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Zhongwei Tian Yaoxiang Ge Qing Zhu Jinhong Yu Qin Zhou Jian Cai 《Archives of Agronomy and Soil Science》2019,65(1):1-15
Straw incorporation is a useful management practice in sustainable agricultural systems to improve soil fertility and to reduce air pollution from straw burning. A three-year field experiment was conducted under two rice straw managements and four nitrogen (N) application rates in Rugao, China during 2010–2013, to examine whether straw management practices integrated with fertilizer N applications affect crop yield, N balance and N use efficiency in the wheat season of rice-wheat cropping systems. The results showed that straw incorporation had positive effects on plant N uptake and grain yield. This may be attributed to the greater soil water content and lower amount of seasonal rainfall. However, straw incorporation resulted in lower soil inorganic N and more N surplus at the early growth stage. Grain yield had a significant relation with wheat N uptake from sowing to jointing and from jointing to anthesis with straw incorporation. Therefore, our results suggest that in adjusting the ratio of basal and topdressing N fertilizer, it is important for the supply of optimum N to the crop and to maintain grain production with straw incorporation. 相似文献
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Abstract. The effect of rate and timing of autumn/winter straw incorporation on the immobilization of spring-applied N-fertilizer are studied. The immobilization of 15 N-labelled fertilizer by straw was determined in pot trials with a sandy loam soil (Wick series) collected from two field experiments. In experiment 1, straw was incorporated at four different rates in the autumn; experiment 2 had a fixed rate of straw (7.5 t/ha) incorporated at monthly intervals from September to March. Immobilization in spring was not enhanced when only stubble was incorporated in autumn. However, autumn incorporation of 7.5 t/ha straw resulted in a significant increase in the immobilization of spring-applied N, equivalent to 10 kg/ha; when 15 t/ha straw was incorporated, immobilization increased to 18 kg/ha. The enhancement of immobilization, immediately following fertilizer application, was dependent on the extent of straw decomposition prior to N application. Thus immobilization was related to cumulative thermal time (day °C above 0°C; Tsum between the date of straw incorporation and fertilizer application). Straw which had been incorporated for Tsum > 1200 no longer caused appreciable immobilization of spring fertilizer. 相似文献
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秸秆还田施氮调节碳氮比对土壤无机氮、
酶活性及作物产量的影响 总被引:24,自引:2,他引:24
