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^(15)N同位素标记氮肥减施棉田养分利用效率分析
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作者 成志慧 李红梅 +3 位作者 赵红梅 涂永峰 宋海英 盛建东 《新疆农业科学》 CAS CSCD 北大核心 2024年第1期34-41,共8页
【目的】研究氮肥减施对棉花氮素吸收、转运及利用效率的影响,为绿洲滴灌棉田氮肥合理施用提供参考依据。【方法】利用^(15)N同位素示踪技术,采用盆栽试验,设置不施氮肥(N_(0))、氮肥减施(N_(1),225 kg/hm^(2))、当地推荐施肥(N 2,300 k... 【目的】研究氮肥减施对棉花氮素吸收、转运及利用效率的影响,为绿洲滴灌棉田氮肥合理施用提供参考依据。【方法】利用^(15)N同位素示踪技术,采用盆栽试验,设置不施氮肥(N_(0))、氮肥减施(N_(1),225 kg/hm^(2))、当地推荐施肥(N 2,300 kg/hm^(2))3个处理,研究氮肥减施对棉花生物量、氮素吸收量、肥料氮吸收量以及氮肥利用率的影响。【结果】氮肥减施处理的棉花干物质积累量和氮素吸收量均显著高于不施氮处理(N_(0)),而与当地推荐施肥处理差异均不显著;氮肥减施处理棉花壳、籽的干物质量和籽的氮素吸收量均显著高于当地推荐施肥处理,分别增加了7.02%、6.81%和16.59%;2个施肥处理棉籽的肥料氮(^(15)N)积累量占比最高,占全株的26.02%~35.99%,其次为叶(22.40%~23.81%)和茎(14.48%~18.98%),絮中最少(3.05%~6.62%);氮肥减施处理生殖器官的肥料氮吸收量比当地推荐施肥处理高19.02%;2个施肥处理的棉株吸收的氮素来源于肥料氮的比例(Ndff%)为21.14%~21.70%;氮肥减施处理的氮肥利用率和表观利用率均显著高于当地推荐施肥处理,分别增加2.36%和3.12%。【结论】氮肥减施(225 kg/hm^(2))可以显著提高棉籽中的干物质量、氮素吸收量、肥料氮(^(15)N)吸收量、Ndff%以及棉花整株的氮肥利用率,在确保棉花产量不降低的前提下,适度的减少化肥施用量是提高化肥利用率最有效的措施之一。 展开更多
关键词 棉花 ^^(15)N示踪技术 氮素吸收量 ^肥料氮(^(15)N)吸收量 氮肥利用率
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基于^(15)N稳定同位素示踪技术的植物组合湿地对氨氮去除途径研究
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作者 徐英华 李希 +2 位作者 谢陈 李裕元 吴金水 《生态与农村环境学报》 CAS CSCD 北大核心 2024年第7期933-942,共10页
人工湿地是生态修复受污染水体的重要手段,对氮的去除效果显著,但不同植物湿地对氮去除效果差异明显,因此不同类型植物组合后的湿地对氮去除效果及去除途径值得进一步研究。通过室内控制试验,以常见浮水植物绿狐尾藻(Myriophyllum elati... 人工湿地是生态修复受污染水体的重要手段,对氮的去除效果显著,但不同植物湿地对氮去除效果差异明显,因此不同类型植物组合后的湿地对氮去除效果及去除途径值得进一步研究。通过室内控制试验,以常见浮水植物绿狐尾藻(Myriophyllum elatinoides)和挺水植物梭鱼草(Pontederia cordata)为研究对象,利用^(15)N稳定同位素示踪技术探究绿狐尾藻、梭鱼草及绿狐尾藻+梭鱼草植物组合对氨氮(NH_(4)^(+)-N)的去除途径。结果表明,绿狐尾藻+梭鱼草植物组合处理相较于单一绿狐尾藻和梭鱼草处理对氮的脱除量分别提高1.8%和3.6%。基于^(15)N质量平衡,绿狐尾藻、梭鱼草和绿狐尾藻+梭鱼草植物组合处理氮去除途径的底泥吸附贡献分别为8.30%、7.96%和6.94%,植物吸收贡献分别为41.76%、35.34%和48.67%,微生物作用去除贡献分别为49.94%、56.71%和44.39%。微生物作用在湿地脱氮过程中占主导地位。相较于单一植物湿地,植物组合湿地对氮的去除效果得到提升,同时促进了植物对水体NH 4+-N的吸收。该研究有助于更好地理解植物组合湿地对氨氮的脱除途径。 展开更多
关键词 人工湿地 植物组合 氨氮 ^^(15)N同位素
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应用^(15)N自然丰度值揭示不同氮源对设施土壤氨挥发的贡献
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作者 田峪萍 双睿辰 +2 位作者 刘原庆 王立刚 孟凡乔 《植物营养与肥料学报》 CAS CSCD 北大核心 2024年第2期242-251,共10页
【目的】我国设施蔬菜生产中普遍存在着氮肥施用过量、氨气(NH_(3))挥发损失严重等问题。通过^(15)N自然丰度法,研究不同肥料类型对土壤NH_(3)挥发的影响,并定量分析其贡献率,为实现降低氮素损失的氮肥科学管理提供依据。【方法】开展为... 【目的】我国设施蔬菜生产中普遍存在着氮肥施用过量、氨气(NH_(3))挥发损失严重等问题。通过^(15)N自然丰度法,研究不同肥料类型对土壤NH_(3)挥发的影响,并定量分析其贡献率,为实现降低氮素损失的氮肥科学管理提供依据。【方法】开展为期40天的番茄盆栽培养试验,供试土壤为棕壤,未施过肥也未种植过作物,供试作物为番茄。试验设置4个处理,即不施氮肥(CK)和等量施氮(N3 g/pot)条件下单施鸡粪有机肥(M)、单施尿素(U)、有机肥半量替代尿素(MU)处理。利用被动采样器测定了土壤NH_(3)挥发速率和累积排放量,并借助^(15)N自然丰度方法估算肥料和土壤氮对NH_(3)挥发的贡献。【结果】基肥施用后3~6天内,NH_(3)挥发速率迅速增加并达到高峰,之后逐渐降低,直至第33天恢复到施肥前水平。与MU和U处理相比,M处理的净NH_(3)挥发累积量分别显著降低了60.8%和63.1%(P<0.05),MU较U处理的NH_(3)减排效果不显著(4.62%),相应的NH_(3)挥发系数分别为1.37%(U)、1.29%(MU)及0.51%(M)。施肥处理中,δ^(15)N-NH_(3)值随NH_(3)挥发的进行而迅速降低,然后逐渐增加至施肥前水平,M处理的δ^(15)N-NH_(3)均值高于MU和U处理。^(15)N同位素混合方程计算显示,在番茄生产中肥料对NH_(3)挥发的贡献比例为:M处理中鸡粪贡献30.5%,U处理中尿素贡献53.1%,MU处理中鸡粪和尿素分别贡献28.6%和56.6%。【结论】等量施氮条件下,单施鸡粪产生的NH_(3)挥发量远低于尿素,鸡粪和尿素等量氮配施对NH_(3)挥发的减排效果不显著。根据同位素分馏效应计算结果,单施鸡粪、尿素对土壤NH_(3)挥发源的贡献比例分别为30.5%、53.1%,鸡粪和尿素配施时二者对土壤NH_(3)挥发源的贡献比例分别为28.6%、56.6%,贡献比例与单施差异不大。因此,控制化肥氮施用量是减少NH_(3)挥发的关键。 展开更多
关键词 氨挥发 ^^(15)N自然丰度 激发效应 设施番茄 分馏效应
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二氧化碳倍增对植物叶片^(15)N自然丰度的影响
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作者 李蕾 吴明君 +4 位作者 林冰艳 孙嫣然 徐艺宁 汪旭明 巩晓颖 《地球科学与环境学报》 CAS 北大核心 2024年第3期298-306,共9页
