稻草还田下非稻季持续淹水对稻季CH_4和CO_2排放的影响     

徐祥玉  张敏敏  彭成林  佀国涵  徐大兵  袁家富 《农业环境与发展》2017,(2):145-152

稻草还田和非稻季持续淹水是我国最重要的稻田管理方式之一,此种管理方式下稻田碳排放并不清楚。本研究以江汉平原中稻-冬闲制度为对象,探讨稻草还田耦合非稻季持续淹水对稻季碳排放的影响,为准确评估稻田温室气体排放提供数据支撑和理论支持。结果表明,在稻草秸秆全量覆盖还田下,非稻季自然排水比持续淹水显著降低稻季CH_4累积排放量,稻季第一次排水晒田之前CH_4排放占总排放量的80%以上;非稻季持续淹水使稻季CO_2累积排放量比自然排水稍有降低,CO_2排放主要集中在第一次排水晒田之后,占总排放量的60%左右。非稻季淹水降低稻季土壤NO_3~--N、NH_4~+-N和DOC浓度以及10 cm土层土壤Eh值,但使乙酸浓度升高,这可能是稻草还田耦合非稻季淹水导致CH_4排放量增加的主要原因。  相似文献   

冬季施用鸡粪和生物炭对南方稻田土壤CO₂与CH₄排放的影响   总被引：3，自引：1，他引：2  

魏甲彬  成小琳  周玲红  徐华勤  唐启源  肖志祥  唐剑武  谭淑端 《中国生态农业学报》2017,25(12):1742-1751

生物炭的利用近年来是农田土壤固碳减排研究中的热点。本研究通过在冬季稻田养鸡,结合生物炭添加,采用箱式法结合温室气体分析仪定量测定冬季稻田和双季稻期间土壤CO_2和CH_4排放通量,分别估算冬季稻田和双季稻期间土壤CO_2和CH_4排放总量,评估生物炭和鸡粪添加对土壤碳排放的影响。结果表明,鸡粪还田处理显著提高了土壤CO_2的排放,冬季稻田和水稻生育期排放量分别达9 935.39 kg·hm~(-2)和27 756.34kg·hm~(-2),比对照增加58.7倍(P0.01)和56%(P0.05);生物炭添加处理冬季稻田和水稻生育期CO_2累积排放量比对照高12.3倍(P0.01)和41%(P0.05)。鸡粪还田处理下冬季稻田和水稻生育期稻田的CH_4排放量均显著高于其他处理;而生物碳添加对冬季稻田CH_4排放无显著影响,但显著降低了水稻生育期稻田的CH_4排放。鸡粪还田配施生物炭处理也显著提高了稻田土壤CO_2的排放。冬季稻田时,鸡粪还田配施生物炭土壤CO_2累积排放量显著高于鸡粪还田处理;而水稻生育期时,鸡粪还田配施生物炭处理下土壤CO_2累积排放量显著低于鸡粪还田处理。鸡粪还田下添加生物碳可以降低因鸡粪还田引起的CH_4排放增加的效应。总之,鸡粪原位还田显著增加了冬季稻田和水稻生育期稻田的CO_2和CH_4排放;无论是冬季稻田还是水稻生育期,生物炭的添加都降低了土壤CH_4的排放,且生物炭添加后期有抑制土壤CO_2排放的作用。因此,从更长的时间尺度来看,生物炭施入土壤有利于土壤固碳减排。  相似文献   

秸秆还田与氮肥配施对中南地区稻田土壤固碳和温室气体排放的影响     

《农业环境与发展》2016,(6)

秸秆还田和氮肥施用是影响稻田土壤固碳潜力和温室气体排放的重要农作措施。通过研究油菜秸秆全量还田并配合施入不同量氮肥(150、225、300 kg·hm~(-2)和375 kg·hm~(-2))对稻田土壤固碳量和温室气体排放的影响,评估综合增温潜势,对分析秸秆还田配施氮肥对稻田固碳效果有重要作用。结果表明,与单施氮肥和单施秸秆处理相比,秸秆还田配施氮肥显著增加土壤固碳量,秸秆配施氮肥处理固碳量最高值为147.74 kg·hm~(-2),比单施氮肥处理平均高出38%。在降低温室效应方面,与单施氮肥相比,秸秆配施氮肥处理显著降低N_2O的累积排放量;与单一秸秆还田处理相比,秸秆配施氮肥处理显著提高水稻产量,降低CO_2的累积排放量,但在一定程度上增加了CH_4的排放。秸秆配施氮肥处理的温室气体强度和综合温室效应分别为0.372、5 394.22 kg CO_2-eq·hm~(-2),显著低于单施氮肥处理的0.630、9 339.94 kg CO_2-eq·hm~(-2),以及单一秸秆还田处理的0.816、9 872.2 kg CO_2-eq·hm~(-2),因此,秸秆还田配施氮肥是降低温室气体排放强度、减缓净温室效应的有效措施。  相似文献   

