新型氮肥肥料效应与氮素利用率对比研究

旱地和水田施用新型N肥试验结果表明,与普通尿素相比,施用腐殖酸尿素、木质素尿素和涂层尿素对水稻、小麦均具有明显增产效果,稻谷增产率为14%～16%,小麦籽实增产率为4%～17%,肥效为腐殖酸尿素≥木质素尿素＞涂层尿素。水稻对肥料N素利用率提高7%,差异达显著水平,小麦对肥料N素利用率提高2.7%～17%。     

控释肥及硫膜对土壤性质和水稻生长发育的影响

采用盆栽试验的方法研究了不同硫包膜尿素用量及不同外加硫膜用量对土壤性质及水稻产量和品质的影响.结果表明:适量硫膜可改善土壤中Ca,Mg的活化程度.而过量硫膜则会抑制其活化.硫膜明显增加了土壤中水溶性SO2-4的积累.所有试验处理中,以硫包膜尿素高量处理最佳,其水稻产量最高,比无氮处理增产73.01%,较等氮量普通尿素处理增产11.89%;并且该处理的水稻籽粒粗蛋白质含量最高,达8.91%.硫包膜尿素处理低量、中量和高量的氮素利用率分别高出普通尿素处理9.42%,8.59%和21.19%.适量硫膜可提高水稻对氮肥的氮素吸收利用率,增加水稻产量;而施用过量硫膜则导致氮素利用率相对降低和产量下降.     

硫包膜尿素对土壤性质和夏玉米生长的影响

研究了硫包膜尿素对土壤性质和玉米生长的影响。结果表明,在玉米生长期内,硫包膜尿素可以显著增加土壤有效硫含量。与普通尿素相比,硫包膜尿素能够显著增加土壤水溶性SO42-含量,但在玉米成熟期不会显著酸化土壤。施用硫包膜尿素比普通尿素能够显著增加玉米叶绿素含量、株高和产量,但是硫膜对促进玉米叶绿素和株高增长作用有限,持续供氮是玉米叶绿素和株高增长的主要原因。在高、低量施肥水平下,硫包膜尿素处理比普通尿素处理2008年分别增产10.19%和15.23%,2009年分别增产10.94%和41.34%。低量施氮时硫膜能显著增产,而高量施氮时氮素的控释作用是显著增产的主要原因。     

新型氮肥肥料效应与氮素利用率对比研究

旱地和水田施用新型Ｎ肥试验结果表明,与普通尿素相比,施用腐殖酸尿素、木质素尿素和涂层尿素对水稻、小麦具有明显增产效果,稻谷增产率为１４％～１６％,小麦籽实增产率为４％～１７％,肥效为腐殖酸尿素≥木质尿素〉涂层尿素。水稻对肥料Ｎ素利用率提高７％,差异达显著水平,小麦对肥料Ｎ素利用率提高２．７％～１７％。     

不同新型肥料对江淮地区水稻生长及氮素吸收利用的影响

传统肥料具有利用率低、易污染环境等缺点,筛选适合江淮地区水稻施用的新型肥料对于提高水稻产量及氮素利用效率,减少氮损失等具有重要意义。本试验在等氮量200 kg/hm2施用条件下,设置控失尿素、含锌尿素和腐植酸尿素等不同新型肥料处理,同时以普通尿素作为对照,研究其对水稻产量构成因素、土壤理化性质以及氮素吸收利用效率等的影响。结果表明,施用含锌尿素和腐植酸尿素有利于提高水稻有效穗、穗粒数和千粒重,水稻产量较普通尿素处理分别增产5.6%和4.3%,而控失尿素一次性施肥处理水稻反而减产6.5%。腐植酸尿素、控失尿素和含锌尿素施用能够提高土壤有机质、全氮和碱解氮含量。不同类型新型肥料均能够增加水稻地上部氮素吸收量,尤其是腐植酸尿素和含锌尿素,两处理中氮肥偏生产力、氮肥农学效率和氮素表观利用率较普通尿素处理分别提高1.7～2.1 kg/kg、1.7～2.1 kg/kg和6.2%～12.8%。总体而言,江淮地区水稻种植中适宜施用腐植酸尿素和含锌尿素两种新型肥料,有利于提高水稻产量及氮素吸收利用效率。     

