水稻土裂缝的生成对N2O释放的影响

通过土柱试验模拟了3种水稻土从淹水到日渐变干过程中的N2O日变化和时变化规律.相同质地的粉质黏壤土青紫泥和黄斑田有相似的N2O日释放规律,区别于粉质壤土的小粉土.24h内开裂土壤青紫泥和黄斑田的释放高峰分别在14:00和凌晨2:00,未开裂的小粉土释放高峰仅在凌晨2:00.裂缝的产生使N2O释放高峰提前出现.在培养过程中开裂的青紫泥和黄斑田的N2O日排放通量与含水量之间存在显著的指数关系,而未开裂的小粉土则未呈现明显相关关系.在裂缝产生过程中,裂缝的平均体积与N2O日排放通量之间存在极显著的乘幂关系.裂缝的平均面积与N2O日排放通量存在显著的乘幂关系,裂缝的平均深度与N2O日排放通量之间呈显著的线性关系.     

Effects of cracks and some key factors on emissions of nitrous oxide in paddy fields

IntroductionNitrousoxide,N2Oisofenvironmentalimportancebecauseitcontributestoglobalwarmingandthedepletionofthestratosphericozonelayer(Smith,1982).Itsatmosphericconcentrationisstillincreasingatarateof025%—031%peryear(Rodhe,1990).SignificantsourcesofN2Oarefoundinterrestrialecosystemsasaresultofnitrificationanddenitrificationprocessinsoils(Bouwman,1993).Globally,anthropogenicactivityaccountsfor64%oftotalN2Oemissions,towhichagriculturecontributes92%(Duxbury,1982).Therearesomedifferencesbetwe…     

Sources of nitrous and nitric oxides in paddy soils：Nitrification and denitrification

Rice-paddies are regarded as one of the main agricultural sources of N 2O and NO emissions. To date, however, specific N2O and NO production pathways are poorly understood in paddy soils. ^15N-tracing experiments were carded out to investigate the processes responsible for N2O and NO production in two paddy soils with substantially different soil properties. Laboratory incubation experiments were carried out under aerobic conditions at moisture contents corresponding to 60% of water holding capacity. The relative importance of nitrification and denitrification to the flux of NaO was quantified by periodically measuring and comparing the enrichments of the N2O, NH~-N and NO3-N pools. The results showed that both N2O and NO emission rates in an alkaline paddy soil with clayey texture were substantially higher than those in a neutral paddy soil with silty loamy texture. In accordance with most published results, the ammonium N pool was the main source of N2O emission across the soil profiles of the two paddy soils, being responsible for 59.7% to 97.7% of total N2O emissions. The NO3-N pool of N2O emission was relatively less important under the given aerobic conditions. The rates of N2O emission from nitrification （N2On） among different soil layers were significantly different, which could be attributed to both the differences in gross N nitrification rates and to the ratios of nitrified N emitted as NzO among soil layers. Furthermore, NO fluxes were positively correlated with the changes in gross nitrification rates and the ratios of NO/N2O in the two paddy soils were always greater than one （from 1.26 to 6.47）. We therefore deduce that, similar to N2O, nitrification was also the dominant source of NO in the tested paddy soils at water contents below 60% water holding capacity.     