秸秆的质量,特别是C/N是影响秸秆分解速率和养分释放的重要因素。在秸秆还田条件下,如何科学合理地施用氮肥是秸秆利用和优化施肥研究的关键问题。本研究以秸秆还田施入碳氮的C/N为切入点,于2012—2013年通过田间试验(设秸秆不还田不施肥、秸秆还田不施氮、秸秆还田施用无机氮肥调节C/N为10∶1、16∶1和25∶1以及秸秆还田施用有机氮肥调节C/N为25∶1处理),研究秸秆还田不同氮输入对小麦-玉米轮作田土壤无机氮、土壤微生物量氮、酶活性以及作物产量的影响。结果表明:1)在C/N为25∶1下,施用有机氮肥和无机氮肥对土壤无机氮含量无显著影响;在施用无机氮肥的情况下,C/N越低土壤无机氮含量越高。2)秸秆还田施氮提高了土壤微生物量氮含量,但是各秸秆还田施氮处理之间差异不显著;秸秆还田不同施氮处理对脲酶活性无显著影响;秸秆还田施氮提高了FDA水解酶活性,并随C/N降低呈升高趋势,施用无机氮肥的效果强于施用有机氮肥的。3)秸秆还田施用无机氮肥显著提高了小麦和玉米地上部生物量,施用无机氮肥调节C/N为10∶1和16∶1相比于C/N为25∶1提高了小麦和玉米的苗期和成熟期地上部生物量;施用有机氮肥调节C/N为25∶1相比秸秆还田不施氮对地上部生物量无显著影响。秸秆还田施用无机氮肥提高了作物产量,施用无机氮肥调节C/N为16∶1产量最高,而施用有机氮肥调节C/N为25∶1有降低作物产量的趋势。综合以上结果来看,施用无机氮肥调节C/N为16∶1较为合理。 相似文献
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In irrigated grain-growing soils on Canada's prairies, straw management can affect nitrogen (N) fertility and long-term soil organic matter reserves. We conducted a 2-year field experiment in southern Alberta, on a Dark Brown Chernozemic Lethbridge loam (Typic Boroll), to determine the effects of straw removal, tillage, and fertilizer timing on crop uptake of soil and fertilizer N. During the study (1991 and 1992), the crop was oat (Avena sativa L.) and wheat (Triticum aestivum L.), respectively, in an experiment that had been in a wheat-wheat-oat-wheat rotation since 1986. Five straw-tillage treatments were: straw-fall plow, straw-pring plow, no straw-fall plow, no straw-spring plow and no straw-direct seeding. Fertilizer N was applied in fall or spring. Ammonium nitrate (5 at.% 15N) was added at 100 kg N ha−1 in fall 1990 or spring 1991. For oat (1991), plant N derived from soil was higher under fall plow than under spring plow, higher with tillage than direct seeding, and unaffected by straw removal. The plant N derived from fertilizer was not affected by straw removal in fall plow treatments, but under spring plow, it was higher with straw removal. The plant N derived from fertilizer showed a significant straw-tillage × fertilizer timing interaction; with fall incorporated straw, plant N derived from fertilizer was 44.0 kg N ha−1 for spring-applied, and 30.6 kg N ha−1 for fall-applied N, but in other straw-tillage treatments there was no effect of fertilizer timing. Cumulative fertilizer N recovery (plant + soil) over the 2 years averaged 64.2%, and was unaffected by straw-tillage treatment. Fertilizer N recovery, however, was less with fall-applied N (61.3%) than spring applied N (66.8%). At mid-season, fall plow treatments had higher soil inorganic N and inorganic N derived from fertilizer than spring plow treatments, apparently because of less immobilization. The fall plow treatments also retained higher inorganic N after harvest. Straw removal and fertilizer timing did not influence soil inorganic N and soil inorganic N derived from fertilizer. N removal in straw (16 kg N ha−1 yr−1) could deplete soil N in