硫加树脂包膜尿素控释肥对小麦干物质积累分配及产量的影响

在田间高产条件下,设置硫加树脂包膜尿素控释肥(SRCU)、树脂包膜尿素控释肥(RCU)、普通尿素加硫磺粉(SU)、普通尿素(U)处理,研究硫和SRCU对冬小麦干物质积累与分配及产量的影响.结果表明:施用RCU处理的植株干物质积累量和籽粒产量与分期施氮不施硫处理相比无显著差异.在土壤有效硫含量为43.2 mg·kg-1的条件下,施硫量为91.4 kg·hm-2的SRCU处理与相同施硫量分期施氮处理相比,花后干物质积累与分配及产量无显著差异;与无硫的RCU处理相比,花后同化物输入籽粒量、籽粒灌浆中期的灌浆速率、千粒重和产量均显著提高.在土壤有效硫含量为105.1 mg·kg-1的条件下,施硫量为120kg·hm-2的SRCU处理籽粒产量显著高于相同施硫量分期施氮处理,与不施硫分期施氮处理和RCU处理无显著差异.说明SRCU释放的氮素对冬小麦干物质积累、分配和产量的调节作用与速效氮素分期施用的效果一致.SRCU释放的硫素对冬小麦的调节作用受土壤有效硫含量高低的影响,在有效硫含量为43.2 mg·kg-1的条件下,能促进花后干物质积累和籽粒灌浆,显著提高籽粒产量;在有效硫含量为105.1 mg·kg-1的条件下,则无显著增产作用,过多施用硫磺粉还可导致产量显著降低.     

贵州黄壤区辣椒干物质、氮素积累与分配及氮素利用对新型肥料的响应

为探索贵州黄壤区施用新型肥料对辣椒种植的增产效应,通过盆栽试验研究了保水型(BSX)、稳定性(WDX)、包膜型(BMX)缓释肥和长效氮肥(CXDF)4种新型肥料对‘博辣5号’辣椒的干物质、氮素积累与分配,以及氮素利用效率的影响.结果表明: 施用新型肥料可以明显影响辣椒干物质和氮素的积累与分配,辣椒氮素积累快速增长开始时间和结束时间较干物质分别提前17~26 d和28~45 d,且氮素积累快速增长持续期也较干物质缩短7~23 d,表明氮素积累的发生时间要先于干物质积累;与普通复合肥(FHF)处理相比,新型肥料处理的干物质和氮素积累均出现明显滞后,以BMX处理的滞后时间最长,但是WDX处理的快速增长持续期较短且最大积累速率最高,说明稳定性缓释肥可实现养分短时间内的高效利用;BSX和BMX处理的花后干物质和氮素积累量占总干物质和总氮的比例分别为62.9%和20.1%、73.3%和20.5%,而WDX处理则分别为59.3%和11.6%,说明保水型和包膜型缓释肥相对有利于辣椒花后干物质积累和氮素同化,而稳定性缓释肥则更有利于花前干物质和养分积累;与FHF处理相比,施用新型肥料(保水型、稳定性和包膜型缓释肥)可显著提高辣椒的氮素利用效率,以稳定性缓释肥的氮肥偏生产力、氮肥农学效率和氮肥表观利用率最高,分别为66.74 kg·kg^-1、44.28 kg·kg^-1和54.6%.新型肥料适用于贵州辣椒种植栽培,以稳定性缓释肥的施用效果最佳.     