生物质炭对华北平原4种典型土壤N2O排放的影响

生物质炭作为一种新型的土壤改良剂,在降低土壤温室气体排放方面发挥着重要作用.为明确生物质炭对冬小麦苗期土壤N_2O排放的影响,以华北平原的4种典型土壤(水稻土、砂姜黑土、褐土和潮土)为研究对象,进行田间试验,设置了4个处理:对照(CK)、单施化肥(NPK)、单施生物质炭(BC)和化肥与生物质炭配施(NPK+BC).结果表明,单施化肥显著增加了4种土壤N_2O排放,与对照相比,水稻土、砂姜黑土、褐土和潮土N_2O排放分别增加了314%、116%、240%和282%.添加生物质炭对华北平原4种土壤N_2O排放影响存在差异,与CK相比,单施生物质炭水稻土、褐土N_2O排放显著增加了72. 4%和50. 9%,而砂姜黑土和潮土BC与CK处理无显著差异.与NPK相比,生物质炭与化肥配施显著降低了4种土壤N_2O排放.添加生物质炭提高了4种土壤pH,其中,初始pH最低的水稻土,受生物质炭影响较显著,施肥则降低了4种土壤pH.砂姜黑土、褐土和潮土施肥处理N_2O排放通量均与铵态氮含量呈显著正相关,水稻土和砂姜黑土单施生物质炭处理N_2O排放通量与硝态氮含量呈显著正相关.     

Nitrous oxide emission and reduction in a laboratory-incubated paddy soil response to pretreatment of water regime

IntroductionNitrousoxide (N2 O)isagreenhousegas.IncreasingatmosphericN2 Oconcentrationmayalsobedetrimentaltothestratosphericozonelayer(Crutzen ,1981) .AgriculturalsoilisamajorsourceofN2 O .MostN2 Ooriginateswithsoilprocesses,asanintermediateproductfrommic…     

Minimizing N2O fluxes from full-scale municipal solid waste landfill with properly selected cover soil

Municipal solid waste landfills emit nitrous oxide （N2O） gas. Assuming that the soil cover is the primary N2O source from landfills, this study tested, during a four-year project, the hypothesis that the proper use of chosen soils with fine texture minimizes N2O emissions. A full-scale sanitary landfill, a full-scale bioreactor landfill and a cell planted with Nerium indicum or Festuca arundinacea Schreb, at the Hangzhou Tianziling landfill in Hangzhou City were the test sites. The N2O emission rates from all test sites were considerably lower than those reported in the published reports. Specifically, the N2O emission rate was dependent on soil water content and nitrate concentrations in the cover soil. The effects of leachate recirculation and irrigation were minimal. Properly chosen cover soils applied to the landfills reduced N2O flux.     

黄河上游灌区连作稻田N2O排放特征及影响因素

黄河上游灌区高产连作稻田氮肥的过量施用引起土壤氮素盈余,进而导致稻田N2O排放量增大.为了探明水稻连作模式下稻田N2O排放特征及影响因素,采用静态箱-气相色谱法,开展了为期2年的连作水稻田试验研究.试验共设置3个施氮处理,包括常规氮肥300kg.hm-2(N300)、优化氮肥240kg.hm-2(N240)和对照不施氮肥(N0),并在稻田连作的第2年,对N240处理灌溉节水30%.2年连作试验结果表明,水稻生长季稻田N2O排放主要发生在水稻施基肥后及水稻生长的中后期,在稻田灌水泡田后N2O排放速率达最大值.稻田高氮肥(300kg.hm-2)施用显著增加N2O的排放量,优化氮肥(240kg.hm-2)处理可有效降低土壤N2O排放量(p<0.01).水稻生长季稻田淹水状态时N2O排放量极低,稻田灌溉节水会相应增加土壤N2O排放量.土壤温度变化对稻田N2O的生成和排放会产生较大影响,但受稻田肥水管理等因素的影响,温度与N2O排放量相关性不显著.灌区稻田土壤N2O排放通量与田面水NO3--N含量变化及耕层0～40cm土壤NO3--N积累量变化有显著的相关性.稻田连作显著增加了耕层土壤剖面0～40cm土层NO3--N的积累量,耕层土壤NO3--N积累量的增加进而加大了土壤N2O排放的风险.在宁夏黄灌区稻田常规灌水和高氮肥(300kg.hm-2)水平下,2年连作稻田水稻生长季土壤N2O总排放量分别达55.98×104kg.a-1和51.48×104kg.a-1,在100a时间尺度上的全球增温潜势(GWPs)均值为16.02×107kg.hm-2(以CO2计),表明黄灌上游灌区高氮肥施用导致稻田N2O排放量增大,由此引起的增温潜势严重.     