不同施氮量对设施甜椒温室气体排放及净温室效应的影响     

《土壤通报》2019,(6):1484-1491

本研究在华北地区进行温室甜椒(Capsicum)栽培肥料试验,通过测定不同施氮处理土壤N_2O和CH_4排放量、排放特征和土壤呼吸强度,估算化肥投入、灌溉能源消耗、机械燃油、农药施用等生产投入产生的CO_2当量进而计算净温室效应,探讨了氮肥用量对当地温室蔬菜栽培温室气体排放、净温室效应的影响。田间试验设当地农民传统施肥量(C)、不施氮肥(CK)、推荐施氮量(T1)、推荐施氮量+硝化抑制剂(NP)(T1+NP)4个处理,土壤排放的温室气体用静态箱法采集、Agilent 6820型气相色谱仪测定,土壤呼吸用LI-8100土壤碳通量自动监测系统监测。结果表明,与传统施肥量处理相比,推荐施肥量处理,N_2O排放量明显下降;而4个处理的土壤CO_2累积排放量分别为3.36、3.19、3.25、3.07 thm~(-2),处理间无明显差异,CH_4累积排放量表现出随施氮量升高而下降的趋势;4个处理的净温室效应分别为5460.91、3439.28、4873.21、4622.85 kghm~(-2),因此,可以认为N_2O排放和土壤CO_2当量随施氮量的增加而升高,减少氮肥投入使之保持在适当水平,可降低N_2O、CH_4等温室气体的排放;而在等氮肥投入量的条件添加硝化抑制剂也能,减少温室气体排放和减轻净温室效应。  相似文献   

稻田种养结合循环农业温室气体排放的调控与机制   总被引：6，自引：0，他引：6  

王强盛 《中国生态农业学报》2018,26(5):633-642

水稻在我国粮食作物种植中占据主导地位,在保障粮食安全、关系国计民生方面有着重要的作用。稻田是温室气体甲烷(CH_4)和氧化亚氮(N_2O)的重要排放源。因此,控制稻田温室气体排放对缓解全球温室效应具有重要作用。近年来,稻田种养结合循环农业在我国发展迅速,具有稳产增效、绿色发展的重要功效,同时显著影响了稻田温室气体排放特征以及全球增温潜势(global warming potential,GWP)。稻鸭共作、稻田养小龙虾、稻鱼共作、稻田养蟹、稻田养鳖等稻田种养结合循环农业模式,由于稻田养殖生物在稻田生态系统中添加生态位、延长食物链的增环作用,通过其持续运动、觅食活动等,不同程度地影响稻田温室气体的排放量和GWP,总体呈现出减缓温室效应的趋势。本文概述了稻田种养结合循环农业的CH_4和N_2O的排放特征及水分管理和施肥措施的影响效应,探讨了稻田种养结合循环农业的减排途径,并分析了稻田种养结合循环农业温室气体减排的研究前景,以期为我国稻田种养结合循环农业的健康发展和稻田生态系统减排增效提供参考。  相似文献   