控失尿素对稻田氨挥发、氮素转运及利用效率的影响

通过田间试验,以普通尿素分次施用处理(CU)为对照,研究了控失尿素分次施用(LCUS)和一次施用(LCUB)对水稻田土壤氨挥发特征、水稻氮素营养状况、稻谷产量及氮肥利用效率的影响. 结果表明: 普通尿素分次施用、控失尿素分次施用和控失尿素一次施用条件下,生育期氨挥发总量占总施氮量的比例分别为15.8%、13.4%和19.7%. 与普通尿素分次施用处理相比,控失尿素分次施用处理可降低土壤氨挥发损失量4.4 kg N·hm^-2,降幅达18.0%,而控失尿素一次施用处理稻田土壤氨挥发总量却增加了7.2 kg N·hm^-2,增幅达24.7%. 与普通尿素分次施用处理相比,控失尿素分次施用处理的水稻叶片叶绿素、籽粒和茎叶氮含量与氮素积累量、稻谷产量均有不同程度提高,氮肥利用率显著提高了7.6%,但氮素转运量、转运率和对穗氮贡献率均显著降低,而控失尿素一次施用处理的水稻叶片叶绿素、籽粒和茎叶氮含量与氮素积累量以及氮肥利用率均显著降低,氮素转运量、转运率、对穗氮贡献率以及稻谷产量无显著差异. 综上所述,控失尿素分次施用处理可以在保证稻谷稳产的同时,有效降低稻田土壤氨挥发损失,改善植株氮素营养状况,显著提高氮肥利用效率.     

保水剂-尿素凝胶对侧柏裸根苗细根生长和氮素利用率的影响

在盆栽试验条件下,研究不施肥和保水剂(CK)、单施尿素(U)、单施保水剂(S)、保水剂-尿素混施(SUM)和保水剂-尿素凝胶(SUG)处理对侧柏裸根苗细根的形态特征、吸收面积、氮代谢及氮素利用率的影响.结果表明:与U处理相比,SUG处理显著增加细根的生物量、长度、比根长、表面积和体积,并明显扩大细根的总吸收面积和根尖吸收面积;SUG处理比根长分别较CK、U、S和SUM处理显著增加34.7%、37.9%、41.1%和12.4%,细根的硝酸还原酶、谷氨酰胺合成酶、谷氨酸合成酶和谷氨酸脱氢酶活性分别较U处理提高41.2%、76.6%、30.7%和125.8%,而GS/GDH(谷氨酰胺合成酶/谷氨酸脱氢酶)下降.SUG处理显著促进侧柏裸根苗地径、株高的生长以及地上部和地下部干物质积累,且氮素利用率达到40.7%,分别比U和SUM处理显著提高118.8%和44.5%.保水剂-尿素凝胶通过改善侧柏裸根苗细根的形态特征、提高吸收面积及氮代谢关键酶活性而提高氮素利用率,促进生长,并增强抵御干旱胁迫的能力.     

猪粪配施化肥对稻-麦轮作系统籽粒产量和氮素利用率的影响

通过大田试验,以水稻(品种‘F优498’)-小麦(品种‘内麦863’)轮作体系为研究对象,根据成都平原稻麦种植体系常规施氮水平,设7个不同猪粪施用处理:对照(CK,无化学氮肥,无猪粪)、常规化肥(T₁,无猪粪)、化肥减量25%+猪粪2500 kg·hm^-2(T₂)、化肥减量50%+猪粪5000 kg·hm^-2(T₃)、猪粪10000 kg·hm^-2(T₄)、猪粪15000 kg·hm^-2(T₅)和猪粪20000 kg·hm^-2(T₆),研究添加猪粪对稻麦干物质、氮素积累及分配特征、籽粒产量和氮素利用率等的影响.结果表明: 猪粪配施化肥对稻麦各生育期干物质积累均有促进作用,稻麦成熟期作物地上部干物质积累量均以高量猪粪施用处理(T₆)最高,但其干物质积累及氮素分配向茎叶富集,且籽粒干物质积累及氮积累分配率显著低于T₂处理;随着配施猪粪用量的增加,稻麦氮肥偏生产力、氮肥农学利用率、籽粒产量均呈现先增加后减少趋势,其中水稻季以T₃处理最优,较常规化肥处理提高11.4%、55.4%、11.4%,小麦季则以T₂处理最优,较常规化肥处理提高14.0%、29.1%、14.0%.本试验条件下,2500～5000 kg·hm^-2猪粪+化肥减量25%～50%处理,有利于促进稻麦干物质积累、氮素向籽粒运移,达到增产及提高氮素利用率的效果,超量施用猪粪(15000～20000 kg·hm^-2)后,土壤氮素供应过量,干物质向经济器官运移受阻,氮素向茎秆富集,贪青晚熟现象严重,稻麦籽粒产量显著下降.     