不同控释氮肥减量施用对双季水稻产量和氮素利用的影响

研究不同控释氮肥在减氮量施用条件下早、晚稻产量效应、氮素吸收利用、土壤氮素养分特性和养分释放规律的差异,为南方双季稻区控释氮肥在水稻高产节肥栽培上的应用提供参考。采用静水溶解试验和田间小区试验研究了2种控释氮肥(树脂包膜尿素和硫包膜尿素)的养分释放特性和在常规尿素施氮量基础上节氮15%和30%对早、晚稻产量、产量构成因素、氮素养分吸收利用及土壤氮养分含量的影响。结果表明,2种控释氮肥的氮素累积释放曲线均为"S"形,但在培养期间硫包膜尿素氮素累积释放率均高于树脂包膜尿素。在田间条件下,与常规尿素处理相比,早稻减氮15%和30%施用硫包膜尿素和树脂包膜尿素均表现为增产,而晚稻施硫包膜尿素增产,施树脂包膜尿素减产。株高、每穗实粒数、结实率和千粒重的增加是早、晚稻增产的主要原因。施用2种控释氮肥均能促进早、晚稻水稻植株氮素养分的吸收积累,施用相同种类控释氮肥早晚稻稻谷、稻草和植株氮养分积累量随施氮量提高而提高。减氮15%和30%施用2种控释氮肥有利于氮肥回收利用率、氮肥偏生产力和氮肥农学效率的提高,在同一施氮水平下,硫包膜尿素的提高效果优于树脂包膜尿素。常规尿素处理、减15%氮的2种控释氮肥处理均能保持较高的土壤氮素水平,减30%氮的控释氮肥处理土壤氮素肥力较试验前有所降低。适当降低氮用量施用控释氮肥,能促进双季水稻增产、增加氮素利用效率、维持或提高土壤氮素肥力和可持续生产力,控释氮肥养分释放规律的差异是导致其作用效应不同的主要原因。     

不同土壤肥力条件下水稻控释氮肥效应及其氮素利用的研究

田间试验在湖南的衡山县和长沙县进行,探讨了不同肥力水平水稻土上水稻控释氮肥对早、晚稻的增产效果和肥料氮利用率。结果表明,在肥力水平较低的水稻土上施用水稻控释氮肥对水稻的增产效果极为显著,应当增加施用量;在肥力水平较高的水稻土上,水稻吸收土壤氮较多,肥料氮的吸收量与增产作用自然减少,应适当减少施用量。不同肥力水平的土壤上水稻控释氮肥较等氮量尿素增产4.4%～16.4%。较无氮区增产13.8%～74.5%。水稻控释氮肥在不同肥力水平土壤中早、晚稻的利用率为69.7%～86.9%,平均比等N量尿素高37.6%,且水稻控释氮素利用率的高低与土壤肥力水平有关。水稻控释氮肥作一次性全量基肥施用,氮素生产效率明显高于尿素,是增产的主要原因。     

硫包衣尿素对水稻的增产效应及氮素利用率的影响研究

采用盆栽试验比较研究了等施用量及等氮量的硫包衣尿素(SCU)和普通尿素对水稻的增产效应以及氮肥利用效率的影响.结果表明:(1)在水稻生育前期,施用等氮量的SCU处理水稻生物量低于普通尿素处理;成熟期等氮量和等施肥量下,施SCU处理的水稻籽粒产量比普通尿素处理分别高出35.7%,19.3%,等氮量SCU处理水稻的千粒重较大而有效穗数较小;(2)SCU处理较普通尿素处理较大幅度地提高了水稻的氮肥利用率和水稻氮肥偏生产力,相同肥料施用量下,SCU氮肥利用率为47.35%～57.48%,平均比普通尿素氮肥利用率高出12.5%;氮肥偏生产力也比常规尿素处理平均提高了10%;相同施氮量下,SCU处理比普通尿素处理下的水稻氮肥利用率提高了17.12%,达到51.11%.     