the long-term. Long-term effects of tillage timing on soil N will depend on the relative amount of N lost by leaching with fall plowing and that lost by denitrification under spring plowing. With direct seeding, crop yield and uptake of soil N was less, and N losses by denitrification could be greater. Application of N in spring, rather than fall, should enhance crop N uptake, reducing N losses and enhancing long-term soil organic N. 相似文献
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腐植酸尿素对生姜产量及氮素吸收、同化和品质的影响 总被引:7,自引:3,他引:7
在盆栽条件下,利用15N示踪技术研究了腐植酸尿素对生姜氮素吸收、同化和产量品质的影响。试验以莱芜大姜为材料,设5个处理:空白对照、等量腐植酸对照、尿素、腐植酸+尿素、腐植酸尿素。结果表明,施用腐植酸尿素显著增加了生姜植株各器官干重,提高了产量。施用腐植酸尿素增加了根系生物量,增强了根系活力,提高了根系对营养元素的吸收能力。15N示踪试验表明,施用腐植酸尿素后,氮肥利用率显著提高,与等氮量尿素相比,基施提高54.08%,追施提高24.50%,同时促进了生姜植株对土壤氮的吸收。施用腐植酸尿素增强了根系硝酸还原酶活性,提高了收获期植株各器官中氮素含量和氮素积累量,增大了氮素在根茎中的分配比例。施用腐植酸尿素根茎蛋白质含量和蛋白质产量显著提高,姜辣素含量增加,硝酸盐含量降低,品质得到了改善。 相似文献
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秸秆复混肥及其对小麦生长发育的影响 总被引:1,自引:0,他引:1
将作物秸秆采用0.5MPa以上的蒸汽压力处理使其在20min内腐熟,加入适量比例化肥挤压造粒,制成秸秆复混肥,该肥料含秸秆物质40%以上,氮、磷、钾含量分别为7.86%、4.97%和14.77%。田间小麦应用试验表明,秸秆物质对提高肥料利用率,提高作物产量有明显效果。进一步研究还发现,腐熟秸秆与化肥的复混使用可以获得较高的经济效益,其产投比远远高于磷酸二铵和其它普通复混肥。 相似文献
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玉米秸秆还田配施氮肥对冬小麦土壤氮素表观盈亏及产量的影响 总被引:5,自引:2,他引:3
【目的】以秸秆还田定位试验为平台,探讨玉米秸秆还田配施氮肥对冬小麦产量、土壤硝态氮积累、氮素表观盈余和氮肥利用率的影响规律,明确砂姜黑土玉米秸秆全量还田条件下冬小麦生长季的最佳施氮量。【方法】试验以秸秆处理为主区,设秸秆还田和秸秆移除2个水平;施氮量为副区,设6个水平,分别为0、162.0、202.5、243.0、283.5、324.0 kg/hm2。测定了冬小麦播种前、拔节期、成熟期地上部植株含氮量,土壤0—20、20—40和40—60 cm硝态氮含量,小麦产量以及籽粒氮含量,计算了冬小麦生育期土壤的氮素表观盈余,小麦基施和追施氮肥的利用效率以及不同阶段的氮素盈余。【结果】玉米秸秆还田后小麦增产365 844 kg/hm2,增产率为4.2%9.3%,尤其以配施243.0 kg/hm2的增幅最高,产量达9858 kg/hm2。小麦整个生育期,秸秆还田显著增加了0—60 cm土层的土壤硝态氮累积量,而秸秆移除条件下,土壤硝态氮累积量与氮肥施用量相关,高量氮肥增加了硝态氮累积量,N施用量高于243.0 kg/hm2时,硝态氮累积量较小麦播种前增加19.8%28.6%。施氮均显著增加了植株氮素积累量;小麦播种到拔节期,植株的氮素积累量随基肥比例的增加而增加。小麦生育期不施氮处理表现为氮素亏缺,施氮处理显著增加了0—60 cm土层的土壤氮素盈余量,且随基肥、追肥量的增加而增加,盈余值每增加100.0kg/hm2,秸秆还田配施氮肥和单施氮肥的土壤剖面硝态氮积累量就会分别增加74.2和91.4 kg/hm2。秸秆还田配施氮肥提高了氮肥农学效率、植株地上部氮肥吸收利用率、籽粒氮肥吸收利用率,特别是在高氮肥时,基肥和拔节肥的利用率显著高于单施氮肥。在施氮处理间、相同氮肥施用下秸秆还田和移除处理间氮素收获指数均无显著差异。氮肥表观回收率随施氮量的增加而降低,基肥表观回收率显著高于拔节肥表观回收率。【结论】秸秆还田和施氮水平对小麦植株氮素的吸收转运没有显著影响,但可提高基施和追施氮肥的利用率,可增加土壤0—60 cm土层中硝态氮的含量。综合各项指标,冬小麦生长季玉米秸秆全量还田适宜的氮肥配施量为202.5 243.0 kg/hm2。 相似文献
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我国有机肥料资源及利用 总被引:23,自引:7,他引:16
本文对近30多年来我国有机肥料资源与利用资料进行了统计概算,分析了我国有机肥料基础资源量估算结果不一致的原因。统计结果表明,当前我国有机肥料基础资源每年约57亿t实物量,其中畜禽粪尿约38亿t (鲜),人粪尿约8亿t (鲜),秸秆约10亿t (风干),绿肥约1亿t (鲜),饼肥约0.2亿t (风干)。折合N约3000万t、P2O5约1300万t和K2O约3000万t,N+P2O5+K2O养分总量约7300万t。然而,我国有机肥料资源利用率较低,主要原因包括社会、经济、政策、技术及推广等多方面。有机肥料资源收集、贮存和加工过程中养分损失严重,不仅导致其利用率低,也成为农业源环境污染的根源。发展种养结合循环农业,加强有机肥料资源收集、加工和施用各个环节的技术开发和相关设施的标准化建设是目前解决其利用问题的关键。坚持政府补助的优惠鼓励政策,推行市场主体参与运行管理,建立有机肥料资源收集、加工和利用的完整产业与利益链条是有机肥料资源化高效利用的社会、经济和政策保障。 相似文献