氮高效利用基因型大麦的物质生产与氮素积累特性

通过土培盆栽试验,研究了22份大麦材料在低氮(125 mg·kg^-1)和正常氮(250 mg·kg^-1)处理下氮素吸收利用效率的基因型差异,探讨氮高效大麦干物质生产与氮素积累特性.结果表明： 大麦氮素吸收利用效率基因型差异显著.低氮处理下籽粒产量、氮素籽粒生产效率及氮素收获指数的最高值分别是最低值的2.87、2.92、2.47倍;氮高效基因型大麦籽粒产量、氮素籽粒生产效率和氮素收获指数均显著大于低效基因型,低氮处理下高效基因型3个参数较低效基因型分别高82.1%、61.5%和50.5%.氮高效基因型大麦各生育期干物质和氮素积累优势明显,干物质积累高峰出现在拔节-抽穗阶段,氮素积累高峰出现在拔节前;低氮处理下高效基因型典型材料DH61、DH121+的干物质量较低效基因型典型材料DH80分别高34.4%、38.3%,氮素积累量较DH80分别高54.8%、58.0%.供试大麦干物质和氮素的阶段性积累量对籽粒产量的影响为拔节前最大,且低氮处理下贡献率最高,分别为47.9%和54.7%;而干物质和氮素的阶段性积累量对氮素籽粒生产效率的影响在抽穗 成熟阶段最大,其次是播种-拔节阶段,低氮处理下这两个阶段的贡献率分别为29.5%、48.7%和29.0%、15.8%.氮高效基因型大麦在各生育期的物质生产和氮素积累能力强,低氮处理下优势较为明显,能够提高拔节前干物质生产和氮素积累能力,并协同提高大麦产量和氮素利用效率.     

氮肥运筹对晚播冬小麦氮素和干物质积累与转运的影响

氮素平衡对干物质积累与分配的影响是农业生态系统研究的重要内容,在保障产量前提下减少氮肥施用量可减少环境污染与温室气体排放。以晚播冬小麦为研究对象,设置4个施氮量水平:0 kg/hm2(N0)、168.75 kg/hm2(N1)、225 kg/hm2(N2)、281.25 kg/hm2(N3),每个施氮量水平下设置2个追氮时期处理:拔节期(S1)、拔节期+开花期(S2),研究了氮肥运筹对晚播冬小麦氮素和干物质积累与转运及氮肥利用率的影响。结果表明:拔节期追施氮肥(S1)条件下,在225 kg/hm2(N2)基础上增施25%氮肥(N3)对开花期氮素积累总量和营养器官氮素转运量无显著影响;拔节期+开花期追施氮肥(S2)条件下,随施氮量增加,开花期氮素积累总量和花后营养器官氮素转运量升高;S2较S1显著提高成熟期籽粒及营养器官氮素积累量、花后籽粒氮素积累量及其对籽粒氮素积累的贡献率。同一施氮量条件下,S2较S1提高了成熟期的干物质积累量、开花至成熟阶段干物质积累强度和花后籽粒干物质积累量。同一追氮时期条件下,籽粒产量N2与N3无显著差异,氮肥偏生产力随施氮量增加而降低;同一施氮量条件下,S2较S1提高了晚播冬小麦的籽粒产量和氮肥吸收利用率。拔节期+开花期追施氮肥,总施氮量225kg/hm2为有利于实现晚播冬小麦高产和高效的最优氮肥运筹模式。     

控释氮钾肥对海棠氮、磷、钾利用率的影响

采用盆栽试验,研究了控释氮钾肥对海棠实生苗生长、磷钾利用率及土壤-作物系统中氮素平衡的影响.结果表明:控释肥的释放与海棠苗对养分的需求一致;控释氮肥显著提高了植株钾素的利用率;控释钾肥显著提高了植株氮素的利用率.施钾量相同情况下,控释氮肥(CN)和控释氮钾肥(NK)的株高、茎粗无显著差异,但均高于普通肥料(SF).植株干物质量、磷的利用率、钾的吸收量和利用率大小顺序均为:NKCNSF.施钾量对株高、茎粗无明显影响,但对NK处理的干物质量有显著影响.磷素利用率随控释钾肥施用量增加而显著提高,而普通钾肥施用量对其无明显影响.钾素利用率随施钾量提高而降低.氮素利用率大小顺序为NKCNSF,损失率顺序则相反,NK和CN的残留率无显著差异,但均高于SF.控释钾肥施用量对氮素利用率、损失率有显著影响,对残留率无明显影响.     

