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1.
氮肥、土壤湿度和温度对稻田土壤甲烷氧化的影响 总被引:2,自引:0,他引:2
Effects of nitrogen fertilizer,soil mosture and temperature and temperature on methane oxidation in paddy soil were investigated under laboratory conditions.Addition of 0.05 g N kg^-1 soil as NH4Cl strongly inhibited methane oxidation and addition of the same rate of KCl also inhibited the oxidation but with more slight effect,suggesting that the inhibitory effect was partly caused by increase in osmotic potential in microorganism cell,Not only NH4^ but also NO3^- greatly affected methane oxidation.Urea did not affect methane oxidation in paddy soil in the first two days of incubation,but strong inhibitory effect was observed afterwards.Methane was oxidized in the treated soil with an optimum moisture of 280 g kg^-1 ,and air-drying inhibited methane oxidation entirely.The optimum temperature of methane oxidation was about 30℃ in paddy soil.while no methane oxidation was observed at 5℃or 50℃。 相似文献
2.
Leaching and Transformation of Nitrogen Fertilizers in Soil After Application of N with Irrigation: A Soil Column Method 总被引:21,自引:0,他引:21
A soil column method was used to compare the effect of drip fertigation (the application of fertilizer through drip irrigation systems, DFI) on the leaching loss and transformation of urea-N in soil with that of surface fertilization combined with flood irrigation (SFI), and to study the leaching loss and transformation of three kinds of nitrogen fertilizers (nitrate fertilizer, ammonium fertilizer, and urea fertilizer) in two contrasting soils after the fertigation. In comparison to SFI, DFI decreased leaching loss of urea-N from the soil and increased the mineral N (NH4^+-N + NO3^--N) in the soil. The N leached from a clay loam soil ranged from 5.7% to 9.6% of the total N added as fertilizer, whereas for a sandy loam soil they ranged between 16.2% and 30.4%. Leaching losses of mineral N were higher when nitrate fertilizer was used compared to urea or ammonium fertilizer. Compared to the control (without urea addition), on the first day when soils were fertigated with urea, there were increases in NH4^+-N in the soils. This confirmed the rapid hydrolysis of urea in soil during fertigation. NH4^+-N in soils reached a peak about 5 days after fertigation, and due to nitrification it began to decrease at day 10. After applying NH4^+-N fertilizer and urea and during the incubation period, the mineral nitrogen in the soil decreased. This may be related to the occurrence of NH4^+-N fixation or volatilization in the soil during the fertigation process. 相似文献
3.
The present article deals with the natural nitrogen-15 abundance of ammonium nitrogen and fixed ammonium in different soils.Variations in the natural ^15N abundance of ammonium nitrogen mineralized in soils under anaerobic incubation condition were related to soil pH.The δ ^15N of mineralizable N in acid soils was lower but that in neutral and calcareous soils was higher compared with the δ ^15N of total N in the soils.A variation tendence was also found in the δ ^15N of amino-acid N in the hydrolysates of soils.The natural ^15N abundance of fixed ammonium was higher than that of total N in most surface soils and other soil horizons,indicating that the increase of δ ^15N in the soil borizons beneath subsurface horizon of some forest soils and acid paddy soils was related to the higher δ ^15N value of fixed ammonium in the soil. 相似文献
4.