大气CO_(2)浓度上升通常会提高植物生产力并伴随叶片氮含量的下降。然而大气CO_(2)如何影响叶片^(15)N丰度及其相关机理还不清楚。以小麦和向日葵为实验材料,测定了两个CO_(2)浓度(410与820μmol•mol^(-1))处理下叶片的氮同位比值(δ^(1... 大气CO_(2)浓度上升通常会提高植物生产力并伴随叶片氮含量的下降。然而大气CO_(2)如何影响叶片^(15)N丰度及其相关机理还不清楚。以小麦和向日葵为实验材料,测定了两个CO_(2)浓度(410与820μmol•mol^(-1))处理下叶片的氮同位比值(δ^(15)N)和氮含量。结果表明:小麦和向日葵叶片氮含量随CO_(2)浓度升高呈下降趋势,然而δ^(15)N对CO_(2)浓度倍增的响应存在差异。在高CO_(2)浓度处理下小麦叶片δ^(15)N显著下降6.5‰,而向日葵叶片δ^(15)N小幅上升2.1‰,且叶片和地上部生物量显著增加。基于此,小麦的氮营养特征符合氮同化受限假说,而向日葵符合稀释效应假说。小麦叶片δ^(15)N随叶龄或者细胞年龄的增加而显著下降,因此在利用^(15)N来研究植物氮代谢时需要区分叶龄的影响。整合分析结果表明,CO_(2)浓度升高导致非豆科C_(3)植物的δ^(15)N显著下降达0.3‰,与小麦的研究结果相符。综上所述,限制硝态氮同化是CO_(2)影响植物氮代谢和^(15)N丰度的重要机制。 展开更多
关键词 植物氮代谢 氮同化 ^^(15)N自然丰度 CO_(2)浓度 叶龄 氮利用效率 氮含量 稀释效应
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丛枝菌根对植物叶片δ^(15) N含量影响的数据挖掘分析
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作者 徐寿霞 《河南科技大学学报(自然科学版)》 CAS 北大核心 2024年第1期88-97,M0008,共11页
为明确丛枝菌根(AM)对植物叶片稳定氮同位素(δ^(15)N)含量的影响,探索丛枝菌根在调控植物应对全球变化方面的重要功能,通过数据挖掘,建立了AM植物和非AM(non-AM)植物叶片δ^(15)N含量数据库,探究了AM对植物叶片δ^(15)N含量的影响。结... 为明确丛枝菌根(AM)对植物叶片稳定氮同位素(δ^(15)N)含量的影响,探索丛枝菌根在调控植物应对全球变化方面的重要功能,通过数据挖掘,建立了AM植物和非AM(non-AM)植物叶片δ^(15)N含量数据库,探究了AM对植物叶片δ^(15)N含量的影响。结果表明:AM植物叶片δ^(15)N含量为0.86‰,显著高于non-AM植物叶片的0.50‰。丛枝菌根针对不同植物功能群而言,将植物的AM状况与植物的固氮状况和生长周期结合作为影响因素时,AM都显著影响着植物叶片的δ^(15)N含量。虽然AM没有显著提高固氮植物叶片δ^(15)N含量,但却把非固氮植物叶片δ^(15)N的含量从0.58‰提高到了0.99‰。AM使多年生植物叶片δ^(15)N含量的增加最显著,从0.49‰增加到了0.82‰。可见,丛枝菌根作为与植物长期共生进化的最广泛共生体,对植物叶片δ^(15)N含量有不同程度的影响。 展开更多
关键词 ^叶片δ^(15)N含量 丛枝菌根 功能型 固氮 计量分析
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Fate of ^(15)N-Labeled Urea Under a Winter Wheat-Summer Maize Rotation on the North China Plain 被引量:44
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作者 JU Xiao-Tang LIU Xue-Jun +1 位作者 PAN Jia-Rong ZHANG Fu-Suo 《Pedosphere》 SCIE CAS CSCD 2007年第1期52-61,共10页
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... 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. 展开更多
关键词 ^^15n-labeled urea nitrogen recovery nitrogen residual effect North China Plain winter wheat-summer maize rotation
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Evaluation of the Role of Mixed Amino Acids in Nitrate Uptake and Assimilation in Leafy Radish by Using ^(15)N-Labeled Nitrate 被引量:3
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作者 LIU Xing-quan CHEN Hui-yun +1 位作者 NI Qin-xue Lee Kyu Seung 《Agricultural Sciences in China》 CAS CSCD 2008年第10期1196-1202,共7页
In this paper, the role of mixed amino acids in nitrate uptake and assimilation was evaluated in leafy radish by using ^15N labeled nitrate. The mixtures of alanine, β-alanine, aspartic acid, asparagines, glutamic ac... In this paper, the role of mixed amino acids in nitrate uptake and assimilation was evaluated in leafy radish by using ^15N labeled nitrate. The mixtures of alanine, β-alanine, aspartic acid, asparagines, glutamic acid, glutamine, and glycine were sprayed to plant leaf two or four times. The activity of the enzymes related to the process of NO3- reduction (nitrate reductase, nitrite reductase and glutamine synthetase) was affected differently depending on the application rate of mixed amino acids. Applying mixed amino acids increased the fresh weight, dry weight, and N yield. The NO3 content was reduced to 24-38%, but no significant differences were observed in amino acids and proteins. In addition, the nitrogen derived from fertilizer and the ^15N-NO3-recovery rate increased to 2-8% and 15-47%, respectively. These results strongly suggest that the positive effect of mixed amino acids on nitrate uptake and assimilation might be attributed to the regulation on NO3- uptake and assimilation, but not to the preference for amino acids as sources of reduced nitrogen. 展开更多