N2:O emissions from a cultivated Andisol after application of nitrogen fertilizers with or without nitrification inhibitor under soil moisture regime

IntroductionNitrousoxide (N2 O)isoneoftheenvironmentallyimportanttracegases ,currentlyaccountingfor 2 %—4 %oftotalGreenhouseWarmingPotential (GWP ) .Itisalsoinvolvedinthedepletionofstratosphericozone .SoilhasbeenknownasthemajorsourceofN2 O ,accountingfor 6 5 %oftotalglobalemissions(Prather,1995 ) .Thus,reducingN2 Oemissionsfromsoilsisamaintaskfortheprotectionoftheglobalatmosphere .N2 Oisproducedastheresultofsoilmicrobialprocesses ,primarillybynitrification ,whentheoxidationhappensofNH+…     

亚热带稻田土壤碳氮磷生态化学计量学特征

为了解稻田土壤中是否存在稳定的土壤有机碳(C)、氮(N)和磷(P)比值,基于亚热带区110个水稻土剖面和587个发生层的土壤调查数据库,在区域尺度上分析了典型水稻土C∶N∶P比值的生态化学计量学特征,并应用相关分析和冗余分析,研究水稻土C∶N∶P比值与土壤-环境因子(地形和母质、土壤发生层、土壤类型和土壤理化性质)的关系.结果显示,亚热带区稻田土壤C∶N、C∶P和N∶P的剖面加权平均值分别为12. 6、49和3. 9,C∶N∶P为38∶3. 2∶1.不同母质起源、不同土壤亚类和不同发生层的水稻土C∶N变异相对较小;但C∶P和N∶P的变异很大,两者均值也远低于全球(186和13. 1)和中国土壤(136和9. 3)的C∶P和N∶P的平均水平.尽管稻田土壤剖面的C∶N∶P相对不稳定,但由于稻田表土生物与环境相互作用强烈,表土C∶N相对稳定(14. 2).这反映长期水耕熟化作用下,稻田表土中C和N仍存在紧密的耦合作用.然而,在稻田土壤剖面上,C∶P和N∶P并不稳定,SOC与全P含量、全N与全P含量也无显著相关性,表明环境变化可能导致土壤C∶N∶P解耦.地形、土壤质地、氧化铁和容重是调控稻田土壤剖面C∶N∶P的关键土壤环境因子.     

Nitrous oxide fluxes from upland soils in central Hokkaido, Japan

Nitrous oxide (N2O) fluxes from soils were measured using the closed chamber method during the snow-free seasons (middle April to early November),for three years,in a total of 11 upland crop fields in central Hokkaido,Japan.The annual mean N2O fluxes ranged from 2.95 to 164.17 μgN/(m2·h),with the lowest observed in a grassland and the highest in an onion field.The instantaneous N2O fluxes showed a large temporal variation with peak emissions generally occurring following fertilization and heavy rainfall eve...     

添加不同 N源条件下典型除草剂对土壤呼吸和 N2O排放的影响

通过室内土壤培养实验,采用间歇密闭培养-气相色谱法研究了添加不同N源条件下我国典型旱地除草剂对农田土壤呼吸和N2O排放的影响.结果表明,在添加（NH4）2SO4氮源条件下,莠去津和百草枯对土壤呼吸和N2O排放无显著影响（P〉0.05）.草甘膦显著抑制了土壤呼吸（P〈0.05）,是对照的78.5%,N2O的排放无显著影响（P〉0.05）,仅表现为均值降低了20.1%.苯磺隆显著促进了土壤呼吸（P〈0.05）,是对照的1.1倍,对N2O排放也无显著影响（P〉0.05）.乙草胺显著促进了土壤呼吸和N2O的排放（P〈0.05）,分别是对照的1.1和1.5倍.在添加尿素的条件下,莠去津和乙草胺对土壤呼吸和N2O排放无显著影响（P〉0.05）.百草枯显著促进了N2O的排放（P〈0.05）,是对照的1.4倍,却对土壤呼吸无显著影响（P〉0.05）.草甘膦显著抑制了土壤呼吸（P〈0.05）,仅为对照的82.5%,对N2O的排放却无显著影响（P〉0.05）.苯磺隆显著促进了土壤呼吸和N2O的排放（P〈0.05）,其分别是对照的1.3和1.6倍.鉴于不同除草剂对不同微生物生理代谢影响的复杂性,其对温室气体的作用和影响还需长期田间试验研究.     