长期施肥下黑土玉米田土壤温室气体的排放特征     

高洪军  张卫建  彭畅  张秀芝  李强  朱平 《农业环境与发展》2017,(5):422-430

研究不同施肥措施下东北黑土区玉米农田温室气体(CO_2、N_2O和CH_4)的排放量及其增温潜势,将为制定农业温室气体减排措施提供理论依据。本研究以国家(公主岭)黑土长期定位试验为平台,采用静态箱-气相色谱法对不同施肥措施下玉米农田土壤温室气体排放通量进行了监测,并分析了不同施肥处理间玉米田的综合温室效应差异。结果表明:各施肥处理土壤温室气体CO_2和N_2O的排放高峰均出现在玉米拔节期。农家肥和化肥配施(M_2NPK)处理土壤CO_2、N_2O排放通量和CH_4吸收量均显著高于施化肥处理(P0.05);施用化肥处理土壤CO_2、N_2O排放通量高于不施肥处理;撂荒区土壤CO_2排放通量最高,而土壤N_2O排放通量显著低于施肥处理;等施氮量条件下,化肥(NPK)处理土壤N_2O排放通量明显高于秸秆还田(SNPK)处理,而土壤CH4净吸收量结果则截然相反。从土壤综合温室效应和温室气体强度可分析出,与不施肥(CK)比较,偏施化肥N和NPK处理的综合温室效应(GWP)分别增加了142%和32%,SNPK综合温室效应降低了38%;尤其是有机无机配施(M_2NPK)处理的综合温室效应为负值,为净碳汇。平衡施肥NPK和有机无机肥配施(SNPK和M_2NPK)温室气体排放强度(GHGI)较弱,显著低于不施肥(CK)和偏施化肥(N)处理,其中M2NPK为-222 kg CO_2-eq·t~(-1)。因此,为同步实现较高的玉米产量和较低的温室气体排放强度,有机无机肥配施是东北黑土区较为理想的土壤培肥方式。  相似文献   

不同农业管理措施对华北地区麦田温室气体排放的影响   总被引：5，自引：2，他引：5       下载免费PDF全文

徐钰  刘兆辉  朱国梁  李欣  谭德水  石璟  江丽华 《中国土壤与肥料》2016,(2):7-13

利用静态暗箱-气相色谱法对华北地区4种农业管理措施下的小麦农田生态系统温室气体(CO_2、CH_4和N_2O)的排放通量进行了观测,并对其综合增温潜势进行了估算。结果表明,麦季农田土壤是N_2O和CO_2的排放源,CH_4的吸收汇。与秸秆不还田(SN)相比,秸秆还田(SR)显著提高了CO_2和N_2O的排放量,但增加了CH_4的吸收量。通过施用新型肥料(SRC)或采用氮肥条施(SRR)的施肥方式,可以降低22.4%~35.5%的N_2O排放量,并增加9.3%~44.2%的CH_4吸收量。尤其是SRR可以抵消由于秸秆还田引起的N_2O增排。4种管理措施下的麦田是大气总温室气体的吸收汇,在秸秆还田基础上施用新型氮肥品种或采用氮肥条施的施肥方式,能够达到温室气体减排,且增产增效的效果。  相似文献   

氮肥减施对黄淮海地区麦田温室气体排放的影响   总被引：4，自引：0，他引：4  

《土壤与作物》2016,(4)

为探讨玉米秸秆还田条件下,氮肥减量施用对黄淮海区域小麦田温室气体排放的影响,通过田间试验,以农民传统施氮量作为对照(CK),研究了不同氮肥减量施用条件下(比农民传统施氮量减少10%(N_1)、20%(N_2)、30%(N_3)和40%(N_4)),麦田温室气体排放量和排放强度的变化。结果表明,不同氮肥减量施用条件下,温室气体(CO_2、N_2O和CH_4)排放通量均具有明显的季节变化。氮肥减量施用显著降低了CO_2和N_2O的排放量,但对CH_4排放量影响不显著。不同氮肥减量施用条件下,CO_2和N_2O的排放量大小分别为CKN_1N_2N_4N_3和CKN_1N_2N_3N_4,且不同处理间差异显著(p0.05)。与CK相比,N_1、N_2、N_3和N_4处理的CO_2排放量分别降低了4.9%、18.7%、36.5%和31.2%;N_2O的排放量分别降低了21.9%、32.5%、40.4%和53.5%,并且氮肥使用量与N_2O排放量间存在显著正相关关系(r=0.939p0.05)。不同氮肥减量施用条件下,CH_4吸收量的大小为N_2CKN_4N_3N_1,但不同处理间差异不显著(p0.05)。氮肥减量施用显著影响麦田温室气体排放强度(Greenhouse Gas Intensity,GHGI),表现为CKN_1N_2N_4N_3,且CK与不同处理间差异显著(p0.05)。与CK相比,N_1、N_2、N_3和N_4处理的GHGl分别降低了7.7%、11.5%、34.6%和19.2%。氮肥施用量比农民传统施氮量减少10%~30%,小麦产量间无显著差异(p0.05)。从环境和经济效益综合考虑出发,推荐氮肥最佳用量为210 kg·N·hm~(-2)(比农民传统施氮量减少30%)。在该施肥量条件下,小麦产量稳定,且温室气体排放强度最低。该研究结果可为黄淮海区域建立合理的施肥制度提供基础数据。  相似文献   