关键词 amino acid leafy radish nitrate assimilation nitrate uptake ^^15N-NO3
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The fate of ^(15)N-labeled nitrogen inputs to pot cultured beech seedlings
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作者 Ali Bagherzadeh Rainer Brumme Friedrich Beese 《Journal of Forestry Research》 SCIE CAS CSCD 2009年第4期314-322,I0005,共10页
The partitioning of nitrogen deposition among forest soil (including forest floor), leachate and above- and belowground biomass of pot cultured beech seedlings in comparison to non-cultured treatments were investiga... The partitioning of nitrogen deposition among forest soil (including forest floor), leachate and above- and belowground biomass of pot cultured beech seedlings in comparison to non-cultured treatments were investigated by adding 1.92 g.m^-2 ^15N tracer in throughfall for two successive growing seasons at a greenhouse experiment. Ammonium and nitrate depositions were simulated on four treatments (cultured and non-cultured) and each treatment was labeled with either ^15N-NH4^+ or ^15N-NO3^-. Total recovery rates of the applied ^15N in the whole system accounted for 74.9% to 67.3% after ^15N-NH4^+ and 85.3% to 88.1% after ^15N-NO3^-in cultured and non-cultured treatments, respectively. The main sink for both ^15N tracers was the forest soil (including forest floor), where 34.6% to 33.7% of ^15N-NH4^+ and 13.1% to 9.0% of ^15N-NO3^-were found in cultured and non-cultured treatments, respectively, suggesting strong immobilization of both N forms by hetero- trophic microorganisms. Nitrogen immobilization by microorganisms in the forest soil (including forest floor) was three times higher when ^15N-NH4^+ was applied compared to ^15N-NO3^-. The preferential heterotrophic use of ammonium resulted in a two times higher retention of deposited ^15N-NH4^+ in the forest soil as compared to plants. In contrast, nitrate immobilization in the forest soil was lower compared to plants, although statistically it was not significantly different. In total the immobilization of ammonium in the plant-soil system was about 60% higher than nitrate, indicating the importance of the N-forms deposition for retention in forest ecosystems. 展开更多
关键词 ^^15N tracer nitrogen retention and recovery beech seedling forest soil IMMOBILIZATION nitrogen budget
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基于^(15)N示踪的炭氮耦合对番茄氮素吸收利用效益的影响 被引量:1
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作者 郑健 石聪 +2 位作者 杨少鸿 宿智鹏 刘俊彦 《排灌机械工程学报》 CSCD 北大核心 2023年第9期933-942,共10页
为探讨分根交替灌溉下,不同生物炭添加量和施氮量对番茄氮素吸收利用规律的影响,应用^(15)N示踪技术,以番茄为研究对象开展盆栽试验,试验设置3种生物炭添加水平和3种施氮水平.结果表明,株高和茎粗在生物炭添加量为2%、施氮量为450 kg/hm... 为探讨分根交替灌溉下,不同生物炭添加量和施氮量对番茄氮素吸收利用规律的影响,应用^(15)N示踪技术,以番茄为研究对象开展盆栽试验,试验设置3种生物炭添加水平和3种施氮水平.结果表明,株高和茎粗在生物炭添加量为2%、施氮量为450 kg/hm^(2)时最大,干物质质量在生物炭添加量为2%、施氮量为300 kg/hm^(2)时最大;添加生物炭和增加施氮量均能促进番茄各器官对^(15)N肥料和全氮的积累,增加^(15)N残留量和^(15)N吸收量;添加生物炭会降低肥料贡献率,但能够显著增加番茄吸收土壤氮的比例、^(15)N回收率和^(15)N利用率.添加生物炭可有效提高番茄产量、水分利用效率和品质,其中处理B2N2的产量最高,为2.61 kg/株,品质也较其他处理有显著提高.基于组合赋权的TOPSIS法评价番茄综合效益结果表明,分根交替灌溉下,生物炭添加量为2%、施氮量为300 kg/hm^(2)(处理B2N2)为试验条件下的最佳种植模式. 展开更多