苏南地区稻麦轮作系统对不同有机无机复混肥的响应

通过田间试验,研究了苏南地区2006-2007年稻麦轮作体系下,施用菜粕堆肥有机无机复混肥(RCC)、猪粪堆肥有机无机复混肥(PMC)、中药渣堆肥有机无机复混肥(CMC)和化肥(CF)对小麦和水稻;产量及氮素利用率的影响.结果表明:各施肥处理的小麦和水稻产量均显著高于对照;RCC、PMC和CMC处理的小麦产量分别比化肥处理(6760 kg·hm-2)减少了13.1％、32.2％和39.3％;而不同有机无机复混肥处理的水稻产量(8504～9449 kg·hm-2)则显著高于化肥处理(7919 kg·hm-2),增产率达7.4％～19.3％.在小麦季,RCC、PMC和CMC处理的地上部干物质量、氮素积累量、氮素利用率普遍低于化肥处理,而水稻季则显著高于化肥处理或与之相当.综上,在苏南稻麦轮作体系下,3种有机无机复混肥均能提高水稻产量及氮素利用率,其中菜粕堆肥处理提高效果最为显著.     

硫膜和树脂膜控释尿素对小麦产量、品质及氮素利用率的影响

通过田间试验,研究了硫膜和树脂膜控释尿素对小麦产量、品质和耕层土壤无机氮含量及氮素利用率的影响.结果表明：与普通尿素相比,硫膜和树脂膜控释尿素均能显著提高小麦籽粒产量和品质,增产幅度达10.4%～16.5%,小麦籽粒蛋白质和淀粉含量分别提高5.8%～18.9%和0.3%～1.4%;两种控释肥均能有效保持耕层土壤无机氮含量,且其氮素后移的功效满足了小麦生育后期对氮素的需求;有效提高了氮肥偏生产力,降低了土壤氮素依存率（降幅11.0%～17.3%）,提高了氮素利用率（增幅58.2%～101.2%）.其中,树脂膜控释尿素比硫膜控释尿素表现出更好的增产效应,实现了氮素的高效利用.     

Drought may be beneficial to the competitive advantage of Amaranthus spinosus

干旱利于刺苋的竞争优势 干旱可以影响入侵植物的生长和土壤酶活性。因此,非常有必要评估干旱背景下入侵植物的竞争优势以及入侵植物和干旱对土壤酶活性的影响。本研究旨在分析干旱背景下起源于热带美洲的入侵植物刺苋(Amaranthus spinosus)与本地植物苋菜(Amaranthus tricolor)共存时的竞争优势和土壤酶活性。通过栽植实验进行刺苋与苋菜的竞争共栽培,并进行不同水平的干旱处理,即：(i)对照;(ii)轻度干旱;(iii)重度干旱。实验结束后测定两种苋属植物的功能性状、渗透调节、抗氧化酶活性以及土壤pH、电导率、土壤微生物生物量碳含量和土壤酶活性。干旱背景下,刺苋的相对竞争强度和相对优势度均高于苋菜。因此,干旱利于刺苋的竞争优势。干旱背景下,刺苋的土壤水溶性盐含量和蔗糖水解能力均大于苋菜。而较高的土壤水溶性盐含量和蔗糖水解能力利于刺苋对养分的获取和利用。     

含硝化抑制剂DMPP复合肥对日光温室芹菜生长和营养品质的影响

通过田间试验研究了含硝化抑制剂DMPP复合肥对日光温室芹菜生长和品质的影响. 结果表明,与普通复合肥相比,一次基施DMPP复合肥67.5和54.0 kg·hm^-2 氮处理分别使芹菜增产5.78%和10.14%; DMPP复合肥可降低芹菜可食部分硝酸盐含量,提高Vc、游离氨基酸、可溶性糖及氮、磷含量. 与分次施用相比,适当减少DMPP复合肥施用次数和用量可提高芹菜产量并改善其品质,降低生产成本.DMPP复合肥在施入土壤中后具有显著的硝化抑制作用,延缓了菜地土壤铵态氮向硝态氮的转化,降低了氮素向水体迁移的风险.芹菜收获后土壤中全氮、铵态氮、硝态氮残留较多,有利于保持地力.     

