下不同氮肥用量和基追比对烤烟根际土壤无机氮、碳氮转化及酶活性的影响。结果表明:(1)低、中氮(48.0、108.0 kg/hm^2)条件下,根际NH4^+-N含量随生育期延长而降低;高氮(168.0 kg/hm^2)条件下,根际NH4^+-N含量在团棵期至旺长期增加,随后降低;不同处理根际硝态氮含量均随着生育期的延长而降低;(2)土壤微生物量碳随生育期的延长和施氮量的增加而增加;(3)土壤脲酶和转化酶活性均随施氮水平增加而增强,低氮和中氮条件下脲酶活性在成熟期时略微下降,而高氮条件下土壤脲酶活性在整个生育期持续增加。低氮基追比(5:5)处理的土壤转化酶活性在团棵期后高于中高氮基追比处理。高氮水平因施氮量过大促使土壤有效氮持续供应,致使成熟期不能及时"氮素调亏",降低烟叶品质;而中氮水平各处理的土壤脲酶活性呈先增加后降低趋势,并以氮肥适当后移,基追比(5:5)时烟株"旺长-现蕾"阶段土壤酶活性较高,与该阶段烟株氮素需求规律相吻合。

基肥(15N)施用时间对烤烟产量、产值及氮素利用率的影响

采用15N同位素示踪微区试验与田间试验,在湖北襄樊2个不同海拔的植烟生态区(赵家山和老湾)研究了不同基肥施用时间(提前0、15和30d)条件下,施用氮肥对烤烟产量、产值及氮素吸收、利用和分配的影响。结果表明,施用氮肥显著增加烤烟产量和产值,增幅分别为13%～40%(低海拔赵家山地点)和14%～35%(高海拔老湾地点)。与移栽当天施用基肥相比,提前施用基肥15～30d有利烤烟产值的提高,其中高海拔试验点增幅为10%～30%,达到显著水平(P<0.05)。与移栽当天或者提前15d相比,提前30d施用基肥还提高2个海拔地区烤烟对氮素的吸收累积量8%～26%。提前基肥施用时间对低海拔地区氮肥利用率的影响不显著,但显著提高高海拔地区烤烟生育中后期氮肥利用率3%～6%。结果说明,在光、温条件较差的高海拔地区,适当提前施用基肥(15d),有利于提高肥料利用率,从而提高烤烟产量产值。

滴灌条件下棉花不同生育期N·P配比施肥研究

[目的]寻求滴灌棉花不同生育期N、P肥配比的最佳施肥方案。[方法]在有机质含量较低、肥力中下、有效氮较贫的新疆垦区土壤上,应用6因子2次正交旋转组合设计,研究滴灌条件下随水施肥棉花不同生育期(苗蕾期、花铃前期、花铃后期)养分需求规律、N和P肥的最佳用量。[结果]在该试验土壤条件下,棉花各生育期施氮肥对棉花的增产效果非常明显,而磷肥仅在吸收较强的花铃后期表现出一定的增产作用。籽棉产量高于4 500 kg/hm^2的各生育期N、P配比的优化施肥方案依次是:苗蕾期氮(N_2)90.93～97.44kg/hm^2,磷(P_2O_5)15.53～19.44 kg/hm^2;花铃前期氮(N_2)163.31～168.08 kg/hm^2,磷(P_2O_5)27.84～30.77 kg/hm^2;花铃后期氮(N_2)41.37～45.71 kg/hm^2,磷(P_2O_5)66.96～72.65 kg/hm^2。[结论]该研究为确定棉花滴灌专用肥的配方及科学施用提供依据。