关键词 番茄 分根交替灌溉 ^^(15)N示踪技术 肥料去向 ^^(15)N利用率 TOPSIS法
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基于^(15)N标记的干旱区滴灌肥料氮的去向和效益研究 被引量:1
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作者 尹豪杰 孔丽婷 +6 位作者 王荣荣 车子强 刘建国 蒋桂英 谢冰莹 姜丰 张婷 《植物营养与肥料学报》 CAS CSCD 北大核心 2023年第3期414-426,共13页
【目的】采用^(15)N示踪法,研究滴灌肥料氮与土壤氮素的转化和去向以及在土壤中的残留分布,为新疆滴灌春小麦氮肥优化管理提供科学依据。【方法】试验于2019年在石河子大学农学院试验站进行,供试春小麦材料为强筋型‘新春38’(XC38)和... 【目的】采用^(15)N示踪法,研究滴灌肥料氮与土壤氮素的转化和去向以及在土壤中的残留分布,为新疆滴灌春小麦氮肥优化管理提供科学依据。【方法】试验于2019年在石河子大学农学院试验站进行,供试春小麦材料为强筋型‘新春38’(XC38)和中筋型‘新春49’(XC49)。试验设7个施氮(N)水平:300、285、270、255、240、225和0 kg/hm^(2),分别记作N300、N285、N270、N255、N240、N225和N0处理。每个试验小区内,安装未封底的PVC管(直径11 cm,高65 cm),管内施用与该处理等量的^(15)N标记尿素。于小麦成熟期,测定PVC管内植株样品与土壤样品中的^(15)N丰度,同时在小区内测定产量,计算氮素利用效率。【结果】两品种春小麦吸收的氮素来自肥料的比例为30.49%~36.06%,对土壤氮的依赖程度在60%以上。随着氮肥施用量的降低,对土壤氮的依赖程度逐渐增加。^(15)N标记氮肥在土壤中的总残留率为24.05%~31.60%,主要集中在0—40 cm土层,土壤^(15)N残留量与^(15)N总回收率随施氮量的降低而逐渐降低,^(15)N吸收利用率随施氮量的降低呈先升高后降低趋势。XC38强筋小麦各器官对肥料氮的吸收量为43.1~61.3 kg/hm^(2),占总吸氮量的30.94%~36.06%,高于中筋小麦XC49的42.3~54.5 kg/hm^(2)和30.81%~34.39%。XC38小麦在N270处理下产量最高,为7384.0 kg/hm2;XC49小麦在N255处理下氮肥农学利用效率最高,为7236.1 kg/hm^(2)。【结论】在滴灌施肥条件下,作物当季肥料氮吸收量占比平均为19.79%,0—60 cm土层中的平均残留率为27.86%,平均总回收率为47.64%。提高施氮量可提高小麦对肥料氮的吸收及其比例,且增加土壤中氮素的残留率,有效补充土壤氮库。虽然强筋型小麦XC38对肥料氮素的吸收强于中筋型小麦XC49,但对肥料氮的基本去向没有显著影响。综合考虑产量和氮肥利用效益,春小麦XC38和XC49适宜的施氮量分别为N 270 kg/hm^(2)和225 kg/hm^(2)。 展开更多
关键词 春小麦 滴灌 ^^(15)N示踪 施氮量 土壤氮素依赖度 氮肥利用率 肥料氮去向
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^(15)NO_(2)胁迫下三角梅不同器官的氮素吸收分配动态及代谢规律 被引量:1
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作者 圣倩倩 季亚欧 +1 位作者 宋敏 祝遵凌 《生态学报》 CAS CSCD 北大核心 2023年第19期7998-8010,共13页
近年来研究园林植物消减大气污染物的修复技术及其原理,理清氮氧化物污染对植物生理生态的影响机制,对城市生态环境保护和文明建设具有重要意义。以三角梅(Bougainvillea spectabilis Willd)小苗为研究材料,通过人工模拟熏气法,设计短... 近年来研究园林植物消减大气污染物的修复技术及其原理,理清氮氧化物污染对植物生理生态的影响机制,对城市生态环境保护和文明建设具有重要意义。以三角梅(Bougainvillea spectabilis Willd)小苗为研究材料,通过人工模拟熏气法,设计短时间高浓度^(15)NO_(2)胁迫处理,以CK为对照,比较8.0μL/L^(15)NO_(2)处理和4.0μL/L^(15)NO_(2)处理对三角梅各器官^(15)N的吸收量和各器官^(15)N-氨基酸含量的影响,探究^(15)NO_(2)胁迫下三角梅各器官内氮素的吸收分配动态及代谢规律研究。结果表明,^(15)NO_(2)胁迫后显著提高了三角梅各器官^(15)N含量,其中叶片是^(15)N的主要积累器官。8.0μL/L^(15)NO_(2)处理下三角梅各器官^(15)N含量、^(15)N-硝态氮含量较4.0μL/L^(15)NO_(2)和0μL/L^(15)NO_(2)均极显著上升,^(15)N-铵态氮含量较4.0μL/L^(15)NO_(2)除在叶中极显著下降了54.0%外,其余均极显著上升;^(15)N含量在三角梅各器官中分配差异显著,4.0μL/L^(15)NO_(2)处理下总体趋势为叶>根>茎。随着^(15)NO_(2)浓度不断上升,4.0μL/L^(15)NO_(2)处理下三角梅各器官中^(15)N-氨基酸含量均呈上升趋势,分配率均表现为叶>根>茎;8.0μL/L^(15)NO_(2)处理下各器官中^(15)N-氨基酸含量则未呈现统一的变化趋势,与4.0μL/L^(15)NO_(2)相比,各器官中部分^(15)N-氨基酸含量呈下降趋势。因此,不同浓度^(15)NO_(2)胁迫后,三角梅各器官对^(15)N的吸收量和各器官^(15)N-氨基酸合成量变化不一,4.0μL/L^(15)NO_(2)胁迫对植物的^(15)N的吸收量和各器官^(15)N-氨基酸含量均呈现为上升趋势,叶片为^(15)N和^(15)N-氨基酸积累的主要器官;8.0μL/L^(15)NO_(2)胁迫抑制植物根系的^(15)N分配,促进叶和茎的^(15)N分配,叶片为^(15)N积累的主要器官。该研究结果为氮氧化物污染在植物体内的迁移转化规律提供一定的理论依据。 展开更多
关键词 ^^(15)N示踪法 ^^(15)NO_(2)胁迫 不同器官 氮素 氨基酸
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应用^(15)N示踪法研究马铃薯燕麦间作对氮素吸收利用的影响
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作者 王建鹏 蔡明 +3 位作者 胡永琪 田娜 刘吉利 吴娜 《甘肃农业大学学报》 CAS CSCD 2023年第5期71-77,86,共8页