Effect of trickle fertigation with three forms of nitrogen on soil pH,levels of extractable nutrients below the emitter and plant growth

The effects of application of nitrogen as calcium nitrate, urea or ammonium sulphate at two rates through the trickle irrigation system on pH and nutrient status of the wetted volume of soil below the emitters and on growth and nutrition of courgette (zucchini) plants (Cucurbita pepo L.) was investigated. Soil acidification, caused by nitrification, occurred to a large extent in the volume of soil immediately below the emitters in the urea and ammonium sulphate treatments. Acidification was greater at the high rate of N addition and more pronounced with ammonium sulphate than urea. A significant amount of applied urea appeared to move through the soil as urea and consequently, at the same rate of N addition, levels of ammonium were lower directly below the emitter and those of nitrate were higher further away from the emitters for the urea than ammonium sulphate treatments. Soil acidification below the emitters resulted in significant decreases in levels of exchangeable Ca, Mg and K and increases in levels of exchangeable Al, EDTA-extractable Fe, Mn, Zn and Cu and bicarbonate-extractable P. Vegetative growth and harvestable yields of courgettes were increased by both irrigation and nitrogen applications. Vegetative growth was generally greater at the low rate of N addition than at the high one and generally followed the order calcium nitrate > urea > ammonium sulphate. However, fruit yields followed the order urea > ammonium sulphate > calcium nitrate and were larger at the high rate of N for urea and ammonium sulphate treatments and unaffected by rate for the calcium nitrate treatments. It is suggested that with fertigation, the form of applied N can have significant physiological effects of plant growth and yields because N may be applied into the root zone on numerous occasions during the growing season.     

叶面肥对柑橘全爪螨生长发育和繁殖及柑橘苗生长的影响(英文)

【目的】柑橘全爪螨Panonychus citri在中国是一种重要的柑橘害虫,叶面肥在橘园的应用很普遍。本研究是为了明确柑橘施用尿素和复合氨基酸2种叶面肥对这种害螨生长发育和繁殖及柑橘苗生长的影响。【方法】在室内分别用尿素(0.50%)和复合氨基酸(0.17%)2种叶面肥喷施盆栽沙糖橘Citrus reticulata Blanco cv. Shatangju苗,以喷施清水为对照,探究叶面施肥对柑橘全爪螨生命表参数［净 增殖率(R₀)、平均代时(T)、内禀增长率(r_m)、周限增长率(λ)和种群趋势指数(I)］及柑橘苗生长参数(叶长、宽和面积, 茎长, 株高, 新梢的长度和数量)和叶片养分(N, P和K)含量的影响。【结果】柑橘全爪螨未成熟螨态的发育历期没有受到叶面肥的影响,但施用0.50%尿素的柑橘苗上第2若螨的存活率(95.40%)显著高于施用清水的对照(78.26%)和喷施0.17%复合氨基酸的处理(75.61%),其雌螨的繁殖力(42.1/♀)也显著高于对照(33.1/♀)。复合氨基酸处理柑橘苗上的雌螨寿命(19.5 d)显著长于尿素处柑橘苗上的雌螨寿命(14.8 d)和对照(14.5 d),复合氨基酸处理柑橘苗上的雄螨寿命(17.6 d)也显著长于对照(13.1 d)。总体上,在尿素处理的柑橘苗上柑橘全爪螨的净增殖率(R₀)(17.88)和种群趋势指数(I)(18.08)值最高,2个参数都显著高于对照(分别为10.08和11.17)。施用2种叶面肥显著促进了柑橘苗叶片生长(叶长、叶宽、叶面积),其N, P和K含量以及氮钾比(N/K)也显著增加。【结论】柑橘苗叶面喷施尿素和复合氨基酸都可促进柑橘苗生长,喷施尿素会导致柑橘全爪螨种群的显著增长,而喷施复合氨基酸没有导致柑橘全爪螨种群显著增长。因此,推荐使用复合氨基酸代替尿素作为柑橘的叶面肥施用。但是,喷施复合氨基酸可显著延长柑橘全爪螨成螨的寿命,所以在使用时还应该加强对其种群的监测。     