施用包膜尿素对水稻生长和氮磷流失的影响

施用新型肥料是减少养分径流损失的重要途径。采用田间试验研究了施用包膜尿素对水稻生长和径流氮磷损失的影响,试验设置CK(习惯施肥)、PU1(减磷41%、减氮20%、施普通尿素)、PU2(PU1基础上减氮13%)、UR1(PU2基础上施包膜尿素)和UR2(UR1基础上减氮13%)5个处理。结果表明:PU1和UR1处理水稻氮磷含量与CK处理相近,PU1成熟期氮、磷总积累量比CK增加11.21,2.69kg/hm~2。PU1和UR1处理成熟期地上部生物量和籽粒产量高于CK处理,籽粒产量分别提高7.68%,5.77%。PU1、PU2、UR1和UR2处理径流总磷含量和累积流失量比CK处理低,减少13.18%~21.51%。施用包膜尿素(PU1、PU2)处理径流总氮、铵氮和硝氮含量低于施用普通尿素(CK、UR1、UR2)处理;稻田径流总氮、铵氮和硝氮累积流失量分别减少12.90%~26.91%,54.52%~49.38%和4.03%~15.95%,其中包膜尿素处理铵氮累积流失量显著(P0.05)小于普通尿素处理。施用包膜尿素和优化施肥能促进水稻对氮磷养分的吸收,提高水稻籽粒产量,显著减少稻田氮磷流失量,值得在水稻生产中推广应用。     

控释尿素不同施用条件下冬小麦产量和氮素利用效应

采用田间试验方法研究了控释尿素不同施用条件对冬小麦产量、氮素利用和经济效益的影响。试验共设7个处理,即CK(空白处理,不施氮肥)、100%PU10/0(普通尿素全量基施,N 240 kg·hm-2)、100%PU6/4(60%的普通尿素基施、40%的普通尿素于拔节期追施,N 240 kg·hm-2)、80%PU6/4(60%的普通尿素基施、40%的普通尿素于拔节期追施,N 192 kg·hm-2)、100%CRU(全量树脂包膜控释尿素基施,N 240 kg·hm-2)、80%CRU(80%树脂包膜控释尿素基施,N 192 kg·hm-2)和40%CRU+40%PU(40%树脂包膜控释尿素+40%的普通尿素基施,N 192 kg·hm-2)。结果表明,无论是产量效应还是氮素利用效应,树脂包膜控释尿素(CRU)处理总体优于普通尿素(PU)处理,尤其树脂包膜控释尿素和普通尿素配施(40%CRU+40%PU)效果最佳,以7 709 kg·hm-2的产量、36.44%的氮肥吸收利用率、15 946元·hm-2的相对净收入达到处理间最高水平。该处理在减少氮素投入量的情况下,不仅促进了冬小麦增产,而且显著提高了肥料的利用率,拥有较高的产投比。因此,树脂包膜控释尿素和普通尿素的配施处理(40%CRU+40%PU)是本试验条件下最优的氮肥处理。     

