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测土配方肥料用量中的养分平衡法 总被引:4,自引:0,他引:4
魏国庆 《农村实用科技信息》2007,(9):6
根据作物目标产量需肥量与土壤供肥量之差估算目标产量的施肥量,通过施肥补足土壤供应不足的那部分养分。施肥量的计算分式为:养分平衡法涉及目标产量、作物需肥量、土壤供肥量、肥料利用率和肥料中有效养分含量五大参数。土壤 相似文献
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[目的]研究生物质炭对沙质土壤理化性质及作物产量的影响.[方法]以绿豆-冬小麦种植体系为供试作物,以不施肥、农家肥和腐植酸肥料为对照,通过施用不同量的生物质炭,研究不同用量生物质炭对沙质土壤理化性质及作物产量的影响.[结果]土壤有机碳、阳离子交换量随生物质炭施用量的增加而明显增加;在短期内(0~14个月),高施入量生物质炭处理(>10;)对土壤各粒径形成具有显著影响(P<0.05),低施入量影响不明显(P>0.05);生物质炭处理对作物产量的影响表现为前季绿豆产量、生物量增幅明显(P<0.05),后季冬小麦产量、生物量与CK无明显差异(P>0.05).[结论]生物质炭作为培肥土壤的重要措施,能改善土壤理化性质,提高作物对土壤养分的利用率. 相似文献
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平顶山市小麦施肥指标体系技术研究 总被引:1,自引:1,他引:0
通过2005—2012年对土壤肥力监测点和田间肥效试验的研究,弄清了平顶山市土壤养分供应量、土壤养分校正系数、作物需肥规律和肥料当季利用率等重要的施肥参数,建立了不同施肥区小麦氮、磷、钾肥料效应模型,确定了作物最高产量施肥量、最佳产量施肥量,建立了小麦施肥指标体系。 相似文献
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通过2005—2012年对土壤肥力监测点和田间肥效试验的研究,弄清了平顶山市土壤养分供应量、土壤养分校正系数、作物需肥规律和肥料当季利用率等重要的施肥参数,建立了不同施肥区小麦氮、磷、钾肥料效应模型,确定了作物最高产量施肥量、最佳产量施肥量,建立了小麦施肥指标体系。 相似文献
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专用肥不同施用量对直播油菜生长和产量的影响 总被引:3,自引:0,他引:3
2014年10月在武汉市开展了直播油菜长效专用配方肥的大田试验,研究不同施肥量对油菜养分、生物量及产量构成和产量的影响。结果表明,施用油菜长效专用配方肥可以显著促进养分吸收,提高油菜生物量和养分积累量,增加有效株数和单株角果数,提高油菜子产量,比不施肥对照增产4.6~11.7倍;随着施肥量的增加,直播油菜地上部生物量和养分积累量先增加,在施肥量达750 kg/hm~2后保持稳定;净利润和产投比随着施肥量的增加,先增加后减小,在施肥量为900 kg/hm~2时达到最高。对于迟直播冬油菜,适当增加施肥量,可以在一定程度上通过增加有效株数和单株角果数来达到增产的目的本试验条件下油菜长效专用配方肥的适宜用量为885 kg/hm~2。 相似文献
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冬小麦氮素吸收及产量对喷灌施肥均匀性的响应 总被引:9,自引:1,他引:9
为了为喷灌均匀系数设计标准的制订提供更充分的依据,分别于2002~2003和2003~2004年度在北京进行了喷灌施肥均匀系数和施肥量对冬小麦氮素吸收量和产量影响的田间试验。试验中生育期平均喷灌均匀系数变化范围为72%~84%。除了基肥外,其它肥料利用喷灌系统施入,生育期平均喷灌施肥均匀系数变化范围为71%~85%,喷灌施肥量的变化范围为0~180kgN/hm2。试验结果指出,在所研究的均匀系数范围内,均匀系数对氮素吸收量和产量的影响不明显。施肥量对冬小麦产量的影响不明显,但秸秆全氮含量和氮素吸收量均随施肥量的增加呈现出增加趋势。本研究结果表明,对华北平原的冬小麦喷灌来说,目前我国采用的喷灌均匀系数不小于75%的设计标准不会对氮素吸收量和产量造成负面影响。 相似文献
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LI Jiu-sheng LI Bei SU Mei-shuang RAO Min-jie 《中国农业科学(英文版)》2005,4(9):693-699
Field experiments were conducted to investigate the effects of nonuniformity of sprinkler fertigation and the amount of fertilizers applied through fertigation on nitrogen uptake and crop yield during two growing seasons of winter wheat in 2002-2003 and 2003-2004 at an experimental station in Beijing. In the experiments, the seasonal averaged Christiansen irrigation uniformity coefficient (CU) varied from 72% to 84%. Except for the fertilizer applied before planting, fertilizer was applied with the sprinkler irrigation system with a seasonal averaged CU for fertigation varied from 71% to 85%. Three levels of fertilizer applied varying from 0 to 180 kg N ha^-1 were used in the experiments. The experimental results demonstrated that sprinkler fertigation uniformity had insignificant effects on nitrogen uptake and crop yield for the uniformity range tested. Also, the influence of fertilizer applied through sprinkler fertigation on crop yield was minor, while the total nitrogen content for stem and nitrogen uptake increased with increasing fertilizer applied. 相似文献