Two soils with relatively high(Soil 1)and low(Soil 2) ammonium fixation capacities were used in this study to examiune the effect of ammonium fixation on the determination of N mineralized from soil microbial biomass.Organism suspension was quantitatively introduced to Soil 1 at various rates.Both fumigation-incubation (FI) and fumigation-extraction (FE) methods were used to treat the soil.The amount of fixed NH4^ increased with increasing rate of organism-N addition.A close correlation was found between the amount of fixed ammonium and th rate of organism-m addition.The net increases of fixed NH4^ -N were equivalent to 38% and 12% of the added organism-N for FI and FE treatments,rspectively,in this specific soil.To provide isotopic evidence,^15N-labelled organism-N was added to Soils 1 and 2 at 121.4 mg N kg^-1.In FI treatment,22 and 3mg N kg^-1 of labelled N were found in the fraction of fixed NH4^ -N in Soile 1 and 2 respectively;while in FE treatment,9 mg N kg^-1 of labelled N was found in the fraction of fixed NH4^ -N in Soil 1 only.There was no labelled N in the fraction of fixed NH4^ -N in Soil 2.In all of the unfumigated (check) soils,there was little or no labelled N in the fixed fractions,probably because the organism-N added was easily mineralized and nitrified.A mean of 0.64 for KN value,the fraction of N mineralized in the killed microbial biomass,as obtained with inclusion of the net increase of fixed NH4^ -N,The corresponding value calculated with exclusion of the net increase of ficed NH4^ -N was 0.46 ,It was concluded that ammonium fixation was a problem in deterination of KN,particularly for soils with a high ammonium fixation capacity, Results also showed that microbial biomass N measurement by FFE method was less affected by ammonium process than that by FI method. 相似文献
5.
土壤中氮磷钾肥转化中的交互作用: Ⅰ.土壤pH的动态变化 总被引:10,自引:0,他引:10
WANG Huo-Yan ZHOU Jian-Min CHEN Xaio-Qin LI Shou-Tian DU Chang-Wen DONG Cai-Xia 《土壤圈》2003,13(3):257-262
Dynamic changes of soil pH as influenced by ammonium sulfate (AS), monocalcium phosphate (MCP),potassium chloride (KCl) and their interaction in soils were evaluated in incubation experiments. Applyingthese fertilizers significantly reduced soil pH values in all cases and followed sequences of AS > MCP >KCl, MCP > KCl > AS and KCl > AS > MCP for the paddy, calcareous and red soils, respectively. TheAS-induced reduction of pH in the three soils followed the sequence of red soil > paddy soil > calcareous soil,while in MCP and KCl systems the reduction of pH followed the sequences of calcareous soil > paddy soil >red soil and red soil > calcareous soil > paddy soil, respectively. The interactions of the NPK fertilizers on pHwere significant. MCP plus KCl or MCP plus AS reduced pH values more than the fertilizers applied solelyin the paddy soil, but AS partly counteracted the effect of MCP on pH in the 1 d sample of the calcareoussoil. The effect of MCP on pH was trivial when MCP was applied in combination with KCl or AS in the redsoil. When applied in combination with AS, KCl did not affect soil pH initially, but suppressed the reductionof pH at the later incubation stage, which was related to inhibition of nitrification by KCl in the soils. 相似文献
6.
氨的固定对土壤微生物氮的测定的影响 总被引:2,自引:0,他引:2
The effect of ammonium fixation on the estimation of soil microbial biomass N was studied by the standard fumigation-incubation(FI) and fumigation-extraction (FE) methods,NO3-N content of fumigated soil changed little during incubation,while the fixed NH4^ in soils capable of fixing NH4^ increased with the increase of K2SO4-extractable NH4-N.one day fumigation increased both extractable NH4^ and fixed NH4^ ,However,prolonged fumigation gave no further increase.One day fumigation caused significant loss of NO3-N,while prolonged fumigation caused no further loss.For soils tested,the net increases of fixed NH4^ in fumigated soil equaled to 0-94% of NH4-N flush measured by the FI metod,and 1-74% of extractable N measured by the FE method.depending on different soils.It is concluded that the ammonium fixation was one of the processes taking place in soils during fumigation as well as incubation ofter fumigation and should not be neglected in the estimation of microbial biomass nitrogen by either FI or FE method. 相似文献
7.