【目的】探明宁夏南部山区马铃薯与燕麦间作复合系统氮素吸收利用特性。【方法】试验采用随机区组设计,设置马铃薯单作、燕麦单作、马铃薯间作燕麦3个处理,另外在试验小区内设置了^(15)N示踪微区,进行^(15)N同位素丰度测定。【结果】间... 【目的】探明宁夏南部山区马铃薯与燕麦间作复合系统氮素吸收利用特性。【方法】试验采用随机区组设计,设置马铃薯单作、燕麦单作、马铃薯间作燕麦3个处理,另外在试验小区内设置了^(15)N示踪微区,进行^(15)N同位素丰度测定。【结果】间作提高了马铃薯对肥料氮的吸收和积累而降低了燕麦的吸收和积累,追施氮肥,间作马铃薯叶、茎、块茎部位^(15)N原子百分超相对单作分别增加56.6%、61.2%、173.2%,间作燕麦叶、茎、穗部位^(15)N原子百分超相对单作分别减少37.7%、53.9%、44.0%;基施氮肥,间作马铃薯叶、茎、块茎器官Ndff相对单作分别增加55.4%、60.6%、170.0%,间作燕麦叶、茎、穗各器官Ndff相对单作分别减少23.1%、21.5%、26.2%;间作提高了马铃薯块茎氮素积累量而降低了燕麦穗氮素积累量,在氮肥基施和追施条件下,间作马铃薯块茎^(15)N积累量相对单作分别提高了2.98%和0.02%;间作燕麦穗^(15)N积累量相对单作分别降低了0.35%和0.20%;间作提高了马铃薯和燕麦生殖器官所吸收的土壤氮比例。【结论】间作处理有利于马铃薯各器官的建成,处于氮素营养竞争优势地位,间作促进了马铃薯块茎和燕麦穗对土壤氮的吸收,从而提高了系统整体氮素利用。 展开更多
关键词 间作 马铃薯 燕麦 ^^(15)N 氮素
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基于^(15)N示踪技术研究杉木幼苗对无机氮素的吸收、分配及利用
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作者 吴亚岚 周丽丽 +3 位作者 邹志广 张马啸 林宇 李树斌 《西北林学院学报》 CSCD 北大核心 2023年第5期28-33,66,共7页
以2年生杉木幼苗为对象,采用^(15)N同位素示踪技术,研究杉木对无机N(NH_(4)^(+)-N、NO_(3)^(-)-N)的吸收、分配及利用规律,探讨杉木对无机N素的吸收偏好性。结果表明,全株杉木对铵态N的吸收速率极显著高于硝态N(P<0.01),分别为18.75... 以2年生杉木幼苗为对象,采用^(15)N同位素示踪技术,研究杉木对无机N(NH_(4)^(+)-N、NO_(3)^(-)-N)的吸收、分配及利用规律,探讨杉木对无机N素的吸收偏好性。结果表明,全株杉木对铵态N的吸收速率极显著高于硝态N(P<0.01),分别为18.75、2.64μg·g^(-1)·d^(-1),根、叶、侧枝对铵态N的吸收速率均显著高于硝态N(P<0.05)。不同器官对不同形态无机N素的吸收速率存在差异,对铵态N的吸收速率大小表现为叶>侧枝>主干>根,对硝态N的吸收速率为主干>根>侧枝>叶。除杉木主干外,其他各器官铵态氮Ndff_(G)值(N素来源于^(15)N标记物的百分比)均显著高于硝态N。各器官对铵态N的累积量和^(15)N利用率均高于硝态N,但差异不显著。可见,杉木对无机N的吸收表现为明显的“喜铵”特性,但不同器官的生理功能不同导致对无机N素的吸收、分配及利用存在明显差异,建议今后对杉木人工林的施肥管理中以施铵态N为主,可有效提高N肥利用率、降低环境污染的风险。 展开更多
关键词 杉木 器官 无机氮 吸收偏好 ^^(15)N示踪技术
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A ^(15)N-Labeling Study of the Capture of Deep Soil Nitrate from Different Plant Systems 被引量:1
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作者 YANG Zhi-xin WANG Jue +2 位作者 DI Hong-jie ZHANG Li-juan JU Xiao-tang 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2014年第1期167-176,共10页
The objective of this study was to determine the efficiency of different plant systems in capturing deep soil nitrate (NO3-) to reduce NO3- leaching in a field plot experiment using 15N labelling. The study was cond... The objective of this study was to determine the efficiency of different plant systems in capturing deep soil nitrate (NO3-) to reduce NO3- leaching in a field plot experiment using 15N labelling. The study was conducted on a calcareous alluvial soil on the North China Plains and the plant systems evaluated included alfalfa (Medicago sativa), American black poplar (Populus nigra) and cocksfoot (Dactylis). ^15N-labelled N fertilizer was injected to 90 cm depth to determine the recovery of ^15N by the plants. With conventional water and nutrient management, the total recovery of ^15N-labeled NO3--N was 23.4% by alfalfa after two consecutive growth years. The recovery was significantly higher than those by American black poplar (12.3%) and cocksfoot (11.4%). The highest proportion of soil residual ~SN from the labeled fertilizer N (%Ndff) was detected around 90 cm soil depth at the time of the 1st year harvest and at 110-130 cm soil depth at time of the 2nd year harvest. Soil %Ndff in 0-80 cm depth was significantly higher in the alfalfa treatment than those in all the other treatments. The soil %Ndff below 100 cm depth was much lower in the alfalfa than those in all the other treatments. These results indicated that ^15N leaching losses in the alfalfa treatment were significantly lower than by those in the black poplar and cocksfoot treatments, due to the higher root density located in nitrate labeling zone of soil profile. In conclusion, alfalfa may be used as a plant to capture deep soil NO3- left from previous crops to reduce NO3- leaching in high intensity crop cultivation systems of North China Plain. 展开更多