三江平原泥炭沼泽湿地N2O排放通量及影响因子

运用静态暗箱-气相色谱法观测了三江平原毛苔草泥炭沼泽湿地植物生长季N2O排放通量,并分析了其关键影响因子.结果表明:生长季N2O排放通量季节变化动态明显,最大值出现在7月上旬;平均排放通量为76.77μg/(m2·h),高于潜育沼泽湿地[20~60μg/(m2·h), 2002~2005].N2O排放通量与土壤温度存在极显著指数关系(P<0.01),且随土壤深度(土壤10cm以下)的增加相关关系逐渐减弱;与水位呈极显著负相关关系(P<0.01);另外,植被是影响N2O排放的主要生物因子,有植被参与的N2O排放是无植被的1.7倍.总之,水位和土壤温度是控制泥炭沼泽N2O排放呈明显季节变化的主要因素,而土壤水文物理特性的差异是引起泥炭沼泽N2O排放高于潜育沼泽的主要原因.经初步估算,三江平原泥炭沼泽每年植物生长季N2O排放总量约为72.9Mg,表明泥炭沼泽湿地在生长季是重要的N2O潜在排放源.     

不同有机物料对土壤N2O排放的影响与调控

通过向土壤施加15N标记的莴笋残体(处理R)、废纸浆(处理P)及二者混合物(处理RP),并利用不同的压力使其成为3种不同容重处理的土壤样本,进行密闭培养,定时测定土壤N2O排放量及土壤溶液中NO3-与NH4 的动态变化,以探讨N_2O的产生与调控机制.结果表明,8d N2O释放量为R处理最大,RP处理其次,P处理最小.短期内(8d)R处理N2O释放最大量为空白对照(CK)的15倍,增加了土壤反硝化作用;P处理在同期内不能增加N2O释放量,证明这种废纸浆可少量(<2.5%)施用于农田中.RP与CK、P处理比较,可以刺激微生物活性和增加土壤反硝化作用;与R处理相比较,可以增加氮的固定.增加有机质的添加量使同一容重水平的RP处理N2O释放量高于R处理.70%的土壤样本随容重增加N2O释放量增加.土壤容重的增加同时影响了废纸浆的分解速率和土壤溶液中NO3-与NH4 浓度.     

氮肥管理措施对黑土玉米田温室气体排放的影响

采用静态箱-气相色谱法研究了不同氮肥管理措施(农民常规施肥、减氮20%、添加硝化抑制剂、施用控释肥)对黑土玉米田温室气体排放的影响.结果表明:黑土玉米田施肥(基肥和追肥)后1~3d出现N2O排放峰,施肥后16d内N2O排放量占生育期总排放量的28.8%~41.9%.减施氮肥20%显著降低土壤N2O排放,生育期内的N2O累积排放量减少了17.6%~46.1%,综合温室效应降低30.7%~67.8%,温室气体排放强度降低29.1%~67.0%.等氮量投入时,添加吡啶抑制剂土壤N2O排放量、综合温室效应和温室气体排放强度最低.玉米拔节~乳熟期出现了较强的土壤CO2排放,黑土玉米田是大气中CH4的一个较弱的“汇”,施氮和添加硝化抑制剂对黑土玉米田CO2排放和CH4吸收没有显著影响.添加硝化抑制剂和施用控释肥不影响玉米产量.在本试验条件下,减氮20%并添加吡啶抑制剂在保证玉米产量的同时, 减排增收效果优于其他施肥措施,适宜在黑土区玉米种植中推广使用.     