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针对洞庭湖区农户在粮食生产中的化肥施用量急剧增加,化肥利用率下降现象,运用生产函数模型和边际效益原理,考虑农户经济效益,分析粮食生产中化肥最佳投入量。结果表明,洞庭湖区化肥用量与粮食播面单产表现为一元二次函数关系:y=-0.066x2+32.493x+1 624,210.65 kg.hm-2是洞庭湖区目前生产条件下,兼顾生产、经济效益的适宜施肥量,相应的粮食产量为5 539 kg.hm-2。2002年洞庭湖区粮食生产实际施肥量超过农户经济最优施肥量30.21 kg.hm-2。 相似文献
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利用建立于1980年的砂壤质潮土肥料长期定位试验,对30年的肥效演变进行了研究与分析.结果表明,长期不同施肥处理,小麦、玉米历年产量顺序基本趋势为NPK> NP>N>CK;有机肥与化肥配合,作物产量大幅度提高,均高于相对应的化肥,且稳产性好.单施化肥前3年,氮肥养分效率明显,磷、钾肥效果不明显,3年后氮效下降,而磷、钾效上升;磷肥连续施用有明显的残效迭加效应,比一次足量施用具有更好的增产效果,且小麦的磷肥肥效高于玉米;砂壤质潮土增施钾肥有明显和稳定的增产效果,配施有机肥后肥效明显下降.有机肥与化肥配合,有机肥肥效随N、P、K配合比例的增加而降低,有机肥长期施用有明显的后效.养分供应不协调会引起作物缺素而严重影响生长发育,以致减产. 相似文献
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为指导大豆-油菜轮作中硼肥的合理高效施用,采用田间随机区组试验研究硼砂(B,Na2B4O7·10H2O)、Etibor-48(EB,Na2B4O7·5H2O)和Colemanite(CB,Ca2B6O11·5H2O)三种硼肥在大豆-油菜轮作中的肥效及其后效对作物产量的影响。试验设3个施硼水平,分别为不施硼(-B)、正常施硼量(纯硼用量1. 70kg/hm~2,其中B1,施B 15 kg/hm~2; EB1,施EB 11.3 kg/hm~2; CB1,施CB 16.2 kg/hm~2)和两倍施硼量(纯硼用量3.40 kg/hm~2,其中B2,施B 30 kg/hm~2; EB2,施EB 22.7 kg/hm~2; CB2,施CB 32.4 kg/hm~2),共7个处理。结果表明,按正常施硼量基施B、EB和CB,第一季大豆分别增产9.4%、9.1%和10.0%;两倍施硼量时B2和EB2处理大豆产量略有降低,CB2处理大豆增产9.1%,但所有试验处理产量均无显著差异,表明在土壤有效硼含量0.49 mg/kg时,大豆施硼增产效果不显著。基施硼肥能较好地改善土壤有效硼,在一定程度上提高后两季作物产量,第二季油菜增产7.3%~36.2%,同一种硼肥两倍施硼量处理比正常施硼量增产幅度更大;第三季大豆增产9.0%~22.3%,同一种硼肥正常施硼量处理时增产效果更好。由不同硼肥种类和施肥量下大豆-油菜轮作中三季作物的增产情况得出,在土壤有效硼0.49 mg/kg条件下,基施硼肥用量为纯硼用量1.70 kg/hm~2。具有较强缓释性的硼肥EB和CB在三季作物中均有较好的增产效果,正常施硼条件下EB效果优于CB,两倍施硼量条件下CB效果更好。结果将为大豆-油菜轮作模式下不同硼肥的合理高效施用提供参考。 相似文献
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纳米增效肥料对冬小麦产量及品质影响的研究 总被引:1,自引:0,他引:1
[目的]探索纳米增效肥料对冬小麦的应用效果。[方法]通过不同地域的田间试验,研究纳米增效肥料对冬小麦产量及品质的影响。[结果]施用纳米增效肥料,小麦的增产幅度在12.34%~19.76%。纳米增效肥料使小麦蛋白质含量减少7.52%,脂肪含量增加33%。高量尿素肥料比低量型纳米增效肥料增产2.31%,但低量型纳米增效肥料比高量尿素肥料节省肥料用量为150 kg/hm2,有明显省肥效果;中量型纳米增效肥料为秋季一次性施肥,比高量尿素肥料节省春季两次追肥工序,增产17.0%,还有省工效果。[结论]该研究为纳米材料在肥料应用方面的机理研究奠定了基础。 相似文献
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豫西地区不同类型农田化肥增产效益及增产潜力研究 总被引:1,自引:0,他引:1
【目的】探讨化肥在豫西地区不同地形农田的增产效益与增产潜力,为引导和实现化肥的优化配置和合理施用、提高豫西地区粮食产量提供参考依据。【方法】采用田间试验,研究了豫西地区平川地、坡平地、坡地等3种典型地形农田化肥施用量对作物产量的影响;并对3种典型农田化肥消费量与粮食产量的多年统计资料进行了分析,提出了二者之间的关系,并由此对豫西地区粮食增产潜力进行了预测。【结果】作物单产以平川地最高,坡平地次之,坡地最低。尽管在3种类型农田上使用化肥均可大幅度增加作物产量,但化肥增产效益以坡地最高,坡平地次之,平川地最低;对3种典型地形农田化肥消费量与粮食产量多年统计资料的分析也获得相同结论。根据田间试验结果对未来豫西地区粮食产量及增产潜力进行的预测表明,当采用本研究中最大施肥量时,豫西地区粮食总产量可达到4.24×109 kg,是2003年该地区粮食产量的2.1倍;并预测在增加粮食产量中,坡地贡献率占50.1%、坡平地占33.7%、平川地占16.2%,坡地和坡平地粮食生产对该地区粮食总产量具有决定作用。【结论】豫西地区3种典型地形农田中化肥增产效益存在差异,以坡地化肥增产效益最大。因此,加强坡地化肥投入,可有效地提高本区粮食总产量,对今后本区粮食的增产具有重要意义。 相似文献
