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明确减量优化施肥和增施钙镁肥对平和琯溪蜜柚产量、品质和碳排放的影响,为琯溪蜜柚绿色提质增效施肥技术提供科学依据。在蜜柚主产区平和县坂仔镇布置6个田间试验点,设置农户常规施肥(FFP)、优化施肥(OPT,减量施用氮磷钾肥)和优化施肥+钙镁肥(OPT+Ca Mg)处理,研究不同施肥处理对蜜柚产量、品质、肥料偏生产力、经济效益和碳排放的影响。结果表明:①与FFP处理相比,OPT和OPT+Ca Mg处理减肥不减产,且OPT+Ca Mg处理可以显著降低果实的可滴定酸含量(降幅7.0%)、提高固酸比(增幅8.8%),部分试验点可溶性固形物含量存在显著差异,但平均可溶性固形物含量无显著差异,不同处理的果实可食率无显著差异; 相似文献
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氮磷减量施肥对琯溪蜜柚果实产量和品质的影响 总被引:6,自引:5,他引:6
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氮肥优化管理协同实现水稻高产和氮肥高效 总被引:17,自引:4,他引:13
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通过主成分分析和综合得分来评判不同比例有机肥替代化肥对柑橘产量和品质的影响,同时探究有机肥替代在减少柑橘生产周期碳排放方面的潜力,为其科学减肥、合理增施有机肥和柑橘增产增效提供理论依据。于2018—2019年在奉节柑橘主产区进行了为期两年的田间试验,设置农户常规施肥(FP)、优化施肥(OPT)、优化施肥+有机替代氮肥20% (OPT+N20)、优化施肥+有机替代氮肥30% (OPT+N30)、优化施肥+有机替代氮肥50% (OPT+N50)5个处理,比较不同处理之间对脐橙果实产量、品质及橘园土壤肥力和环境代价的影响。结果表明,(1)与FP相比,优化施肥和有机无机配施处理能够提高脐橙产量和改善果实品质,2018年各处理间在产量上没有显著差异,2019年OPT较FP产量显著提高22.3%,OPT+N20、OPT+N30、OPT+N50产量较FP分别增产27.3%、28.3%、34.1%,同时有机无机配施较FP能够显著降低果实可滴定酸含量,提高果实可食率、可溶性固形物含量和固酸比,还可以改善果皮亮度和色泽。(2)有机无机配施较FP可明显提高土壤pH,增加土壤有效养分,维持土壤养分平衡。(3)优化施肥和有机无机配施较FP可显著降低温室气体排放强度和提高经济效益,有机无机配施处理碳足迹较FP分别提高 44.20%、48.10% 和59.23%,产投比分别提高63.64%、51.82% 和39.70% 。(4)通过对脐橙产量、果实品质等因素综合分析,各处理得分从大到小排序为OPT+N30>OPT+N50>OPT+N20>OPT>FP,即各有机无机配施的肥效响应优于FP处理,其中优化施肥配合有机肥替代氮肥30% 时对果实品质提升效果最优,化肥投入的减少和有机肥的施用能够显著减少脐橙在生产生命周期中碳排放的同时提高经济效益。因此,在优化施肥的基础上配施有机肥可以提高脐橙产量、品质,减少果园碳排放。 相似文献
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通过大田试验,研究优化减量施肥对香蕉生长、产量、品质及养分吸收利用的影响,以期为广东雷州半岛香蕉主产区优化施肥提供依据。结果表明:施肥能显著提高香蕉的产量,优化减量施肥香蕉的株高、假茎围、倒三叶叶长优于农民传统施肥。与农民传统施肥(FP)处理相比,高产高效(HH)和改善品质(HQ)处理香蕉产量分别提高9.3%、8.4%,产量有增加趋势。高产高效和改善品质处理能大幅提高香蕉氮、磷、钾肥利用率,提高的百分点分别为3.06~10.39、1.86~5.14、6.07~18.98。在本试验条件下,施肥对香蕉果实品质有一定影响,优化减量施肥能提高香蕉果实品质。因此,优化施肥在我国热带地区具有较大的应用价值。 相似文献
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我国西南地区蔬菜系统氮肥用量大、产量水平不高,优化氮肥管理和筛选适宜的蔬菜品种对西南地区蔬菜提质增产具有重要的意义。但是目前基于优化氮管理策略对该地区不同蔬菜类型的影响尚不清楚,因此,以西南地区典型的6个大白菜品种为研究对象,设置不施氮和优化施氮两个氮水平,明确优化氮管理对不同大白菜产量、氮肥利用率、品质的影响,并比较不同品种间的差异,以期筛选出适宜西南地区种植的高产优质大白菜品种,为西南地区乃至全国大白菜种植提供参考。结果表明,与不施氮肥处理相比,优化施氮条件下,大白菜总产量提高了130%~289%,显著提高了植株养分吸收,同时维生素C含量提高了5.0%~38.3%,类黄酮含量降低了4.5%~275.0%,显著提高了大白菜营养质量指数。优化氮肥管理条件下,不同大白菜品种对氮肥的响应程度不同,山东四号和丰抗70大白菜品种对氮肥响应程度最大,属于氮素高效型品种,其产量、氮肥利用率、氮素累积量、磷素累积量和维生素C含量均分别显著高于其他品种4.0%~42.0%、44%~225%、10.6%~61.4%、12.9%~52.6%和1.2%~8.3%,且对中微量营养元素也有较好地吸收,其中丰抗7... 相似文献
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不同肥料用量和配比对西瓜产量、品质及养分吸收的影响 总被引:12,自引:1,他引:11
为探索西瓜的适宜施肥量和养分配比, 通过田间试验, 研究了不同肥料用量和配比对西瓜产量、品质及养分吸收的影响。结果显示: 与习惯施肥处理相比, 减氮磷钾处理的西瓜产量、Vc含量分别增加0.77%、17.18%, 还原糖含量、硝酸盐含量分别减少12.56%、27.94%; N、P2O5、K2O养分总量相同、比例不同的3个处理间相比, 减氮磷增钾处理的西瓜产量、Vc含量、还原糖含量均最高, 硝酸盐含量最低; 习惯施肥、减氮 磷钾、减氮磷、减氮磷增钾4个处理的西瓜秧中N、P2O5、K2O含量比例分别为: 1︰0.18︰2.26、1︰0.22︰2.66、1︰0.26︰2.75、1︰0.19︰2.46; 西瓜皮中N、P2O5、K2O含量比例分别为: 1︰0.34︰2.78、1︰0.34︰2.60、 1︰0.30︰2.37、1︰0.29︰2.14。综合考虑各项指标, 在本试验条件下, 施肥总量比习惯施肥量减少36%、N︰P2O5︰K2O为1︰0.41︰1.28是西瓜最优施肥处理。 相似文献