Fluxes of CH4 and N2O from soil under a tropical seasonal rain forest in Xishuangbanna, Southwest China

CH4 and N2O fluxes from soil under a tropical seasonal rain forest in Xishuangbanna, Southwest China were measured for one year using closed static chamber technique and gas chromatography method. Three treatments were set in the studied field: (A) litter-free,(B) with litter, and (C) with litter and seedling. The results showed that the soil in our study was a sink of atmospheric CH4 and source of atmospheric N2O. The observed mean CH4 fluxes from treatments A, B, and C were -50.0±4.0, -35.9±2.8,-31.6±2.8 μgC/(m2·h),respectively,and calculated annual fluxes in2003 were -4.1,-3.1,and -2.9kgC/hm2,respectively.The observed mean N2O fluxes from treatments A,B,and C were 30.9±3.1,28.2±3.5,50.2±3.7μgN/(m2·h),respectively,and calculated annual fluxes in 2003 were 2.8, 2.6, and 3.7 kgN/hm2, respectively. Seasonal variations in CH4 and N2O fluxes were significant among all the three treatments. The presence of litter decreased CH4 uptake during wet season (P ＜ 0.05), but not during dry season. There was a similar increase in seedlings-mediated N2O emissions during wet and dry seasons, indicating that seedlings increased N2O emission in both seasons. A strong positive relationship existed between CH4 fluxes and soil moisture for all the three treatments, and weak relationship between CH4 fluxes and soil temperature for treatment B and treatment C. The N2O fluxes correlated with soil temperature for all the three treatments.     

Minimizing N_20 fluxes from full-scale municipal solid waste landfill with properly selected cover soil

Municipal solid waste landfills emit nitrous oxide(N_2O)gas.Assuming that the soil cover is the primary N_2O source from landfills, this study tested,during a four-year project,the hypothesis that the proper use of chosen soils with fine texture minimizes N_2O emissions.A full-scale sanitary landfill,a full-scale bioreactor landfill and a cell planted with Nerium indicum or Festuca arundinacea Schreb,at the Hangzhou Tianziling landfill in Hangzhou City were the test sites.The N_2O emission rates from all test sites were considerably lower than those reported in the published reports.Specifically,the N_2O emission rate was dependent on soil water content and nitrate concentrations in the cover soil.The effects of leachate recirculation and irrigation were minimal.Properly chosen cover soils applied to the landfills reduced N_2O flux.     

Effects and mechanism of freeze-thawing cycles on the soil N2O fluxes in the temperate semi-arid steppe

High nitrous oxide(N2O) emissions during freeze-thawing period(FTP) have been observed in many different ecosystems. However, the knowledge about the dynamic of soil N_2O emissions and its main driving mechanism during the freeze-thawing processes in grassland ecosystem is still limited. An in-situ experiment was conducted during the FTP on the sites with 0 and 15% surplus of the average rainfall and two levels of N addition(0,10 g N/(m~2·year)) during growing season(marked as W0N0, W15N0, W0N10, W15N10, respectively) to explore the effects of water and N background on soil N_2O emissions during FTPs and the relationship between soil N_2O emissions and environmental factors. The results indicated that water and N treatments conducted during growing season did not show significant effect on the N_2O effluxes of FTP, but the soil mineral N contents of W0N10 treatment were significantly higher than those of W0N0, W15N0, W15N10treatments(p 0.05). The soil PLFA concentrations of microbial groups monitored during 2015 spring freeze-thawing period(2015S-FTP) were lower than those during winter freeze-thawing period of 2014(2014W-FTP), while cumulative soil N_2O emissions of 2015S-FTP were higher than those of 2014W-FTP. The correlations between soil N_2O effluxes and most of the measured environmental factors were insignificant, multiple stepwise regression analysis indicated that the soil temperature, soil NH_4~+-N content and air temperature were the major environmental factors which significantly influenced the N_2O effluxes during 2014W-FTP, and air temperature and soil water content were the significant influencing factors during 2015S-FTP.     