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为合理利用秸秆,于2014和2015年两个水稻生长季,在大田条件下,以当地平均施肥量为标准,设置不同量的化肥配施秸秆处理,研究秸秆还田下水稻氮素吸收转运特征。结果表明:较纯化肥处理,秸秆替代一部分氮肥处理对水稻产量、地上部氮素积累量、氮素收获指数及氮肥生产效率无显著影响(P0.05);在不同程度上降低氮素在穗部的分配比例、营养器官吸收氮素向穗部转运量、转运率、转运氮对籽粒氮素贡献率;在不同程度上提高成熟期营养器官氮素积累量,显著提升抽穗后氮素吸收量及其对籽粒氮素贡献率(P0.05)。综合氮素吸收转运及利用效率,川东北稻麦轮作区水稻季在化肥减施30%基础上,麦秆还田量以6 000 kg/hm~2为宜。 相似文献
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秸秆配施氮肥还田对水稻土酶活性的影响 总被引:3,自引:0,他引:3
通过田间试验研究秸秆还田时间及配施氮肥比例对水稻土酶活性的影响,以期为培育水稻土肥力和稳定稻田生态系统功能提供理论依据。试验设置2个秸秆还田时间(WS,冬季还田;SS,春季还田)和4个氮肥配施量(N0,秸秆还田,试验期内全程不添加矿质氮;NB,常规施肥,还田时不添加矿质氮;N30B,秸秆还田时添加早稻基肥用量的30%矿质氮;N60B,秸秆还田时添加早稻基肥用量的60%矿质氮)。研究结果表明:1冬季秸秆翻耕还田能增加冬闲期6种与土壤碳周转相关酶(β-葡萄糖苷酶、β-纤维二糖苷酶、β-木糖苷酶、多酚氧化酶、过氧化物酶和蔗糖酶)的活性,冬闲期冬季秸秆还田条件下土壤酶活性均高于春季还田,生育期内冬季秸秆翻耕还田措施对土壤β-葡糖苷酶和过氧化物酶有增加作用;2秸秆还田并配施氮肥措施显著地增加冬闲期和生育期β-纤维二糖苷酶的活性,但配施氮肥的3个比例间土壤酶活性并无显著差异;3除多酚氧化酶外,其他5种酶均与其有机碳投入量呈显著正相关。因此,冬季秸秆还田及配施氮肥能在一定程度上调控与碳周转相关的土壤酶活性,对推广冬闲期秸秆翻耕还田及保障作物的产量具有重要的生态学意义。 相似文献
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草浆造纸废液是影响秸秆造纸发展的重要因素,利用小白菜盆栽试验研究了施用麦秸造纸废液木质素和麦秸对土壤性质及小白菜生长的影响,以期为造纸废弃物的资源化利用提供依据。结果表明,两茬小白菜收获后,铵木素配施N肥使土壤pH值降低;小白菜两茬连作后铵木质素配施的土壤活性有机碳含量及多酚氧化酶活性分别为2.73g·kg-1和1.77mg·g-1·2h-1,显著高于其他处理;除对照和单施氮肥外,两茬盆栽收获后土壤多酚氧化酶活性均高于第一茬试验。两茬小白菜收获后秸秆配施和碱木质素配施氮肥土壤过氧化物酶活性均高于其他处理。铵木质素配施及秸秆配施的小白菜干重相近,显著高于碱木质素配施。研究表明,与秸秆还田相比,施用铵木质素没有对土壤性状和小白菜生长产生不利影响,故铵法草浆木质素可以作为一种潜在的土壤有机改良剂应用。 相似文献
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The influence of herbicide application (monolinuron) and manuring with straw on the fate of urea 15N was studied in two soil types. The major loss of urea N applied to soil can be considered as denitrification rather than downward migration (leaching). This loss was higher in the loess than in the sandy soil; incorporation of straw slightly increased the loss, whereas addition of monolinuron decreased it. The labelled urea15N was better utilized by plants in the sandy than in the loess soil. During the first year after using straw in loess the N uptake by plants significantly decreased. Addition of monolinuron did not change the utilization of urea-N. In the second year there was only little utilization of the N residues by barley. The highest fertilizer N residues were found in soil that had been treated with straw. A slight increase of residual fertilizer N was also observed in the monolinuron-treated soil. The amount of residual fertilizer N in the non-treated soils was similar in the sandy and the loess soil. 相似文献
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稻秸还田提高我国南方典型稻田冬绿肥产量和养分积累 总被引:2,自引:0,他引:2
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High N fertilizer application to irrigated wheat in Northern Mexico for conventionally tilled and permanent raised beds: Effects on N balance and short term N dynamics
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Kathrin Grahmann Nele Verhulst Klaus Dittert Bram Govaerts Andreas Buerkert 《植物养料与土壤学杂志》2018,181(4):606-620