N Mineralization as Affected by Long-Term N Fertilization and Its Relationship with Crop N Uptake. 总被引:3,自引:0,他引:3
A field experiment established in 1997 was conducted to study the effect of long-term N fertilizer application on N mineralization in a paddy soil determined using a laboratory anaerobic incubation followed with a field incubation and to measure the relationship between in situ N mineralization and crop N uptake. To estimate N mineralization in the laboratory, soil samples were collected from plots with N application at different rates for six years and were incubated. Soils treated with fertilizer N mineralized more N than unfertilized soils and mineralization increased with N application rates. Also, the fraction of total N mineralized increased with increasing N fertilizer application. These findings meant that a substantial portion of previously applied N could be recovered slowly over time in subsequent crops. The field incubation of the plot receiving no fertilizer N showed that the NH4^+-N concentration varied greatly during the rice-growing season and seasonal changes of N mineralization were due more to accumulation of NH4^+-N than NO3^-N. Hice N uptake increased up to a maximum of 82 kg N ha^-1 during the season. The close agreement found between in situ N mineralization and rice N uptake suggested that the measurement of in situ N mineralization could provide useful recommendations for adequate fertilizer N application. 相似文献
8.
中国某些水稻土中硝态氮向铵态氮的还原研究 总被引:2,自引:0,他引:2
Three paddy soils were examined for their capacities of dissimilatory reduction of nitrate to ammonium (DRNA). 15N-labelled KNO3 was added at the rate of 100 mg N/kg. Either glucose or rice straw powder was incorporated at the rate of 1.0 or 2.0 mg C/kg respectively. Three treatments were designed to keep the soil saturated with water: (1) a 2-cm water layer on soil surface (with beaker mouth open); (2) a 2-cm water layer and a 1-cm liquid paraffin layer (with beaker mouth open); and (3) water saturated under an O2-free Ar atmosphere. The soils were incubated at 28℃ for 5 days. There was almost no 15N-labelled NH4+-N detected in Treatment 1. However, there was 1.4 to 3.4 mg N/kg 15N-labelled NH4+-N in Treatment 2, and 2.1 to 13.8 mg N/kg in Treatment 3. Glucose was more effective than straw powder in ammonium production. Because there was sufficient amount of non-labelled NH4+-N in the original soils, 15N-labelled NH4+-N produced as such should be the result of dissimilatory reduction. Studies on microbial population showed that there were plenty of bacteria responsible for DRNA process (DRNA bacteria) in the soils examined, indicating that number of DRNA bacteria was not a limiting factor for ammonium production. However, DRNA bacteria were inferior in number to denitrifiers. The DRNA process in soil suspension started after 5 days of incubation. Glycerol and sodium succinate, though both are readily available carbon sources to organisms, did not facilitate DRNA process. DRNA occurred only when glucose was available and at a C:NO3--N ratio >12. Both availability and quality of the carbon sources affected DRNA. 相似文献
9.
Controlled-release N fertilizers can affect the availability of heavy metals in the contaminated paddy soil.A soil incubation experiment was conducted to investigate the effects of prilled urea(PU),S-coated urea(SCU),and polymer-coated urea(PCU)on the solubility and availability of heavy metals Cd,Pb,Cu,and Zn in a multimetal-contaminated soil.The results showed that the application of different coated urea significantly affected the solubility and availability of heavy metals.At 5 d of incubation,the application of PU,SCU,and PCU had significantly decreased the concentrations of water-soluble and available Cd,Pb,Cu,and Zn,when compared with the control.At 60 d of incubation,the depletory effects of PU on water-soluble and available heavy metals had reduced,and the initial decrease in the concentrations of water-soluble Cd,Pb,Cu,and Zn caused by SCU had changed to an increase.The concentrations of water-soluble Pb,Cu,and Zn in the SCU-treated soil were higher than those in the control.Application with PCU led to a higher water-soluble Cu than that in the control,while the available Cd,Pb,and Zn were lower than those in the control.The effect of different coated urea was much stronger on the water solubility of the heavy metals than on their availability.The effects of controlled-release urea on the transformation of heavy metals resulted in changes in the concentrations of NH4^+,water-soluble SO4^2-,and soil p H.The results further suggested that PCU could be used in dry farming operations in multimetal-contaminated acid soils. 相似文献
10.