缓释氮肥运筹对稻麦轮作周年作物产量和氮肥利用率的影响

【目的】稻麦轮作是我国一种重要的农业种植模式。缓/控释肥作为高效兼环境友好的肥料类型,在多种作物单季种植上具有增产和提高肥效的作用,但是缓释肥在周年轮作体系中的肥效研究鲜有报道。因此研究稻麦轮作体系中的肥料施用模式,有助于提高稻麦产量,降低化肥用量,提高化肥利用率。【方法】本文通过稻麦轮作两周年四季作物的田间小区试验,以不施氮和习惯施氮为对照,研究了4种不同缓释肥减氮处理[进口树脂包膜尿素减氮24.3%、 国产硫包衣尿素减氮24.3%、 国产尿素加NAM(长效氮肥添加剂)减氮24.3%和国产尿素加NAM减氮10.8%]对水稻和小麦产量、 氮肥利用率、 第二周年稻麦收获后土壤养分含量和两周年土壤氮养分表观平衡的影响。【结果】与不施氮对照相比,所有施氮处理均提高了两周年稻麦4季作物产量,习惯施氮增产幅度最高,小麦的氮肥增产效果总体高于水稻,第二周年高于第一周年; 与当地习惯施氮量相比,所有的缓释氮肥减氮24.3%或10.8%处理均无显著降低两季小麦产量,进口树脂包膜尿素减氮24.3%处理和国产尿素加NAM减氮10.8%处理也无显著降低两季水稻产量,但是国产尿素加NAM减氮24.3%处理显著降低了第二季水稻产量,国产硫包衣尿素减氮24.3%显著降低了两季水稻产量; 与当地习惯施氮量相比,4个缓释氮肥减氮处理均提高了第一和第二周年氮肥利用率,显著降低了两周年稻田土壤养分氮盈余量,其中国产尿素加NAM减氮24.3%处理氮肥利用率较高,同时土壤氮盈余量较少,说明缓释氮肥减量在提高肥料利用率和降低氮的环境效应上具有一致的优势; 不同缓释氮肥对土壤养分含量的影响无明显规律性。【结论】在目前稻麦轮作体系中,缓释氮肥减施对小麦产量具有较好的稳定效果,但是个别缓释氮肥减施对水稻有减产风险,有必要依据稻田土壤氮素转化特点,研制水稻专用缓释氮肥,适当降低水稻季缓释氮肥的施用量。     

控释氮肥的氮素释放特征及其对水稻的增产效应

采用浸水释放试验和水稻田间试验方法研究了疏水性材料有机高分子聚合物包膜控释氮肥的释放特征,并以普通氮肥作对照研究了包膜控释氮肥对水稻的增产效应。研究结果表明,包膜控释氮肥养分释放达到了控释效果;与普通氮肥相比,施用控释氮肥有效提高了稻田土壤中碱解氮和铵态氮含量,促进了水稻植株和根系对氮素的吸收利用;两种处理的水稻总生物量差异不显著,但是在籽粒产量上,控释氮肥各处理两年的试验结果均比普通氮肥增产10%~40%,尤其是控释氮肥施用量为普通氮肥1/3时仍有增产效果,2003年高达15·1%;在当地稻田条件下,2002年控释氮肥氮素利用率最高达到了51·2%。采用疏水性包膜材料有机高分子聚合物包膜的控释氮肥比普通氮肥具有控制释放、促进水稻吸收氮素养分、提高籽粒产量和肥料的当季利用率与降低施肥量的优越性。     

延迟释放型包衣尿素对水稻生长和氮素吸收的影响

通过田间试验比较研究了普通尿素和延迟释放型包衣尿素在不同施用量、不同施肥方式(普通尿素为基肥+两次追肥;延迟释放型包衣尿素为接触施肥方式)条件下对移栽稻生长过程和氮素吸收的影响。结果表明,延迟释放型包衣尿素在比普通尿素施氮量(N150kg/hm2)减少30%(N105kg/hm2)和50%(N75kg/hm2)时,对水稻生长不会产生任何不良影响;由于包衣尿素在田间的养分释放动态与水稻对氮素的吸收规律吻合,施用包衣尿素的水稻产量、吸氮量和氮肥利用率均显著高于普通尿素处理,其中水稻产量增加12.7%～14.4%,吸氮量增加27.5%～32.7%;普通尿素和氮肥用量减少30%和50%的包衣尿素3个处理的氮肥利用率分别为19.9%、58.8%和89.9%。此外,施用包衣尿素比普通尿素水稻的子粒粗蛋白质含量提高9.2%～12.2%。     