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Fate of Nitrogen from Organic and Inorganic Sources in Rice-Wheat Rotation Cropping System 总被引:1,自引:0,他引:1
The lower availability of N is one of the most important limiting factors impeding crop yield enhancement among the various factors that affect crop yield under the multiple-cropping agroecosystem in China.In this study,the recovery of a single application of 15N-labeled fertilizer or residues in rice-wheat cropping system was determined,in order to provide theoretical foundation for the nitrogen management in sustainable agricultural production.A continuous trace experiment was conducted for 15N microplots by using randomized block design with four treatments and four replications(T1 = 15N-labeled fertilizer with crop residue incorporation,T2 = 15N-labeled residues,T3 = 14N fertilizer to generate unlabeled crop residue,and T4 = 15Nlabeled fertilizer without crop residue incorporation).Our results showed that,on average,17.17 and 12.01% of crop N was derived from N fertilizer and 15N-labeled residues,respectively during the first growing season,suggesting that approximately 82.83 or 87.99% of crop N was derived directly from soil N pool.There was a larger difference in the 15N recovery pattern in crop when N was applied as fertilizer or residues,i.e.,most of crop N derived from N fertilizer was absorbed in the first growing season(92.04%),and the relevant value was 38.03% when 15N-labeled residues were applied.This implied that most of N fertilizer was recovered in the present cropping season,while a longer residue effect will be found for 15N-labeled residues.Thus,the average recovery of N fertilizer and N residue in the soil after the first growing season was 33.46 and 85.64%,respectively.The recovery of applied N in soil when N was applied as residues was significantly higher than that when N was applied as fertilizer.There was a larger difference in the total 15N recovery in plant and soil when N was applied as fertilizer or residues.By the end of the fifth or sixth cropping season,the total 15N recovery in plant and soil when N was applied as fertilizer or residues were estimated at 64.38 and 79.11%,respectively.On the contrary,there was little difference between the practices of residue incorporation and residue removal following the N fertilizer application.N fertilizer appeared to be more readily available to crops than residue-N,and residue-N replenished soil N pool,especially N in soil organic matter,much more than N fertilizer after six growing seasons.Therefore,residue-N is a better source for sustaining N content of soil organic matter.Thus,one possible management practice is to use both organic and inorganic N sources simultaneously to improve the use efficiency of N while protecting the sustainability of soil. 相似文献