Interaction of NPK fertilizers during their transformation in soils: Ⅲ. Transformations of monocalcium phosphate 总被引:3,自引:0,他引:3
Interactions of N, P and K fertilizers in soil-plant systems are widely recognized. This study focused on the transformations of monocalcium phosphate (Ca(H2PO4)2) (MCP) with co-application of ammonium and potassium fertilizers in three different soils. The results showed that after 1 d incubation a large portion of the MCP applied in the paddy,calcareous and red soils became the water-insoluble form and the recoveries of P applied as Olsen P varied greatly in these three soils. Application of ammonium sulfate ((NH4)2SO4) (AS) or potassium chloride (KC1) reduced WSP significantly in the soils with AS more effective than KC1 in the calcareous soil, while the reverse occurred in the red soil. Meanwhile, in the paddy soil, co-application of the two fertilizers reduced WSP more than when the fertilizers were applied individually. The co-application of AS with MCP in the paddy and calcareous soils significantly reduced Olsen P, but the opposite occurred in the red soil. The experiment on the effect of different accompanying anions showed that the ammonium fertilizers (PNC1 and PNS) reduced WSP more effectively than the corresponding potassium fertilizers (PKC1 and PKS) in the calcareous soil due to the difference of the cations, whereas in the red soil, the chlorides reduced WSP more effectively than the sulfates. Overall, co-application of ammonium or potassium fertilizers with MCP significantly decreased availability of P from MCP during its transformation in soils, especially when MCP was applied in combination with ammonium in the calcareous soil. 相似文献
11.
为研究在红壤双季稻田脲酶抑制剂适宜的添加比例,采用田间小区试验研究不同水平的脲酶抑制剂N-丁基硫代磷酰三胺(NBPT)对双季稻田土壤氮素转化的影响。本文设置NBPT的施用量为尿素的0. 5%、0. 75%、1. 0%、1. 25%、1. 5%5个水平。结果表明:与农民习惯施氮(单施尿素N 135 kg/hm~2)处理相比,NBPT与尿素的比例1. 0%时,对早、晚稻的产量与氮素回收率均无显著影响,当NBPT添加比例为1. 0%、1. 25%、1. 5%时,早、晚稻的产量以及氮素回收率均显著提高,且添加量在1. 0%与1. 5%的两个处理之间无显著差异;与单施尿素相比,添加NBPT大于1. 0%时,土壤脲酶活性和铵态氮含量在分蘖期显著降低,铵态氮含量在孕穗期显著升高,而硝酸还原酶活性、硝态氮含量及微生物量碳、氮含量始终无明显差异,孕穗期的脲酶活性也无显著差异;通过逐步回归分析发现,水稻分蘖期与孕穗期土壤中铵态氮含量对水稻产量影响显著,而且孕穗期的影响大于分蘖期,其余指标则对产量无明显影响,由此可知,添加NBPT可保持孕穗期较高的土壤铵态氮含量可能是其增产与提高氮肥利用率的主要原因,NBPT在稻田的适宜添加量为尿素用量的1. 0%以上。 相似文献
12.