太湖地区稻麦轮作条件下施用包膜尿素的氮素循环和损失

A field experiment was conducted to investigate the fate of ^15N-labeled urea and its residual effect under the winter wheat （Triticum aestivum L.） and summer maize （Zea mays L.） rotation system on the North China Plain. Compared to a conventional application rate of 360 kg N ha^-1 （N360）, a reduced rate of 120 kg N ha^-1 （N120） led to a significant increase （P 〈 0.05） in wheat yield and no significant differences were found for maize. However, in the 0-100 cm soil profile at harvest, compared with N360, N120 led to significant decreases （P 〈 0.05） of percent residual N and percent unaccounted-for N, which possibly reflected losses from the managed system. Of the residual fertilizer N in the soil profile, 25.6%-44.7% and 20.7%-38.2% for N120 and N360, respectively, were in the organic N pool, whereas 0.3%-3.0% and 11.2%-24.4%, correspondingly, were in the nitrate pool, indicating a higher potential for leaching loss associated with application at the conventional rate. Recovery of residual N in the soil profile by succeeding crops was less than 7.5% of the applied N. For N120, total soil N balance was negative; however, there was still considerable mineral N （NH4^＋-N and NO3^--N） in the soil profile after harvest. Therefore, N120 could be considered ngronomically acceptable in the short run, but for long-term sustainability, the N rate should be recommended based on a soil mineral N test and a plant tissue nitrate test to maintain the soil fertility.     

Rice responses to single application of coated urea on yield,dry matter accumulation,and nitrogen uptake in Southern China

Nitrogen is the most important element for rice (Oryza sativa L.) growth. However, excessive use of conventional urea leads to serious environmental problems in China. The objective of this study was to evaluate the release patterns of coated urea and response of rice to coated urea on dry matter accumulation, nitrogen uptake, and nitrogen use efficiencies on a clay soil. A two single-year experiment was carried out in southern China to evaluate two coated urea, polymer-coated urea (PCU) and polymer-sulfur coated urea (PSCU). Nitrogen (N) release patterns of PCU and PSCU were determined in the laboratory and in the field. The release rate of PSCU in the field was much higher than that in the laboratory. And PCU had a similar release pattern both in the field and laboratory. Compared with urea, rice fertilized with PCU and PSCU had similar dry matter accumulation, but higher grain yield and N use efficiencies. Recovery efficiency of PCU treatment reached 50% in 2012 and 60% in 2013, around 40% for PSCU, which was only 16% for single application of urea.     

复合控释材料的控释性能、肥效及其成膜特性研究

膨润土和木素制成复合控释材料用于包膜控释肥。电镜扫描研究表明,复合材料包膜厚度明显比单用膨润土处理薄,且膜孔隙量少,粒间堆积较紧密。土柱淋溶试验表明,膨润土及其复合材料包膜尿素50 d的氮素累积溶出率远低于普通尿素,三种包膜尿素处理分别比普通尿素降低8.61、14.01、15.22个百分点。两种复合材料包膜处理氮素累积溶出量分别比单用膨润土包膜处理降低11.31%、13.83%。盆栽、大田小区试验表明,复合材料包膜尿素可明显提高作物产量及氮肥利用率。膨润土与木素复合用作控释材料在研制适合我国国情的农用控释肥方面是可行的。     