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通过田间膜下滴灌栽培,研究了施肥对棉花养分吸收分配规律、肥料利用率、棉花产量和经济效益的影响。结果表明,与农民习惯施肥(FP)相比,推荐施肥(OPT)处理的养分吸收、生殖器官中分配总量和肥料利用效率有不同程度的提高,其中氮肥和磷肥肥料利用效率分别提高29.5和10.8个百分点,氮肥和磷肥农学利用效率分别提高0.4和0.7 kg·kg~(-1)。且OPT处理增产4.5%,增加农民收入774元·hm~(-2),该地区棉花产量限制因子依次为氮、磷、钾。说明平衡施肥的氮、磷、钾养分投入基本合理。 相似文献
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Lu Yu Xing Lu Yan He Philip C. Brookes Hong Liao Jianming Xu 《Journal of Soils and Sediments》2017,17(3):599-610
Purpose
Soil acidification is universal in soybean-growing fields. The aim of our research was to evaluate the effects of soil additives (N fertilizers and biochar) on crop performance and soil quality with specific emphasis on ameliorating soil acidity.Materials and methods
Four nitrogen treatments were applied as follows: no nitrogen (N0), urea (N1), potassium nitrate (N2), and ammonium sulfate (N3), each providing 30 kg N ha?1. Half plot area of the N1, N2, and N3 treatments was also treated with biochar (19.5 t ha?1) to form N-biochar treatments (N1C, N2C, N3C). Both bulk and rhizosphere soils were sampled separately for the following analyses: pH, exchangeable base cations (EBC), exchangeable acidity (EA), total inorganic N (IN), total N (TN), and microbial phospholipid fatty acids (PLFAs). Soybean biomass and nutrient contents were also determined. Correlation analysis was applied to analyze the relationships between soil chemical properties and soybean plant parameters.Results and discussion
With N-biochar additions (N1C, N2C, N3C), soil chemical properties changed as follows: pH increased by 0.6–1.2 units, EBC, IN, and TN increased by 175–419, 38.5–54.7, and 136–452 mg kg?1, respectively, and PLFAs increased by 23.6–40.9 nmol g?1 compared to the N0 in the rhizosphere. Microbial PLFAs had positive correlations with soil pH; EBC; exchangeable K, Ca, Na, and Mg; TN; IN; NH4 +; and NO3 ? (r?=?0.66–0.84, p?<?0.01). There were negative correlations between PLFAs and EA or exchangeable Al (r?=??0.64, ?0.66, p?<?0.01), which indicated that the additives increased microbial biomass by providing a suitable environment with less acid stress and more nutrients. The additives increased soil NH4 + and NO3 ? by promoting soil organic N mineralization and reducing NH4 + and NO3 ? leaching. Moreover, the soybean seed biomass and the nutrient contents in seeds increased with N-biochar additions, especially in the N3C treatment.Conclusions
N-biochar additions were effective in ameliorating soil acidity, which improved the microenvironment for more microbial survival. N-biochars influenced N transformations at the plant–soil interface by increasing organic N mineralization, reducing N leaching, and promoting N uptake by soybeans. The soil additive ammonium and biochar (N3C) were best in promoting soybean growth.13.