水肥管理对稻田CH₄排放及其全球增温潜势影响的评估   总被引：7，自引：1，他引：6  

谢立勇  许婧  郭李萍  徐玉秀  孙雪  赵洪亮  郭飞  赵迅 《中国生态农业学报》2017,25(7):958-967

甲烷(CH_4)是主要温室气体之一,对全球增温的作用仅次于二氧化碳(CO_2)。稻田是CH_4的重要排放源,减少稻田CH_4排放对减缓气候变暖具有直接效应。为此,掌握稻田CH_4排放的规律和特征对控制和减少稻田CH_4排放尤为重要。为了解稻田温室气体排放的主要影响因子及影响程度,估算稻田温室气体全球增温潜势,寻求农田减排措施,我们通过收集已发表的文献建立了稻田CH_4排放的数据库,采用析因分析与回归分析方法对稻田CH_4日排放量和全球增温潜势特征和可能的影响因子进行了分析。结果表明,稻田CH_4日排放量和增温潜势均随土壤有机质背景含量的升高而增加,不同类型稻田CH_4日排放量大小依次为:双季稻晚稻双季稻早稻单季稻稻麦轮作晚稻;晚稻田CH_4的增温潜势大于早稻田。不同肥料处理条件下,稻田CH_4日排放量表现为:秸秆还田配施有机肥化学氮肥≈生物炭。控制灌溉水量可降低稻田CH_4的综合增温潜势,表现为:持续淹水晒田干湿交替控制灌溉。研究结果说明,稻田CH_4的产生与排放过程受土壤有机质含量、肥料管理和水分管理以及轮作制度等多种因素的共同影响,应依据不同土壤条件和种植制度,适当调整肥水管理,以减少稻田温室气体排放,降低其增温潜势。  相似文献   

基于DNDC模型模拟江汉平原稻田不同种植模式条件下温室气体排放   总被引：3，自引：0，他引：3  

邹凤亮  曹凑贵  马建勇  李成芳  蔡明历  汪金平  孙自川  江洋 《中国生态农业学报》2018,26(9):1291-1301

稻田被认为是温室气体CH_4和N_2O的主要排放源之一。湖北省江汉平原地区水稻常年种植面积约8×105 hm2,占湖北省水稻种植面积的40%左右。研究江汉平原地区稻田温室气体排放特征,对于评估区域稻田温室气体排放以及稻田温室气体减排具有重要意义。目前,DNDC模型已被广泛应用于模拟和估算田间尺度的温室气体排放,DNDC模型与地理信息系统(Arc GIS)结合,可进行区域尺度的温室气体排放模拟与估算。本研究以湖北省典型稻作区江汉平原为研究区域,运用DNDC模型模拟和估算江汉平原稻田区域尺度的温室气体排放。设置大田定点观测试验,监测中稻-小麦(RW)、中稻-油菜(RR)、中稻-冬闲(RF)3种种植模式下稻田温室气体CH_4和N_2O的周年排放特征。通过田间观测值与DNDC模拟值的比较进行模型验证,并利用获取DNDC模型所需的气象、土壤、作物及田间管理等区域数据,模拟江汉平原稻田不同种植模式下温室气体CH_4和N_2O的排放量。田间试验表明,江汉平原稻田RW、RR和RF模型的CH_4排放通量为-2.80~39.78 mg·m-2·h-1、-1.74~42.51 mg·m-2·h-1和-1.57~55.64 mg·m-2·h-1,N_2O周年排放通量范围分别为0~1.90 mg·m-2·h-1、0~1.76mg·m-2·h-1和0~1.49 mg·m-2·h-1;CH_4排放量RW和RR模式显著高于RF模式,N_2O排放量为RF显著低于RW和RR模式。模型验证结果表明,不同种植模式温室气体排放实测值与模拟值比较的决定系数(R2)为0.85~0.98,相对误差绝对值(RAE)为8.29%~16.42%。根据DNDC模型模拟和估算的结果,江汉平原区域稻田CH_4周年的排放量为0.292 9 Tg C,N_2O周年的排放量为0.009 2 Tg N,不同种植模式稻田CH_4排放量表现为RWRRRF,N_2O排放量表现为RWRFRR,增温潜势(GWP)表现为RWRRRF。不同地区稻田CH_4排放量表现为监利县荆门市公安县天门市仙桃市洪湖市松滋市汉川市潜江市石首市荆州市江陵县赤壁市嘉鱼县,N_2O排放量表现为监利县荆门市公安县洪湖市仙桃市天门市汉川市潜江市松滋市荆州市江陵县赤壁市石首市嘉鱼县。本研究结果表明DNDC模型能较好地应用于模拟江汉平原稻田温室气体排放,RR和RF模式相比RW模式可有效减少温室气体CH_4和N_2O的排放。  相似文献   