Nitrogen (N) surpluses from fertilizer application can cause major environmental harm including pollution of surface water, groundwater, and air. To assess such negative externalities, N balances are a complex but useful tool to predict surpluses and to measure effects of nutrient optimization strategies in agriculture. The Yaqui Valley in north‐western Mexico is representative for thousands of square kilometres of intensive, irrigated wheat production under arid conditions worldwide and has been targeted for conservation agriculture in recent years. For these cropping systems, detailed N balances are scarce and often incomplete. To help fill this knowledge gap, data from a long‐term experiment were collected in 2013/14 on a Vertisol to examine the impact of three tillage‐straw management practices (CTB: conventionally tilled beds; PB‐straw: permanent raised beds with residue retention; PB‐burn: permanent raised beds with residue burning) on N dynamics. Tillage had significant effects on soil NO3‐N, NH4‐N, and total N contents across the cropping period. Soil total N content was at all sampling depths lowest in CTB. Soil NO3‐N in the 0–90 cm profile was highest in PB‐burn over the cropping period and ranged from 77 kg ha?1 in the bed before pre‐planting fertilizer application up to 269 kg ha?1 in the furrow after the second fertilizer application. Annual simple N balances were +59 kg N ha?1 in CTB, +39 kg N ha–1 in PB‐straw, and +46 kg N ha?1 in PB‐burn. Residual mineral soil N was significantly affected by tillage‐straw management and lowest for PB‐straw (+205 kg N ha?1) and highest for CTB, and for PB‐burn (+283 kg N ha?1 each) in the 0–90 cm soil profile. Soil NO3‐N moved out of the effective wheat root zone, as indicated by the high residual NO3‐N content at 30–90 cm depth, which is an important pathway of N leaching. Quantifiable N losses through leaching and volatilization averaged 100 kg N ha?1. Our findings suggest that there is potential for substantial reductions in N inputs in all tillage‐straw systems to decrease N losses and to reduce mineral residual soil N, but care should be taken to avoid reducing grain protein content, which in PB straw was already below the quality standard. A knowledge transfer of the European “Nmin” concept is advisable in this region to regulate N fertilizer over‐application. 相似文献