探究秸秆还田后秸秆磷素替代化学磷肥的适宜比例,为秸秆还田后磷肥的科学施用提供理论依据。采用田间试验方法,研究了秸秆粉碎旋耕还田条件下配方施肥及磷肥减量10%、20%和30%对小麦磷素吸收累积量、产量及养分利用效率的影响。在秸秆还田的基础上,磷肥施用量减少10%~30%时,小麦植株的磷素含量和累积量随着磷肥施入量的减少先增加后减少,土壤有效磷含量先减少后增加;当磷肥减量20%时,小麦植株的磷素累积量最高(6.38 mg/株),而土壤有效磷含量最低(24.56 mg/kg)。磷肥施用量减少10%~30%时,小麦有效穗数、每穗粒数、千粒重和产量均随着施用量的减少而呈现先增后减的趋势。秸秆还田基础上磷肥减量低于20%时,小麦产量差异不显著(P0.05),且磷肥吸收利用效率较配方施肥分别提高16.7%、125.9%和1.9%。秸秆还田条件下磷肥减量20%以内可提高小麦的磷肥贡献率、磷肥农学效率、磷肥偏生产力和磷肥吸收利用率,且对小麦产量影响不显著(P0.05)。总体而言,水稻秸秆还田后,在有效磷较为丰富(20 mg/kg)的土壤上减少磷肥用量20%以内,不会影响当季小麦的正常生长和产量。 相似文献
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Yujiao DONG Fanwen ZENG Jiang YUAN Guangbin ZHANG Yuanxue CHEN Xuejun LIU Padilla HILARIO Tusheng REN Shihua LU 《土壤圈》2020,30(6):863-873
The hilly area of Southwest China is a typical rice production area which is limited by seasonal droughts and low temperature in the early rice growth period. A field experiment was conducted on three typical paddy fields (low-lying paddy field, medium-elevation paddy field, and upland paddy field) in this region. Nitrogen (N) treatment (180 kg N ha-1 year-1) was compared to a control treatment (0 kg N ha-1 year-1) to evaluate the effects of integrated rice management (IRM) on rice growth, grain yield, and N utilization. Integrated rice management integrated raised beds containing plastic mulch, furrow irrigation, and triangular transplanting. In comparison to traditional rice management (TRM), IRM promoted rice tiller development, with 7-13 more tillers per cluster at the maximum tillering stage and 1-6 more tillers per cluster at the end of tillering stage. Integrated rice management significantly increased the rice aboveground biomass by 34.4%-109.0% in different growth periods and the aboveground N uptake by 25.3%-159.0%. Number of productive tillers significantly increased by 33.0%, resulting in a 33.0% increase in grain yield and 8.0% improvement of N use efficiency (NUE). Grain yields were significantly increased in all three paddy fields assessed, with IRM being the most important factor for grain yield and productive tiller development. Effects of paddy field type and N level on N uptake by aboveground plants were reflected in the rice reproductive growth period, with the effects of IRM more striking due to the dry climate conditions. In conclusion, IRM simultaneously improved rice yield and NUE, presenting a valuable rice management technique in the paddy fields assessed. 相似文献
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减量施肥下小麦产量、肥料利用率和土壤养分平衡 总被引:21,自引:7,他引:21
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我国马铃薯产量和化肥利用率区域特征研究 总被引:3,自引:2,他引:3