Effects of climatic factors and soil management on the methane flux in soils from annual and perennial energy crops     

Jürgen Kern  Hans Jürgen Hellebrand  Michael G?mmel  Christian Ammon  Werner Berg 《Biology and Fertility of Soils》2012,48(1):1-8

Methane flux rates were measured on a loamy sand soil within perennial and annual energy crops in northeast Germany. The study was performed in closed chambers between 2003 and 2005 with four measurements per week. A mixed linear model including the fixed effects of year, rotation period, crop and fertilisation was applied to determine the influence of climatic factors and soil management on the CH₄ flux. Soil water content and air temperature were added as co-variables. With the exception of air temperature, all fixed effects and the co-variable soil water content influenced the CH₄ flux. The soil of annual crops consumed 6.1 μg CH₄ m⁻² h⁻¹, significantly more than the soil of perennial crops with 4.3 μg CH₄ m⁻² h⁻¹. It is suggested that soil water content plays the key role in CH₄ flux between pedosphere and atmosphere. In the range of water contents between 5% and 15%, our model describes that a soil water content increase of 1% induces a net emission of 0.375 μg CH₄ m⁻² h⁻¹. As the soil of the experimental field was well-drained and aerobic, it represented a net sink for CH₄ throughout the study period.  相似文献   

Fluxes of CO₂, CH₄, and N₂O in an alpine meadow affected by yak excreta on the Qinghai-Tibetan plateau during summer grazing periods   总被引：1，自引：0，他引：1  

Xingwu Lin  Shiping Wang  Xiuzhi Ma  Caiyun Luo  Gaoming Jiang 《Soil biology & biochemistry》2009,41(4):718-725

To assess the impacts of yak excreta patches on greenhouse gas (GHG) fluxes in the alpine meadow of the Qinghai-Tibetan plateau, methane (CH₄), carbon dioxide (CO₂), and nitrous oxide (N₂O) fluxes were measured for the first time from experimental excreta patches placed on the meadow during the summer grazing seasons in 2005 and 2006. Dung patches were CH₄ sources (average 586 μg m⁻² h⁻¹ in 2005 and 199 μg m⁻² h⁻¹ in 2006) during the investigation period of two years, while urine patches (average −31 μg m⁻² h⁻¹ in 2005 and −33 μg m⁻² h⁻¹ in 2006) and control plots (average −28 μg m⁻² h⁻¹ in 2005 and −30 μg m⁻² h⁻¹ in 2006) consumed CH₄. The cumulative CO₂ emission for dung patches was about 36-50% higher than control plots during the experimental period in 2005 and 2006. The cumulative N₂O emissions for both urine and dung patches were 2.1-3.7 and 1.8-3.5 times greater than control plots in 2005 and 2006, respectively. Soil water-filled pore space (WFPS) explained 35% and 36% of CH₄ flux variation for urine patches and control plots, respectively. Soil temperature explained 40-75% of temporal variation of CO₂ emissions for all treatments. Temporal N₂O flux variation in urine patches (34%), dung patches (48%), and control (56%) plots was mainly driven by the simultaneous effect of soil temperature and WFPS. Although yak excreta patches significantly affected GHG fluxes, their contributions to the whole grazing alpine meadow in terms of CO₂ equivalents are limited under the moderate grazing intensity (1.45 yak ha⁻¹). However, the contributions of excreta patches to N₂O emissions are not negligible when estimating N₂O emissions in the grazing meadow. In this study, the N₂O emission factor of yak excreta patches varied with year (about 0.9-1.0%, and 0.1-0.2% in 2005 and 2006, respectively), which was lower than IPCC default value of 2%.  相似文献   