Urea fertilization effects on nutrient uptake and growth of Platanus occidentalis during plantation establishment

Summary The benefit of fertilizer application during establishment of a tree plantation depends on effective nutrient uptake and the utilization of the nutrients in growth. Five urea treatments (0, 50, 75, 150, and 450 kg N/ha) were applied in a completely randomized plot design to a field planted with American sycamore (Platanus occidentalis L.) seedlings to evaluate growth responses and nitrogen use efficiency during the first season of plantation establishment. The site was in the Oak Ridge Reservation in eastern Tennessee on a highly weathered soil. Harvests were conducted on 3 occasions during a 22 week experimental period, and dry weights of stems, leaves, and large and small roots were measured. Chemical analyses were conducted on plant tissues from the 0, 75, and 450 kg N/ha treatments. Plant dry weight increased with urea application and growth analysis showed that this was mainly associated with increase in leaf area and to a minor extent with increase in net assimilation rate. Root weight increased significantly with urea application. The specific absorption rate of roots for several nutrients was greater at higher urea levels for the first 2 harvest periods, but this pattern reversed during the 3rd growth period. Surprisingly, manganese uptake and the specific absorption rate for manganese were enhanced with higher urea application. The acidifying effect of urea nitrification is a likely explanation for the increased Mn availability, and nitrate leaching and/or nitrogen immobilization contributed to low uptake of urea-N by the seedlings. The proportion of the applied nitrogen incorporated into the seedlings was 1.5 and 0.6% for the 75 and 450 kg N/ha urea treatments, respectively. Broadcast fertilizer application is not an effective way of supplying nutrients to seedlings during plantation establishment.     

冬枣对不同形态氮素的吸收与利用

以2年生盆栽鲁北冬枣为试材,研究了其对尿素、甘氨酸（Gly）和谷氨酸（Glu）的吸收利用与响应特性．结果表明：3种形态氮均可被冬枣吸收利用,与尿素相比,氨基酸态氮吸收的量较少．若尿素的吸收量以100％计,则叶片对Gly和Glu的相对吸收量分别为28．88％和11．73％,吸收到的氮素主要分配到叶片和枣头枝中;而根对Gly和Glu的相对吸收量则分别为50．48％和42．72％．冬枣吸收尿素、Gly和Glu后,叶片中的谷草转氨酶（GOT）和谷丙转氨酶（GPT）活性提高,可溶性蛋白质含量增加;但不同形态氮素处理对硝酸还原酶（NR）活性的影响存在差异,尿素可显著提高NR活性,Glu对NR活性影响不大,Gly降低了NR活性．与尿素相比,氨基酸态氮能明显提高冬枣果实的着色个数、着色面积以及果实中可溶性固形物含量．     

Effect of propionate on the utilization of nitrogen from 15NH4Cl for urea synthesis in hepatocytes isolated from sheep liver

1. The effect of ornithine (2.0 mM) and propionate (5.0 mM) on the utilization of N from 15NH4Cl (5.0 mM) for urea synthesis in hepatocytes isolated from sheep liver was investigated. 2. The capacity of sheep hepatocytes to utilize [15N]ammonia in the absence of the other exogenous substrates was very low and amounted 132 +/- 37.3 mumol/hr per 1 g dry wt. 3. Ornithine failed to affect the total [15N]ammonia uptake and total urea synthesis, but at the same time it markedly increased the utilization of [15N]ammonia for ureagenesis and diminished the rate of urea synthesis from endogenous sources. 4. Propionate markedly increased total [15N]ammonia utilization and total urea formation; this increase resulted from the rise of ammonia utilization for urea synthesis and it was similar in the presence or absence of ornithine. 5. The capacity of sheep liver cells to utilize ammonia in the presence of propionate (in the presence or absence of ornithine) amounted to 256 mumol/hr per 1 g dry wt, thus being similar to the values in vivo. 6. It is concluded that in sheep hepatocytes both ornithine and propionate stimulate the utilization of ammonia for urea synthesis and these effects take place independently and occur by different mechanisms.     