不同缓/控释尿素在黄土台塬区春玉米的减量施用效果

本文通过田间试验研究了覆膜条件下,黄土台塬区6种缓/控释尿素减量施用对春玉米产量、氮肥利用率及氮素累积量等的影响,以确定适合本地区春玉米施用的缓/控释氮肥品种和用量,为本地区春玉米简约、高效施肥技术提供理论依据与技术支撑。以春玉米品种‘先玉335’为供试作物,设9个处理,分别为不施氮肥处理(N0)、农户常规施氮处理[普通尿素,施氮量225 kg(N)·hm~(-2),N225]、普通尿素减量处理[施氮量180 kg(N)·hm~(-2),N180]和6种缓/控释尿素减量处理[施氮量180 kg(N)·hm~(-2)]。6种缓/控释尿素分别为树脂尿素、控失尿素(CLU)、硫包衣尿素(SCU)、脲甲醛(UF)、多肽尿素和稳定尿素。在玉米各生育时期采集地上部植株样品及耕层(0~20 cm)土样,分析耕层土壤无机氮含量,测定玉米植株氮素累积量及产量。施用氮肥可显著增加玉米产量,增产率在28%~65%。与N225相比,N180玉米产量显著降低19.1%,但各缓/控释尿素(减量20%)一次基施没有明显的减产效应,其中SCU与CLU分别增产4.5%和2.7%。与农户常规施肥相比,N180降低经济效益2 051$·hm~(-2);各缓/控释尿素(除UF)可增加玉米氮素累积量、提高氮肥利用率2.26%~12.69%,经济效益提高347~1 747$·hm~(-2),氮肥利用率和经济效益以SCU、CLU最高。大喇叭口期—吐丝期,缓/控释尿素氮素释放量大可能是提高氮肥吸收和利用率的原因之一。控失尿素和硫包衣尿素等缓/控释尿素减量(20%)并一次性基施,能维持产量不降低,提高氮肥利用率和经济收益,节约劳动力成本,可作为黄土台塬区春玉米简约化减量化施肥的一种选项。     

EFFECT OF NEEM-OIL COATED PRILLED UREA WITH VARYING THICKNESS OF NEEM-OIL COATING AND NITROGEN RATES ON PRODUCTIVITY AND NITROGEN-USE EFFICIENCY OF LOWLAND IRRIGATED RICE UNDER INDO-GANGETIC PLAINS

The nitrogen (N) fertilizer-use efficiency (20–50%) is low in rice fields in India. The neem-oil coated urea can increase N-use efficiency in lowland rice, but the desirable thickness of neem-oil coating onto urea is not known yet. Therefore, field experiments were conducted during kharif (rainy) season years 2004 and 2005 at the Research Farm of Indian Agricultural Research Institute, New Delhi to know the suitable thickness of neem-oil coating on prilled urea (PU) for increased N-use efficiency and yield. The treatments comprised of twelve combinations of four N sources (PU coated with neem-oil thickness of 0, 500, 1000 and 2000 mg kg^?1 PU) and three N levels (50, 100, and 150 kg N ha^?1) plus a no-N control. Prilled urea (PU) refers to the common urea available commercially in prills, which is different from urea super granules. Application of urea coated with neem-oil thickness of 1000 mg kg^?1 PU resulted in significantly higher growth, yield parameters, grain yield, N uptake, and efficiency of aromatic rice (Oryza sativa L.) over uncoated PU. Nitrogen application at 122 kg ha^?1 was optimum for increased yield of rice. Nitrogen-use efficiency decreased significantly and substantially with each successive increase in levels of N from 50 to 150 kg ha^?1.     

Prediction of Yield and Nitrogen Uptake of Wheat from Net Nitrogen Balance after Rice in Rice–Wheat Cropping System

Net nitrogen (N) balance after rice (Oryza sativa L.) and its relationship with yield and N uptake of succeeding wheat crop was studied in a greenhouse. Three urea-enriched green manures, namely dhaincha (Sesbania aculeata L.), cowpea (Vigna unguiculata L.), and guar (Cyamopsis tetragonoloba L.) were compared with split application of urea in a rice–wheat cropping sequence. After rice, a negative N balance was measured in all treatments; however, the N balance values were greater with urea than with green manures. The N balance was positively correlated with the N content but negatively correlated with lignin content and carbon (C)–N ratio of the green manures. Lignin content was a better index than C/N ratio for predicting the net N balance, which described 82.3% of the total variations. Efficiency of residual N utilization by wheat could be determined by estimating the N balance after rice. Net N balance after rice can be used as a yardstick for the prediction of yield and N uptake by wheat crop.