【目的】本研究汇总马铃薯(Solanum tuberosum L.)田间试验数据,分析中国马铃薯产区施用氮、磷和钾肥的马铃薯产量(可获得产量、产量反应和相对产量)及肥料利用率特征,以期为优化马铃薯养分管理奠定理论基础。【方法】本试验数据来源于:1)国际植物营养研究所(International Plant Nutrition Institute, IPNI)1992—2012年间在我国马铃薯主产区开展的117个田间试验;2)采用字段或字段组合(马铃薯,马铃薯+产量,马铃薯+利用率,等)在中国知网数据库(China National Knowledge Infrastructure, CNKI)检索的2000—2016年间407篇马铃薯田间试验中文文献。将我国马铃薯种植区分为东北(NE)、西北(NW)、华北(NC)、长江中下游(MLYR)、东南(SE)和西南(SW)产区。试验处理包括氮磷钾肥优化处理(OPT)、不施氮(OPT-N)处理、不施磷(OPT-P)处理和不施钾(OPT-K)处理,研究我国马铃薯不同种植区优化施肥下马铃薯可获得产量,氮、磷和钾肥产量反应,相对产量,农学效率,偏生产力和养分回收率特征。【结果】我国马铃薯施用氮、磷和钾产量反应平均分别为8.6、5.9和6.6 t/hm^2,氮素是马铃薯产量的首要限制因子,东北地区产量及施氮产量反应平均值显著高于其他地区(P <0.05)。马铃薯施氮、磷、钾相对产量平均值分别为71.0%、79.4%、77.2%,其中,华北地区施氮相对产量平均值最高,东南地区施磷相对产量平均值最高,西北地区施钾相对产量平均值最高。马铃薯氮、磷和钾肥用量平均分别为N 164.2 kg/hm^2、P_2O_5 100.3 kg/hm^2和K_2O 188.0 kg/hm2,东南地区氮和钾肥用量平均值显著高于其他地区(P <0.05),东北地区施氮量和施钾量较低,东北、西南和西北施磷量高于其他地区,长江中下游施磷量最低。马铃薯氮、磷和钾素农学效率平均值分别为52.2 kg/kg N、58.5 kg/kg P_2O_5和42.3 kg/kgK_2O,东北地区氮和钾素农学效率平均值显著高于其他地区(P <0.05)。马铃薯氮、磷和钾素偏生产力平均值分别为205.7 kg/kg N、339.0 kg/kg P_2O_5和209.2 kg/kg K_2O,东北地区氮和钾素偏生产力平均值分别显著(P <0.05)高于其他地区。马铃薯氮、磷和钾素养分回收率平均值分别为36.4%、18.5%和27.6%,东南地区磷素回收率平均值显著高于其它地区(P <0.05)。【结论】我国马铃薯不同产区产量、施肥量和肥料利用率差异较大,氮素是马铃薯产量的第一限制因子,华北地区氮素、东南地区磷素和西北地区钾素土壤基础养分供应能力相对较高,不同地区马铃薯需要因地制宜,制定有针对性的马铃薯优化施肥方案。 相似文献
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生态集约化养分管理对春玉米产量和氮素利用率的影响 总被引:4,自引:0,他引:4
通过两年田间试验,研究了吉林玉米带不同氮素管理措施对春玉米产量、氮素吸收、氮素平衡状况以及经济效益的影响。两年的结果表明:与农民习惯施肥(FP)相比,生态集约化养分管理措施(EI)在减少氮肥用量28%的情况下,并未影响作物的产量和氮素吸收,而其氮素回收率,农学效率,偏生产力和经济效益却分别提高了48.1%、56.9%、43.8%和11.0%; 第一年不施氮肥第二年补施氮肥不会影响第二年春玉米产量和氮肥利用率。在氮素输出项中,EI处理两季作物氮素总表观损失仅为97 kg/hm2,而FP处理高达226 kg/hm2。因此,在考虑高产的基础上兼顾保护环境的要求,基于氮肥农学效率、作物目标产量和作物施肥反应的生态集约化养分管理措施是一种较为理想的氮素管理措施。 相似文献
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Jashanjot Kaur Harinderjit Kaur Pritpal Singh 《Communications in Soil Science and Plant Analysis》2020,51(11):1483-1498
ABSTRACT The present studies were conducted to evaluate the effect of different nutrient management practices under two tillage options in wheat. The experiments were laid out in split-plot design with a combination of two varieties (WH 1105 and HD 2967) and two tillage options (Conventional and No tillage) in the main plot and six precision nutrient management practices [absolute control, site-specific nutrient management with Nutrient Expert for wheat (SSNM-NE)(170 kg nitrogen (N)/ha), SSNM NE+GreenSeeker (GS)(153/158 N kg/ha), N120 (120 kg N/ha) before irrigation, N120 after irrigation and N Rich (180 kg N/ha)] in subplot replicated thrice. The grain yield and quality characters in no tillage (NT) and conventional tillage (CT) were similar but agronomic efficiency was higher in NT. Both the varieties (WH 1105 and HD 2967) gave similar grain yield and quality. Wheat variety WH 1105 recorded significantly higher sodium dodecyl sulfate sedimentation (SDS) and gluten index. The treatment SSNM NE+GS had resulted in 107.1% higher grain yield than no nitrogen control but similar to enriched N plot (180 kg N/ha). The grain protein, SDS and gluten index in need-based nutrient management (SSNM+GS) treatment were found to be similar as recorded in SSNM-NE (170 kgN/ha) and N enriched plot (180 kg N ha?1). The agronomic efficiency and recovery efficiency in SSNM+GS were also better than SSNM NE. 相似文献