双季稻田添加脲酶抑制剂NBPT氮肥的最高减量潜力研究 总被引:10,自引:3,他引:7
【目的】添加脲酶抑制剂(Urease inhibitor, UI)是提高肥料利用率的有效途径,在尿素(Urea,U)中添加1%的脲酶抑制剂NBPT(N-丁基硫代磷酰三胺)是目前研究使用证明效果最可靠的添加比例。针对当前稻田氮肥施用水平过高的问题,本文采用田间小区试验研究了目前脲酶抑制剂添加比例下稻田氮肥的减施潜力以及脲酶抑制剂的节肥增效机理。【方法】本试验在我国长江中下游的双季稻田进行,脲酶抑制剂用量NBPT为尿素用量的1%。尿素用量设五个水平为N 90、 112.5、 135、 157.5 和180 kg/hm2,分别依次记为U1、 U2、 U3、 U4和U5, 7个处理为CK(不施氮肥)、 U1+UI、 U2+UI、 U3+UI、 U4+UI、 U5+UI、 U5(U5为传统施氮量, N 180 kg/hm2为农民习惯施氮量),三次重复。U1~U5处理施氮量分别是在农民习惯施氮量的基础上降低50%、 37.5%、 25%、 12.5%、 0%。通过取样分析水稻分蘖期和孕穗期各处理对土壤脲酶活性、 硝酸还原酶活性、 土壤铵态氮含量、 硝态氮含量以及微生物量碳、 氮的含量,研究NBPT对水稻两个主要生育期土壤氮素供应的影响,比较各处理的产量以及氮肥利用率来得出氮肥的减施潜力,在此基础上通过逐步回归分析研究以上各指标对产量的影响,探明脲酶抑制剂(NBPT)在双季稻田的增效机理。【结果】 1) 在双季稻田,添加NBPT后,施氮量为N 135 kg/hm2的籽粒产量达到最高。与传统施氮(单施尿素N 180 kg/hm2)处理相比,早、 晚稻可分别增产8.54%和12.87%,氮肥当季利用率分别提高6.78%和9.46%,可节约氮肥25%; 2)与传统施氮相比,添加NBPT显著降低了水稻分蘖期的土壤脲酶活性和铵态氮含量,显著提高了孕穗期的铵态氮含量,而对此时期的脲酶活性无显著影响,NBPT对两个时期的硝酸还原酶活性、 硝态氮含量及微生物量碳、 氮含量均无明显影响,可见基施的NBPT主要是降低尿素水解速率方面效果显著,并且NBPT具有时效性,其主要是在水稻孕穗期之前起作用,在生态上较为安全; 3) 从各项土壤指标与水稻产量相关性的逐步回归分析结果来看,水稻分蘖期与孕穗期稻田土壤中铵态氮含量对水稻产量影响显著,而且孕穗期的影响大于分蘖期,其余指标则对产量无明显影响。【结论】由于脲酶抑制剂NBPT减缓了分蘖期尿素的水解作用,提高了孕穗期土壤中的铵态氮含量,为水稻后期生长提供充足的氮肥,在双季稻减肥方面具有显著的效果。在本试验土壤条件下,尿素中添加1% 的NBPT,可在提高产量的同时,将传统施氮肥量减少25%,是适于稻田应用的脲酶抑制剂。 相似文献
13.
脲酶—硝化抑制剂缓释肥对不同土壤氮素释放特性及黄瓜NPK吸收利用的影响 总被引:5,自引:2,他引:5
为了提高黄瓜氮素利用率,减少氮肥对环境污染,采用恒温培养和土培试验研究了专用脲酶硝化双抑制剂缓释肥(CSRF1和CSRF2)在酸、碱、中性土壤中的氮素释放特性以及对黄瓜生长、NPK吸收利用的影响,其中缓释肥中包含抑制剂N-丁基硫代磷酰三胺(nBPT)、氢醌(HQ)、双氰胺(DCD)。结果表明:在酸、碱、中性3种不同土壤中,氮素释放累积量均表现为普通复合肥(OCF)商品缓释肥(MSRF)自制专用肥(CCF)自制专用脲酶硝化双抑制剂缓释肥1(CSRF1)自制专用脲酶硝化双抑制剂缓释肥2(CSRF2);不同施肥处理对于3种土壤类型影响下的氮素累积释放量顺序为碱性土最大,中性土次之,酸性土最小。铵态氮、硝态氮的累积量大小顺序也为碱性土最大,中性土次之,酸性土最小。不同形态氮在3种土壤中的累积释放量动态以应用一级动力学方程拟合最好(r=0.952**~0.993**)。通过一级动力学方程,反映了3种形态氮素的最大释放量N0值大小顺序:总N最大,NH_4~+-N次之,NO_3~--N最小,此结果与土壤中不同形态的氮素累积释放特性变化规律相一致。2种专用脲酶硝化双抑制剂缓释肥(CSRF1和CSRF2)显著提高了黄瓜产量(果实干物质量),较OCF、MSRF和CCF处理分别增加了59.1%,30.3%,33.8%(CSRF1)和46.2%,19.7%,22.9%(CSRF2)。与普通复合肥相比,2种专用脲酶硝化双抑制剂缓释肥处理的NPK相对养分利用效率增加了18.52%~24.20%(N),19.27%~20.02%(P),28.54%~35.69%(K)。相较于普通复合肥,黄瓜专用脲酶—硝化抑制剂缓释肥的施用能够延缓肥料中的氮素释放,提高黄瓜NPK养分利用率和黄瓜产量。 相似文献
14.