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A field experiment was carried out in northern Vietnam to investigate the effects of adding different additives [rice (Oriza sativa L.) straw only, or rice straw with added lime, superphosphate (SSP), urea or a mixture of selected microorganism species] on nitrogen (N) losses and nutrient concentrations in manure composts. The composts and fresh manure were applied to a three-crop per year sequence (maize–rice–rice) on a degraded soil (Plinthic Acrisol/Plinthaquult) to investigate the effects of manure type on crop yield, N uptake and fertilizer value. Total N losses during composting with SSP were 20% of initial total N, while with other additives they were 30–35%. With SSP as a compost additive, 65–85% of the initial ammonium-N (NH4-N) in the manure remained in the compost compared with 25% for microorganisms and 30% for lime. Nitrogen uptake efficiency (NUE) of fresh manure was lower than that of composted manure when applied to maize (Zea mays L.), but higher when applied to rice (Oriza sativa L.). The NUE of compost with SSP was generally higher than that of compost with straw only and lime. The mineral fertilizer equivalent (MFE) of manure types for maize decreased in the order: manure composted with SSP?>?manure composted with straw only and fresh manure?>?manure composted with lime. For rice, the corresponding order was: fresh manure?>?manure composted with SSP/microorganisms/urea?>?manure composted with lime/with straw alone. The MFE was higher when 5 tons manure ha?1 were applied than when 10 tons manure ha?1 were applied throughout the crop sequence. The residual effect of composted manures (determined in a fourth crop, with no manure applied) was generally 50% higher than that of fresh manure after one year of manure and compost application. Thus, addition of SSP during composting improved the field fertilizer value of composted pig manure the most. 相似文献
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长期秸秆还田对华北潮土肥力、 氮库组分及作物产量的影响 总被引:32,自引:7,他引:25
【目的】近年,华北小麦-玉米轮作系统秸秆全量还田已逐步普及,但秸秆还田下土壤氮库组成的变化并不清楚。本文利用肥料定位试验,研究了长期秸秆还田(32年)对华北潮土肥力、 氮库组分和作物产量的影响。【方法】研究选用河北省衡水旱作试验站长期定位试验的不施肥(对照CK)和等量氮、 磷肥用量下的0kg/hm2(S0)、 2250 kg/hm2(S1)、 4500 kg/hm2(S2)和9000 kg/hm2(S3)秸秆还田处理。于2012年小麦收获后采集各处理020 cm土样,利用新鲜土样测定微生物量氮、 NH+4-N和NO-3-N;风干土壤用常规方法测定氮磷钾全养分、 有机质和pH,用Bremner法测定有机氮(酸解氨基酸态氮、 酸解氨态氮、 氨基糖氮和酸解未知态氮),用Silver-Bremner法测定固定态铵。同时结合长期试验数据, 分析长期秸秆还田下有机质和作物产量的变化。【结果】与试验开始前(1981年)相比,长期施用化肥处理的土壤全磷和有机质显著增加,全氮没有明显变化,而全钾出现降低趋势(-3.2%);秸秆用量的增加提高了全氮、 全磷和有机质,降低了pH值,但对全钾没有影响。酸解氨基酸态氮、 酸解氨态氮和未知态氮为潮土有机氮的主要组分;与CK相比,长期施肥提高了土壤有机氮含量,酸解氨基酸态氮、 酸解氨态氮和氨基糖氮均随秸秆用量的增加而增加,而不同施肥处理对酸解未知态氮和非酸解氮没有明显影响。长期化肥施用提高了微生物量氮和晶格固定态铵,秸秆用量的增加进一步提高了微生物量氮,但降低了固定碳铵。施肥没有明显影响NH+4-N含量,但长期施用化肥提高了NO-3-N含量,且高量秸秆还田对NO-3-N含量的提高具有促进作用。施肥显著提高了作物产量,在施用化肥基础上增施秸秆进一步提高了小麦和玉米产量,且玉米产量随秸秆用量的增加而增加,而高量秸秆还田对小麦产量并没有显著影响。【结论】长期化肥(氮、 磷肥)和秸秆结合施用提高了土壤肥力(主要为氮、 磷), 增加了土壤碳固持,但仅玉米秸秆还田导致了土壤钾消耗,增加钾肥投入维持土壤钾平衡是必要的。长期秸秆还田对酸解氨基酸态氮的贡献高于酸解氨态氮;高量秸秆还田提高了微生物量氮和NO-3-N含量,但降低了固定态铵含量。长期秸秆还田提高了作物产量,而为保证秸秆还田后茬的作物高产,与之配套的还田方法和田间管理是很必要的。 相似文献
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化肥氮对冬小麦氮素吸收的贡献和土壤氮库的补偿 总被引:4,自引:1,他引:3