Methane emission from paddy fields in Taiwan   总被引：3，自引：0，他引：3  

S.-S. Yang  H.-L. Chang 《Biology and Fertility of Soils》2001,33(2):157-165

 In order to investigate the effect of environmental conditions on CH₄ emission from paddy fields in Taiwan, four locations, two cropping seasons and two irrigation systems were studied. CH₄ emission was high at the active tillering and the booting stages in the first cropping season, whereas it was low at the transplanting and the ripening stages with an intermittent irrigation system. CH₄ emission was high at the transplanting stage in the second cropping season, and decreased gradually during rice cultivation. Daily temperature and light intensity increased gradually during rice growth in the first cropping season (February–June), while it was reversed in the second cropping season (August–December). The seasonal CH₄ emission from paddy fields ranged from 1.73 to 11.70 g m^–2, and from 10.54 to 39.50 g m^–2 in the first and second cropping seasons, respectively. The seasonal CH₄ emission in the second cropping season was higher than that in the first cropping season in all test fields. The seasonal CH₄ emission was 32.65 mg m^–2 in the first cropping season of the National Taiwan University paddy field with continuous flooding, and it was 28.85 mg m^–2 in the second cropping season. The annual CH₄ emission ranged from 12.3 to 49.3 g m^–2 with an intermittent irrigation system, and the value was 61.5 g m^–2 with a continuous flooding treatment. The annual CH₄ emission from paddy fields was estimated to be 0.034 Tg in 1997 from 364,212 ha of paddy fields with an intermittent irrigation system, which was less than the 0.241 Tg calculated by the IPCC method with a continuous flooding treatment Received: 23 February 2000  相似文献   

草原生态系统土壤-植被组分中氮、磷、钾、钙和镁的循环   总被引：19，自引：0，他引：19  

张小川  蔡蔚祺  徐琪  熊毅 《土壤学报》1990,27(2):140-150

本文研究了内蒙古锡林河流域两种典型草原的生产力、营养元素在生态系统中的分配及其循环.研究表明,除C和N在植物组分中贮量稍高以外,P、K、Ca和Mg的99%以上存于土壤分室中.而植物组分中的营养元素则主要贮存于根系之中.1985年至1986年,羊草草原地上凋落物的形成量为234克·米^-2,大针茅草原为88.4克·米^-2;同期凋落物的消失量分别为219.6和91.1克·米^-2;从活根向死根生物量的年转移量分别为1712和920克·米^-2;根系的降解速率分别为0.00355和0.00365克·克^-1·天^-1.文中给出了诸元素在生态系统中的循环图,讨论了两类草原生态系统中元素循环的特点.  相似文献   

Methane uptake and nitrous oxide emission in Japanese forest soils and their relationship to soil and vegetation types     

《Soil Science and Plant Nutrition》2013,59(5):678-691

Abstract

To determine the means and variations in CH₄ uptake and N₂O emission in the dominant soil and vegetation types to enable estimation of annual gases fluxes in the forest land of Japan, we measured monthly fluxes of both gases using a closed-chamber technique at 26 sites throughout Japan over 2 years. No clear seasonal changes in CH₄ uptake rates were observed at most sites. N₂O emission was mostly low throughout the year, but was higher in summer at most sites. The annual mean rates of CH₄ uptake and N₂O emission (all sites combined) were 66 (2.9–175) µg CH₄-C m^?2 h^?1 and 1.88 (0.17–12.5) µg N₂O-N m^?2 h^?1, respectively. Annual changes in these fluxes over the 2 years were small. Significant differences in CH₄ uptake were found among soil types (P < 0.05). The mean CH₄ uptake rates (µg CH₄-C m^?2 h^?1) were as follows: Black soil (95 ± 39, mean ± standard deviation [SD]) > Brown forest soil (60 ± 27) ≥ other soils (20 ± 24). N₂O emission rates differed significantly among vegetation types (P < 0.05). The mean N₂O emission rates (µg N₂O-N m^?2 h^?1) were as follows: Japanese cedar (4.0 ± 2.3) ≥ Japanese cypress (2.6 ± 3.4) > hardwoods (0.8 ± 2.2) = other conifers (0.7 ± 1.4). The CH₄ uptake rates in Japanese temperate forests were relatively higher than those in Europe and the USA (11–43 µg CH₄-C m^?2 h^?1), and the N₂O emission rates in Japan were lower than those reported for temperate forests (0.23–252 µg N₂O-N m^?2 h^?1). Using land area data of vegetation cover and soil distribution, the amount of annual CH₄ uptake and N₂O emission in the Japanese forest land was estimated to be 124 Gg CH₄-C year^?1 with 39% uncertainty and 3.3 Gg N₂O-N year^?1 with 76% uncertainty, respectively.  相似文献   