等碳量不同有机物料添加对红壤团聚体组分分布及有机碳、氮含量的影响

由于土壤理化性质不同,不同肥力的红壤上适宜的有机物料种类可能存在差异。为精准分类指导不同肥力红壤选择适宜的有机物料种类,选择长期进行花生、油菜轮作的红壤旱地,采集0~20和>20~40 cm深度土壤样品,分别代表高肥力和低肥力土壤,设置不施有机碳(C0)以及施用油菜秸秆碳(OSC)、水稻秸秆碳(RSC)、玉米秸秆碳(MSC)、猪粪碳(PMC)处理,其中各有机物料处理的碳投入量相同,进行连续90 d的避光培养,测定不同处理团聚体组分及有机碳、氮含量,分析有机物料投入C/N比与团聚体组分C/N比的相关关系。结果表明:(1)与C0对照相比,各有机物料处理均显著提高了>2 mm团聚体比例。在高肥力土壤中,OSC、RSC、MSC和PMC处理>2 mm团聚体组分比例分别增加217.89%、283.97%、286.63%和210.63%,低肥力土壤中上述处理的增幅分别为72.25%、84.45%、72.11%和46.47%。(2)有机物料投入后,>2、>0.25~2、≥0.053~0.25和<0.053 mm团聚体组分有机碳含量均显著提升,但不同肥力土壤中各有机物料处理下团聚体组分有机碳的增幅差异较大,以>2 mm团聚体组分有机碳为例,高肥力土壤表现为RSC和MSC处理较高,而低肥力土壤则表现为OSC处理较高。(3)高肥力和低肥力土壤中添加不同有机物料均显著增加了>0.25~2和<0.053 mm团聚体组分全氮含量,且各处理均大体呈现出PMC处理最高的趋势。(4)在高肥力和低肥力土壤中添加不同有机物料均增加了团聚体组分C/N比,但高肥力和低肥力土壤中存在明显分异。以>0.25~2 mm团聚体组分C/N比为例,高肥力土壤表现为OSC、RSC和MSC处理较高;而低肥力土壤则表现为RSC和MSC处理较高,且大体呈现出PMC处理下土壤团聚体组分C/N比显著低于其他有机物料处理的趋势。(5)高肥力土壤中,提高有机物料C/N比可显著增加土壤>2和>0.25~2 mm团聚体组分C/N比;而低肥力土壤中,仅>0.25~2 mm团聚体组分C/N比与有机物料投入C/N比呈显著正相关。结合拟合方程的斜率分析发现,当投入有机物料的C/N比增加时,高肥力土壤中>0.25~2 mm团聚体组分C/N比的增幅明显小于低肥力土壤。与猪粪相比,秸秆类有机物料对团聚体碳、氮积累的促进效果较好。建议参考土壤肥力水平精准调控投入有机物料的C/N比,以期合理提升土壤团聚体组分的C/N比。

不同施肥处理对金瑞油桃产量和品质的影响

为解决山西油桃园施肥不合理的现象,筛选出适合当地油桃生产的施肥配比和施肥量,以4年生金瑞油桃为试验材料,磷肥固定,氮肥和钾肥各设置4个梯度,以不施肥为对照,研究不同施肥处理对运城地区金瑞油桃产量和品质的影响。结果表明,适量增施氮肥和钾肥均可显著增加油桃的横纵径和单果质量,提高油桃可溶性固形物、可溶性总糖和维生素C含量,降低总酸度,提高果实糖酸比,改善果实品质和口感;但施氮量超过240 kg/hm^(2)时,过量的氮肥会降低油桃可溶性固形物、维生素C和可溶性糖含量,不利于油桃品质和产量的提升。与不施肥对照相比,处理N_(2)PK_(2)(N 240 kg/hm^(2)、P_(2)O_(5)120 kg/hm^(2)和K_(2)O 240 kg/hm^(2))和处理N_(2)PK_(3)(N 240 kg/hm^(2)、P_(2)O_(5)120 kg/hm^(2)、K_(2)O 360 kg/hm^(2))增产率分别为28.77%和31.34%,增产值分别为25 440元/hm^(2)和27 720元/hm^(2),经济效益显著高于其他处理。通过构建施肥模型,试验地金瑞油桃的钾肥最佳施用量为398 kg/hm^(2)。综上,不同施肥配比和施肥量对油桃内在品质和产量有较大影响,试验地油桃适宜的氮、磷、钾施用比例为1.0∶0.5∶1.0~1.5,推荐施肥量分别为N 240 kg/hm^(2)、P_(2)O_(5)120 kg/hm^(2)、K_(2)O 240~360 kg/hm^(2)。

桑枝和蚕沙的基础成分测定及堆肥试验

桑枝和蚕沙是蚕桑生产的大宗副产物,用其制作堆肥是资源化利用和无害化处理的有效途径。测定结果表明,桑枝条的木质化程度越高,枝条的碳氮比(C/N)也越高;混入残余桑叶碎片和叶梗的蚕沙与蚕粪比较,其C/N显著降低。堆肥试验设置1号堆(100%桑枝)、2号堆(20%蚕沙+80%桑枝)、3号堆(100%蚕沙)3个处理组,测定各组堆肥腐熟过程中的物质变化及腐熟后的堆肥品质,结果显示:堆肥过程中各堆体的高温(≥50℃)持续天数由长到短依次为1号堆、2号堆、3号堆;堆肥的前60 d是堆体中各种养分物质含量变化最为剧烈的时期。各处理组堆体腐熟后,有机质含量由高到低依次为1号堆、2号堆、3号堆,有效氮、磷、钾及速效总养分含量由高到低依次为3号堆、2号堆、1号堆。综上认为:堆肥需要根据原料的组成合理调节氮源用量;2号处理组堆肥的品质最优,即在桑枝堆体中添加一定量的蚕沙,既可保证较高的有机质含量,又可提高堆肥的速效肥力。