15N示踪控释氮肥的氮肥利用率及去向研究

选用¹⁵N同位素标记的新型回收塑料包膜控释肥和大颗粒尿素,采用池栽试验研究夏玉米-冬小麦轮作体系中肥料氮的去向及利用率。结果表明,整个轮作体系中,控释肥处理（PCU）作物吸收的肥料氮为241.03 kg/hm,高于尿素处理（Urea)的211.02 kg/hm。控释肥处理施用的肥料氮主要残留在0~40 cm土层,而尿素处理则残留在0~60 cm土层,控释肥延缓了肥料氮向土壤深层迁移的趋势。在夏玉米和冬小麦轮作体系中,控释肥处理的氮肥利用率（32.86%,32.47%）高于尿素处理（28.23%,30.16%）。在冬小麦季,控释肥处理损失率相比尿素处理从36.07% 降至28.75%,而夏玉米季,控释肥处理损失率相比尿素处理从37.17%降至29.50%。玉米季控释肥处理与尿素处理差异不显著,但在冬小麦季控释肥处理的产量显著高于尿素处理。因此,在玉米和小麦整个生长季,新型回收塑料包膜控释肥的养分释放与作物养分需求吻合,既提高氮肥利用率,也降低了肥料氮的损失。     

氮肥调控剂对潮褐土中不同氮源氮素转化及油菜生长的影响

采用土壤培养和盆栽试验相结合的方法,研究了硝化抑制剂双氰胺(DCD)与纳米碳配合施用对尿素和碳酸氢铵在华北平原典型土壤潮褐土中转化的调控效果及其对油菜生长的影响.结果表明： 尿素和碳酸氢铵在施入土壤后的2周内,土壤无机氮的供应强度差别较大,2周以后则基本相似.2种氮源对油菜生长及氮素利用的影响在生育前期(播种后34 d)差异显著,但最终达到商品生物量收获时,氮源之间差异不大.DCD对尿素和碳酸氢铵在潮褐土中的转化表现出显著的硝化抑制作用,其抑制强度和有效抑制时间随DCD用量的增加而增强,且以对碳酸氢铵施入土壤后的硝化抑制效果更好.在本研究条件下,DCD用量以占肥料纯氮量的1.0%～1.5%相对较佳,可显著提高油菜产量,改善叶色,降低植株硝酸盐含量,提高氮肥利用率.纳米碳与DCD配合施用对土壤铵氧化有明显的协同抑制效果,且可以显著刺激油菜前期的生长发育和氮素利用,降低油菜硝酸盐含量.     

Urea-triazone N characteristics and uses

Urea-triazone nitrogen (N) is a stable solution resulting from a controlled reaction in aqueous medium of urea, formaldehyde, and ammonia which contains at least 25% total N. This N source contains no more than 40%, nor less than 5%, of total N from unreacted urea and not less that 40% from triazone. All other N shall be derived from water-soluble dissolved reaction products of the above reactants. It is a source of slowly available N. The rate of mineralization of urea-triazone is about 66% that of urea after 8 days when incorporated in a Munjor sandy loam. Ammonia volatilization losses of N applied as urea-triazone were about 41% of those from urea on a Cecil sandy loam in the first week after application. N leaching losses through saturated Yolo loam columns of urea-triazone were about two thirds that of urea or nitrate N. This N source has proven to be a safer and more effective material for direct application on plant foliage. Tomato growth was enhanced with foliar application of urea-triazone relative to that obtained from ammonium nitrate or urea. The stability of this N source from potential losses via ammonia volatilization and nitrate leaching when soil applied is also documented by results from university trials.