秸秆还田方式和氮肥类型对黄淮海平原夏玉米土壤呼吸的影响   总被引：5，自引：1，他引：4  

李玮  张佳宝  张丛志 《中国生态农业学报》2012,20(7):842-849

为了研究黄淮海平原不同秸秆还田方式和施氮类型对夏玉米农田生态系统土壤呼吸的影响,于2010年6—10月,采用LI-COR-6400-09土壤气室连接红外线气体分析仪(IRGA)对玉米农田行间掩埋秸秆区的土壤呼吸作用进行了连续测定。结果表明,常规施肥下,玉米生育期内秸秆行间掩埋处理(ISFR)的平均土壤呼吸速率显著高于秸秆移除(NSFR)和秸秆覆盖(SFR)处理(P<0.05)。秸秆行间掩埋配合施用化学氮肥处理中,配施50.4 kg(N).hm 2处理(ISF3)的平均土壤呼吸速率为(178.85±46.60)mg(C).m 2.h 1,显著高于配施33.6 kg(N).hm 2处理(ISF2)的(124.11±23.18)mg(C).m 2.h 1(P<0.05)。秸秆行间掩埋配合施用鸡粪处理中,鸡粪施用量为33.6kg(N).hm 2(ISOM2)处理的平均土壤呼吸速率为(208.08±31.54)mg(C).m 2.h 1,施用16.8 kg(N).hm 2(ISOM1)和50.4 kg(N).hm 2(ISOM3)处理的为(135.07±21.97)mg(C).m 2.h 1、(171.43±43.31)mg(C).m 2.h 1,相比ISOM2处理,ISOM1和ISOM3处理的平均土壤呼吸速率降低了35.09%和17.61%。ISOM2处理玉米季CO2排放累积量为499.39 g(C).m 2,显著高于ISF2处理的297.86 g(C).m 2。秸秆行间掩埋配合施用化学氮肥对土壤呼吸速率的影响小于配合施用鸡粪的影响,配合施用16%总氮的鸡粪,即33.6 kg(N).hm 2时C/N比最适宜土壤微生物的代谢活动。  相似文献   

Production,oxidation, emission and consumption of methane by soils: A review     

《European Journal of Soil Biology》2001,37(1):25-50

Methane emission by soils results from antagonistic but correlated microbial activities. Methane is produced in the anaerobic zones of submerged soils by methanogens and is oxidised into CO₂ by methanotrophs in the aerobic zones of wetland soils and in upland soils. Methanogens and methanotrophs are ubiquitous in soils where they remain viable under unfavourable conditions. Methane transfer from the soil to the atmosphere occurs mostly through the aerenchyma of aquatic plants, but also by diffusion and as bubbles escaping from wetland soils. Methane sources are mainly wetlands. However 60 to more than 90 % of CH₄ produced in the anaerobic zones of wetlands is reoxidised in their aerobic zones (rhizosphere and oxidised soil-water interface). Methane consumption occurs in most soils and exhibits a broad range of values. Highest consumption rates or potentials are observed in soils where methanogenesis is or has been effective and where CH₄ concentration is or has been much higher than in the atmosphere (ricefields, swamps, landfills, etc.). Aerobic soils consume atmospheric CH₄ but their activities are very low and the micro-organisms involved are largely unknown. Methane emissions by cultivated or natural wetlands are expressed in mg CH₄·m^–2·h^–1 with a median lower than 10 mg CH₄·m^–2·h^–1. Methanotrophy in wetlands is most often expressed with the same unit. Methane oxidation by aerobic upland soils is rarely higher than 0.1 mg CH₄·m^–2·h^–1. Forest soils are the most active, followed by grasslands and cultivated soils. Factors that favour CH₄ emission from cultivated wetlands are mostly submersion and organic matter addition. Intermittent drainage and utilisation of the sulphate forms of N-fertilisers reduce CH₄ emission. Methane oxidation potential of upland soils is reduced by cultivation, especially by ammonium N-fertiliser application.  相似文献   