猪粪化肥配施对双季稻田CH4和N2O排放及其全球增温潜势的影响

以湖南典型红壤双季稻田系统为研究对象,采用静态箱-气相色谱法研究了水稻生长季基肥配施猪粪条件下CH4和N2O的排放特征,并估算了排放的CH4和N2O的全球增温潜势(GWP).结果表明,与施用化肥处理相比,猪粪化肥配施对稻田CH4和N2O排放的季节变化模式无明显影响,但影响其排放量大小.两个稻季,猪粪替代50%化学氮肥处理(1/2N+PM)CH4累积排放量较不施氮肥处理(0N)、50%化学氮肥处理(1/2N)、100%化学氮肥处理(N)分别提高54.83%、33.85%和43.30%(P<0.05);1/2N+PM处理N2O累积排放量较N处理显著降低67.50%,较0N处理、1/2N处理分别提高129.43%、119.23%(P<0.05).水稻生长季CH4是GWP的主要贡献者,占CH4和N2O综合GWP的99%以上.1/2N+PM处理的GWP显著高于其他处理(P<0.05),且1/2N+PM处理单位产量GWP最高,较N处理、1/2N处理、0N处理分别提高58.21%、26.82%、20.63%.因此,双季稻田猪粪替代部分化学氮肥较全部施用化学氮肥增加了双季稻田CH4和N2O排放的综合温室效应,其对温室气体排放的影响需在区域温室气体排放清单中加以考虑.     

冬闲水田土壤——一个重要的尚未确定的N2O释放源

通过对土壤N₂0生成机理和影响因素、冬闲田土壤中碳氮营养基质积累、N₂0强烈脉冲释放和冬闲田分布面积的分析,提出北半球热带－亚热带地区冬闲田可能是一个重要的尚未确定的N₂0释放源。粗略估计N₂0(以N₂0—N计)年释放量为0.75 Tg。      

不同水分管理方式下水稻生长季N2O排放量估算:模型建立

我国水稻生产中往往采用多种水分管理方式,如持续淹水、淹水-烤田-淹水和淹水-烤田-淹水-湿润灌溉等. 水分管理方式的不同会引起水稻生长季N₂O排放的显著变化. 本研究收集和整理了2005年以前17篇国内外文献报道的有关我国稻田N₂O季节排放通量的71组田间原位测定资料,每组资料包括稻田氮肥施用的种类和施用量、水分管理方式、N₂O季节排放量等数据,旨在建立不同水分管理方式下水稻生长季N₂O直接排放量的估算模型. 分析结果表明,持续淹水稻田N₂O季节排放量与施氮量无明显相关关系,在淹水-烤田-淹水和淹水-烤田-淹水-湿润灌溉的水分管理方式下,两者呈极显著线性正相关关系. 持续淹水稻田N₂O季节排放总量相当于施氮量的0.02%. 基于普通最小二乘法（OLS）分析技术建立的线性回归模型估算结果表明,淹水-烤田-淹水的水分管理方式下稻田肥料氮的N₂O排放系数为0.42%,但N₂O季节背景排放量不显著. 在淹水-烤田-淹水-湿润灌溉的水分管理方式下,水稻生长季肥料N的N₂O排放系数和N₂O-N背景排放量分别为0.73%和0.79 kg·hm^-2. 残差分析和效能分析显示模型具有较好的适切性. 综合3种水分管理方式,我国稻田水稻生长季N的N₂O排放系数和N₂O-N背景排放量平均分别为0.54%和0.43 kg·hm^-2. 相对于旱作农田而言,水稻生长季肥料N的N₂O排放系数较低,意味着水稻生产较旱地作物可能更有利于减缓我国农业N₂O排放. 本研究建立的模型可以用于我国稻田水稻生长季N₂O直接排放量的估算.