秸秆-膨润土-聚丙烯酰胺对砂质土壤吸附氮素的影响 总被引:6,自引:2,他引:4
为提高土壤对氮素的吸附能力,减少土壤氮素流失,通过土壤培养试验和等温吸附试验研究了经堆腐的玉米秸秆、膨润土和聚丙烯酰胺(PAM)配制成的复合改良材料对砂质土壤NH4+-N吸附特性的影响。结果表明,复合改良材料对土壤NH4+-N吸附的影响随土培时间的延长呈先增大后减小的趋势,60d时最大。各处理NH4+-N的等温吸附曲线可用Langmuir方程很好地拟合。提高复合改良材料用量使砂质土壤NH4+-N的最大吸附量Qmax提高,吸附常数(k)降低,表明复合改良材料可以提高土壤对NH4+-N的吸附容量,但不能增加其吸附强度。同一用量下,Qmax随改良材料中PAM比例的提高呈先增大后减小的趋势,以PAM比例为0.99%时为最大,k则最低。提高复合改良材料用量使砂质土壤NH4+-N的最大缓冲容量(MBC)减小,改良材料中PAM添加比例对MBC无明显的影响规律。结果说明复合改良材料对土壤NH4+-N的保持量具有明显的促进作用,改良材料中PAM的添加比例以0.99%最佳。 相似文献
15.
根据氮肥施入土壤后的转化特性进行氮肥的高效调控和管理是提高氮肥利用效率、缓解氮肥污染的重要措施。为探究不同氮肥在石灰性潮土中的转化特性差异及硫代硫酸铵(ammonium thiosulfate,ATS)作为氮肥调控剂对尿素氮转化的影响,该研究采用室内土壤培养(土壤水分含量为田间持水量的60%,温度25 ℃)试验方法,以尿素、硫酸铵、氯化铵和ATS作为供试肥料,比较4种氮肥施入石灰性潮土后的转化特性差异,并以ATS作为氮素调控剂,以单施尿素作为对照,探究尿素配施不同用量ATS对尿素氮转化的影响。结果表明,4种供试氮肥在石灰性潮土中的转化过程明显不同。尿素在石灰性潮土中的水解速率最快,硝化作用强度也最高,硫酸铵其次;氯化铵由于Cl-的硝化抑制作用,土壤表观硝化率在7~21 d显著低于尿素和硫酸铵(P<0.05);ATS施入土壤后,NH4+-N转化为NO2--N的速率最高,而NO2--N转化为NO3--N的速率最低,NH4+-N在土壤中的存留时间最长,出现峰值之后也一直保持最高的含量,表观硝化率最低。将ATS作为氮素调控剂与尿素配合施用,当其用量在60 mg/kg(含S量)以上时,既表现出了明显的抑制尿素水解的作用效果,也表现出了显著的硝化抑制作用( P <0.05),且随着ATS用量的增加,抑制效应明显增强。这对于减少氮素损失,提高氮肥利用效率具有积极意义。但供试4种氮肥施入土壤后均出现了亚硝酸盐的累积,其中ATS处理的累积量显著高于尿素、硫酸铵和氯化铵(P<0.05),累积持续时间也最长。ATS作为氮素调控剂调控氮素转化,也出现了类似的结果,且随着ATS用量增加,亚硝酸盐在土壤中存留时间明显延长,含量和峰值明显提高,出现峰值的时间也明显延后。 相似文献
16.