华北平原农田生态系统碳过程与环境效应研究   总被引：1，自引：0，他引：1  

胡春胜  王玉英  董文旭  张玉铭  李晓欣  陈素英 《中国生态农业学报》2018,26(10):1515-1520

本文总结了25年来针对华北平原小麦-玉米两熟系统,农田的碳循环对气候变化(温度升高)和管理措施(氮肥施入、秸秆还田和耕作方式等)响应机制的研究成果。自2001年起我们在中国科学院栾城农业生态系统试验站建立了3个长期定位碳循环试验:耕作试验、有机循环试验和增温试验,并完善了4种农田碳过程监测方法体系:隔离罐-碱液吸收CO_2法、静态箱-气相色谱法、涡度相关技术和浓度梯度法。量化了华北平原小麦-玉米两熟系统碳输入-输出的平衡,并对华北平原施氮农田土壤碳截留进行了再评价,指出秸秆还田下高水高肥的精细管理农田正在以77 g(C)·m~(-2)·a~(-1)的速度丢失碳;此外长期氮施入虽然显著增加0~100 cm土体的土壤有机碳含量,但同时会造成0~60 cm土体土壤无机碳含量显著降低。我们在对碳过程环境效应的研究中进一步指出:增温和施氮均会降低CH4汇强度,但对土壤呼吸无显著影响,这可能主要是由于试验增温诱发的土壤干旱抵消了土壤温度的部分影响和土壤呼吸对土壤温度升高的适应性造成的。我们对剖面土壤气体的研究表明施氮对剖面CH4和CO_2均无显著影响。进一步将静态箱法和浓度梯度法相结合的研究结果表明0~40cm土层是北方旱地无氮农田土壤CO_2产生和CH4吸收的主要发生层。  相似文献   

Carbon exchange in a freshwater marsh in the Sanjiang Plain, northeastern China   总被引：1，自引：0，他引：1  

Changchun Song  Li Sun  Yao HuangYuesi Wang  Zhongmei Wan 《Agricultural and Forest Meteorology》2011,151(8):1131-1138

Northern wetlands are critically important to global change because of their role in modulating atmospheric concentrations of greenhouse gases, especially CO₂ and CH₄. At present, continuous observations for CO₂ and CH₄ fluxes from northern wetlands in Asia are still very limited. In this paper, two growing season measurements for CO₂ flux by eddy covariance technique and CH₄ flux by static chamber technique were conducted in 2004 and 2005, at a permanently inundated marsh in the Sanjiang Plain, northeastern China. The seasonal variations of CO₂ exchange and CH₄ flux and the environmental controls on them were investigated. During the growing seasons, large variations in net ecosystem CO₂ exchange (NEE) and gross ecosystem productivity (GEP) were observed with the range of −4.0 to 2.2 (where negative exchange is a gain of carbon from the atmosphere) and 0-7.6 g C m⁻² d⁻¹, respectively. Ecosystem respiration (RE) displayed relatively smooth seasonal pattern with the range of 0.8-4.2 g C m⁻² d⁻¹. More than 70% of the total GEP was consumed by respiration, which resulted in a net CO₂ uptake of 143 ± 9.8 and 100 ± 9.2 g C m⁻² for the marsh over the growing seasons of 2004 and 2005, respectively. A significant portion of the accumulated NEE-C was lost by CH₄ emission during the growing seasons, indicating the great potential of CH₄ emission from the inundated marsh. Air temperature and leaf area index jointly affected the seasonal variation of GEP and the seasonal dynamic of RE was mainly controlled by soil temperature and leaf area index. Soil temperature also exerted the dominant influence over variation of CH₄ flux while no significant relationship was found between CH₄ emission and water table level. The close relationships between carbon fluxes and temperature can provide insights into the response of marsh carbon exchange to a changing climate. Future long term flux measurements over the freshwater marsh ecosystems are undoubtedly necessary.  相似文献