关键词 ^^15n-labeled nitrate tree and forage grass ALFALFA COCKSFOOT black poplar residual nitrate in subsoil capture ability
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Fate and Transformation of Nitrogen from ^(15)N-Labelled Rice Straw After Feeding Goat 被引量:1
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作者 HEDIAN-YUAN XINGTING-XIAN 《Pedosphere》 SCIE CAS CSCD 1992年第2期161-170,共10页
Three goats were fed with ^15N-labelled rice straw to study the characteristics of digestion,assimilation,transformation and excretion of C and N compounds from rice straw.It was shown that the amount of ^15N transfor... Three goats were fed with ^15N-labelled rice straw to study the characteristics of digestion,assimilation,transformation and excretion of C and N compounds from rice straw.It was shown that the amount of ^15N transformed into the bodies of the two slaughtered goats accounted for 38.5 and 23.6% of the total amount of ^15N deposition of the experimental diet taken by each goat.The ^15N excreted through the feces and urine for the three goats accounted for 34.8,33.2 and 33.9% of the total amount of ^15N deposition in the feed of the 3 goats.The recovery of total ^15N for the two slaughtered goats were 73.3 and 57.5%,with the corresponding rates of ^15N loss 26.7 and 42.5% respectively.The digestibilities of total amino acids for Goats 1 and 3 were 68.7 and 54.0%,and the digestibilties of carbohydrates for the two goats were 74.8 and 67.7% respectively. 展开更多
关键词 animal feeding feed digestion nitrogen fate 15n-labelled rice straw
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Comparative assessment of nitrogen fixation rate by ^(15)N_(2) tracer assays in the South China Sea
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作者 Danyang Li Minfang Zheng +5 位作者 Yusheng Qiu Limin Lai Nengwang Chen Hongmei Jing Run Zhang Min Chen 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2023年第1期75-82,共8页
Nitrogen fixation is one of the most important sources of new nitrogen in the ocean and thus profoundly affects the nitrogen and carbon biogeochemical processes.The distribution,controlling factors,and flux of N2 fixa... Nitrogen fixation is one of the most important sources of new nitrogen in the ocean and thus profoundly affects the nitrogen and carbon biogeochemical processes.The distribution,controlling factors,and flux of N2 fixation in the global ocean remain uncertain,partly because of the lack of methodological uniformity.The^(15)N_(2)tracer assay(the original bubble method→the^(15)N_(2)-enriched seawater method→the modified bubble method)is the mainstream method for field measurements of N2 fixation rates(NFRs),among which the original bubble method is the most frequently used.However,accumulating evidence has suggested an underestimation of NFRs when using this method.To improve the availability of previous data,we compared NFRs measured by three^(15)N_(2)tracer assays in the South China Sea.Our results indicate that the relationship between