镉污染下不同类型水稻土氮素供应特征及其影响因素 总被引:1,自引:1,他引:1
污染条件下的土壤氮素供应影响了作物生产和植物生态修复。采用温室盆栽试验,研究了两种剂量镉污染下我国21种水稻土无机氮的供应特征和影响因素。结果表明:淹水10天后,不同水稻土土壤溶液无机态氮含量变幅为1.42 ~ 70.40 mg/L ((平均值为16.76 mg/L)),其中NH4+-N和NO3--N分别占62.5% 和33.7%;与施肥对照相比,镉污染降低了大多数水稻土土壤溶液无机态氮的含量,平均降幅为58.4%,主要是由土壤溶液NH4+-N含量下降所致;土壤溶液NO3--N含量受镉污染的影响程度则因土壤类型而异。基于典范对应分析的偏因子分析((VPA))表明镉污染对水稻土土壤溶液无机氮含量的影响最大,其次是土壤类型,施肥影响最小,三类因子单独作用的影响比例分别为40.38%、6.51% 和0.05%。镉污染下,pH、CEC和土壤质地显著影响水稻土无机氮供应,其中土壤pH是镉污染条件下影响NH4+-N含量变化的首要因子。 相似文献
17.
Studies have been made,by ^15N-tracer technique on nitrogen loss resulting from adding amorphous manganese oxide to NH4^ -N medium under anaerobic conditions.The fact that the total nitrogen recovery was decreased and that ^15NO2,^15N2O,^15N^14NO,^15NO,^15N2 and ^15N^14N were emitted has proved that,like amorphous iron oxide,amorphous manganese oxide can also act as an electron acceptor in the oxidation of NH4^ -N under anaerobic conditions and give rise to nitrogen loss.This once again illustrates another mechanism by which the loss of ammonium nitrogen in paddy soils is brought about by amorphous iron and manganese oxides.The quantity of nitrogen loss by amorphous manganese oxide increased with an increase in the amount of amorphous manganese oxide added and lessened with time of its aging.The nitrogen loss resulting from amorphous manganese oxide was less than that from amorphous iron oxide.And the nitrogen loss resulting from amorphous manganese oxide was less than that from amorphous iron oxide.And the nitrogen loss by cooperation of amorphous manganese oxide and microorganisms (soil suspension) was larger than that by amorphous manganese oxide alone.In the system,nitrogen loss was associated with the specific surface ares and oxidation-reduction of amorphous manganese oxide.However,their quantitative relationship and the exact reaction processes of nitrogen loss induced by amorphous manganese oxide remain to be further studied. 相似文献
18.
采用盆栽试验方法研究了秸秆填埋对水稻土表层水三氮动态变化的影响。结果表明,施肥后,表层水总氮、铵态氮浓度迅速增加;随时间的推移,表层水氮素浓度下降较快。全氮在施肥后第1d达到峰值,铵态氮在施肥后第2d达到高峰,施肥后7d氮素含量基本与施肥前水平一致。秸秆还田有效地降低了水稻土表层水氮素含量,秸秆深埋处理有利于土壤对氮素吸收,使氮素的流失几率降低(DS处理比N处理表层水全氮浓度平均低10.2%),流失潜能趋势大大减小。结果显示,施肥后1周内是控制表层水氮素流失的关键时期。 相似文献