NFRs measured by the original bubble method and the^(15)N_(2)-enriched seawater method varies obviously with area and season,which may be influenced by incubation time,diazotrophic composition,and environmental factors.In comparison,the relationship between NFRs measured by the original bubble method and the modified bubble method is more stable,indicating that the N2 fixation rates based on the original bubble methods may be underestimated by approximately 50%.Based on this result,we revised the flux of N2 fixation in the South China Sea to 40 mmol/(m2·a).Our results improve the availability and comparability of literature NFR data in the South China Sea.The comparison of the^(15)N_(2)tracer assay for NFRs measurements on a larger scale is urgently necessary over the global ocean for a more robust understanding of the role of N2 fixation in the marine nitrogen cycle. 展开更多
关键词 N2 fixation rate South China Sea ^^(15)N_(2)tracer assay
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Araucaria cunninghamii Seedling Response to Different Forms and Rates of ^(15)N-Labelled Fertiliser 被引量:1
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作者 T, J. BLUMFIELD XU Zhi-Hong 《Pedosphere》 SCIE CAS CSCD 2006年第6期745-755,共11页
Nitrogenous fertilisers are under consideration for promoting the growth of nursery-reared hoop pine (Araucaria cunninghamii Alton ex A. Cunn) seedlings in the establishment phase of second rotation (2R) plantatio... Nitrogenous fertilisers are under consideration for promoting the growth of nursery-reared hoop pine (Araucaria cunninghamii Alton ex A. Cunn) seedlings in the establishment phase of second rotation (2R) plantations. Using ^15N- labelled fertilisers, we investigated the effect of different forms (ammonium sulphate, ammonium nitrate, potassium nitrate and urea) and rates of application (0, 150 and 300 mg N kg^-1 dried soil) of fertilisers on the growth, ^15N recovery and carbon isotope composition (δ^13C) of hoop pine seedlings in a 12-month glasshouse trial in southeast Queensland, Australia. The ^15N-labelled fertilisers were applied to nursery-reared hoop pine seedlings, which were then grown in pots, containing ca. 1.2 kg dried soil, under well watered conditions for 12 months. Four seedlings from each treatment were harvested at 4-month intervals, divided into roots, stem and foliage, with a further subdivision for new and old foliage, and then analysed for ^15N, total N, δ^13C and total C. There was no significant response in the seedling growth to the form or rate of application of nitrogen (N) fertiliser within the 12-month period, indicating that the seedlings did not experience N deficiency when grown on second rotation hoop pine soils. While the combined ^15N recovery from soil and plant remained at around 70% throughout the experiment, the proportion of ^15N recovered from the plants increasing steadily over time. Nitrate containing fertilisers at 150 mg N kg^-1 soil gradually increased seedling foliage δ^13C over the 12-month period, indicating an increase in seedling water use efficiency. 展开更多
关键词 hoop pine ^^15N recovery nitrogen water use efficiency
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小长山岛3种大型海藻组织碳、氮含量和δ^(15)N值的环境指示意义
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作者 赵玥茹 蔡恒江 +3 位作者 王选忠 刘龙强 单晓煊 胡思琪 《应用海洋学学报》 CAS CSCD 北大核心 2023年第4期667-674,共8页
大型海藻组织碳、氮含量及δ^(15)N值的变化对于指示营养盐来源及营养盐评价研究具有重要的意义。为探究大型海藻组织碳、氮含量及δ^(15)N值的变化特征,于2020年7月至2021年6月逐月分析了小长山岛潮间带孔石莼(Ulva pertusa)、角叉菜(C... 大型海藻组织碳、氮含量及δ^(15)N值的变化对于指示营养盐来源及营养盐评价研究具有重要的意义。为探究大型海藻组织碳、氮含量及δ^(15)N值的变化特征,于2020年7月至2021年6月逐月分析了小长山岛潮间带孔石莼(Ulva pertusa)、角叉菜(Chondrus ocellatus)、鼠尾藻(Sargassum thunbergii)3种大型海藻组织的碳、氮含量和δ^(15)N值的变化,并对其生长环境中海水的理化因子进行了测定。结果发现:孔石莼组织的氮含量与海水中的NO_(3)-N和DIN含量之间存在显著的相关性,角叉菜组织的氮含量与海水中的NH 3-N含量之间也存在显著的相关性。然而,大型海藻组织的碳含量和C/N比值与海水中的碳、氮营养盐之间并无显著的相关性。孔石莼组织的δ^(15)N值与海水中的NO_(3)-N和DIN含量之间也存在显著的相关性。因此,孔石莼适于用作NO_(3)-N和DIN来源的指示藻种。结果指示小长山岛潮间带海水中具有供大型海藻生长利用的充足的营养盐,其主要受到生活污水和养殖排放的影响。 展开更多
关键词 海洋生物学 大型海藻 碳、氮含量 ^δ^(15)N值 氮营养盐
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Nitrogen Forms of Maillard Polymers Derived from Xylose and ^(15)N-Labelled Glycine
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作者 CHENGLILI WENQIXIAO 《Pedosphere》 SCIE CAS CSCD 1997年第3期199-206,共8页
Water-soluble, nondialyzable Maillard polymers were prepared by reacting D-xylose with 15N-glycine (and/or glycine) at 68 ℃ and pH 8.0 at equimolar concentrations of 1, 0.5 and 0.1 mol L-1, respectively,for 13 days a... Water-soluble, nondialyzable Maillard polymers were prepared by reacting D-xylose with 15N-glycine (and/or glycine) at 68 ℃ and pH 8.0 at equimolar concentrations of 1, 0.5 and 0.1 mol L-1, respectively,for 13 days and partitioned into acid-insoluble (MHA) and acid-soluble (MFA) fractions. The nitrogen forms in these polymers were studied by using the 15N cross polarization-magic angle spinning nuclear magnetic resonance (CPMAS NMR) technique in combination with chemical methods. The 15N nuclear magnetic resonance (NMR) data showed that while the yield, especially the MHA/MFA ratio, varied considerably with the concentrations of the reactants, the nitrogen distribution patterns of these polymers were quite similar.From 65% to 70% of nitrogen in them was in the secondary amide and/or indole form with 24%~25% present as aliphatic and/or aromatic ammes and 5% to 11% as pyrrole and/or pyrrole-like nitrogen. More than half (50%~77%) of the N in these polymers were nonhydrolyzable. The role of Maillard reaction in the formation of nonhydrolyzable nitrogen in soil organic matter is discussed. 展开更多
关键词 Maillard polymer nitrogen form ^^(15)N cross polarisation-magic angle spinning nuclear magnetic resonance (CPMAS NMR)
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甜樱桃对^15N尿素的吸收、分配和利用特性 被引量:33
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作者 赵凤霞 姜远茂 +4 位作者 彭福田 高相彬 刘丙花 王海云 赵林 《应用生态学报》 CAS CSCD 北大核心 2008年第3期686-690,共5页
以5年生‘早大果’甜樱桃为试材,研究了其在萌芽前土施15N尿素的吸收、分配和利用特性.结果表明:植株器官从肥料中吸收分配到的15N量对该器官全氮量的贡献率(Ndff)均随时间推移逐渐升高,盛花期细根和贮藏器官的Ndff较高;果实硬核期,新... 以5年生‘早大果’甜樱桃为试材,研究了其在萌芽前土施15N尿素的吸收、分配和利用特性.结果表明:植株器官从肥料中吸收分配到的15N量对该器官全氮量的贡献率(Ndff)均随时间推移逐渐升高,盛花期细根和贮藏器官的Ndff较高;果实硬核期,新生器官中长梢和长梢叶的Ndff增长迅速,分别达0.72%和0.59%;果实硬核期到采收期,果实的Ndff增长迅速,到采收期达到最高,为1.78%;果实采收后到花芽分化期,新生器官Ndff增长减慢而贮藏器官增长迅速.盛花期根系吸收的氮素首先分配到贮藏器官,粗根15N分配率最高,为54.91%;果实硬核期细根和贮藏器官15N分配率由盛花期的85.43%下降到55.11%,而地上部新生器官则升高至44.89%;果实采收期15N分配率变化不大,果实采收后氮素营养迅速向贮藏器官中运转,花芽分化期细根和贮藏器官的15N分配率升高至72.26%,而地上部新生器官15N分配率与采收期相比下降了19.31%.从盛花期到花芽分化期,植株对15N尿素的当季利用率呈升高趋势,于花芽分化期达到最高,为16.86%. 展开更多
关键词 甜樱桃 ^^15N 吸收 分配 利用
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