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水稻植株对稻田CH4排放日变化的影响 总被引:2,自引:0,他引:2
2005年采用静态箱法,在水稻分蘖期天气晴朗的条件下,全天观测了有、无水稻植株两种情况下稻田CH4的排放.结果表明:无论水稻种植与否,稻田CH4排放通量的昼夜变化均表现为单峰模式,极大值出现在下午14点;稻田CH4排放的昼夜变化与5cm处土温存在显著正相关关系(p<0.05);有水稻植株处理稻田CH4日平均排放通量显著高于无水稻植株处理(p<0.05);有水稻植株处理的稻田CH4排放通量最佳观测时间在上午8~10点,无水稻植株处理的最佳观测时间则在傍晚18点左右. 相似文献
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太湖地区不同集约化栽培模式下稻田CH4排放 总被引:1,自引:0,他引:1
采用静态暗箱—气相色谱法对太湖地区水稻生态系统甲烷(CH4)排放进行田间原位观测,共设置无氮(NN)、常规(FP)、增产增效(YE)(增产10%~15%,氮肥利用率(NUE)提高20%~30%)、再增产(HY)(增产30%~40%)、再增效(HE)(NUE提高30%~50%)和保产增效(IE)(产量不变,NUE提高20%~30%)六种不同的栽培模式。结果表明,稻田CH4排放具有明显的季节变化,在水稻生长期间先升高后降低,从水稻移栽至抽穗期CH4排放通量占全生育期的93%~98%。不同栽培模式间CH4累积排放量差异显著(p<0.05),HY处理高达258.8 kg hm-2,显著高于未施有机肥各处理;单位稻谷产量CH4排放量差异不显著,平均为CO2 0.60 kg kg-1,提高稻谷产量的模式不会显著影响CH4排放;其中YE处理单位稻谷产量CH4排放量最低,为CO2 0.49 kg kg-1,可以同时实现增产、增效和减排,值得推广。 相似文献
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水分管理对水稻生长期CH4排放的影响 总被引:11,自引:0,他引:11
通过温室盆栽试验研究相同施肥条件下,不同水分管理(持续淹水,分蘖肥后提前烤田、正常烤田和推迟烤田)对水稻生长期CH4排放的影响。结果表明,对烤田处理而言,CH4的排放峰值出现在烤田期间,在此期间CH4排放量占季节排放量的38.75%~52.21%。烤田初期出现排放高峰,然后急剧下降,烤田结束前接近于零;水稻生长后期干湿交替阶段只有少量CH4排放。提前烤田、正常烤田和推迟烤田3个处理水稻生长期CH4平均排放通量依次为0.86、0.96、1.45mg/(m2·h),烤田开始越晚,CH4排放越多。土壤Eh是影响不同烤田处理水稻生长期CH4排放的主要因素。持续淹水处理水稻移栽30天后的CH4排放通量与土壤温度呈显著性相关(r=0.682**,p<0.01)。持续淹水处理CH4排放通量是烤田处理的12~20倍。 相似文献
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土壤水分状况对CH4氧化,N2O和CO2排放的影响 总被引:31,自引:3,他引:31
实验室培育试验表明,土壤氧化CH4,排放N2O和CO2的最佳水分含不量。水稻土氧化CH4的最佳水分含同于半干旱草地土壤,均接近于土壤环境常年水分含量。水稻土N2O排放量随着水分含量的下降而增加,半干旱草地土壤则随着水分含量的下降而减少,表明背离土壤环境上水分含量越远,N2O的排放量越大。因而,CH4氧化和N2O排放对土壤水分含量的反应呈极显著的负相关性。CO2排放的最佳水分含量接近或高于CH4氧化 相似文献
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秸秆施用对稻田CH4排放、溶解浓度及13C变化特征的影响 总被引:1,自引:0,他引:1
CH4 emission and the concentration of dissolved CH4 in soil solution and floodwater in a rice field and their stable carbon isotopic signatures as affected by straw application were investigated in 2009 in a field experiment at Jurong, Jiangsu Province, China. Straw application increased CH4 emission and CH4 concentration in the soil solution and floodwater. A positive seasonal correlation was also observed in the variation between CH4 flux and CH4 concentration in soil solution. The seasonal total CH4 emission (51.6 g CH4 m-2) in Treatment WS (straw applied) was about 168% higher than that in Treatment CK (without straw). The emitted CH4 and CH4 in soil solution were initially relatively enriched, then depleted and finally enriched again in 13C in both treatments, while CH4 in floodwater became isotopically heavier. The carbon isotopic signature of emitted CH4 and CH4 in floodwater averaged around -62‰ and -45‰ for both treatments, respectively, and was not significantly influenced by the application of straw. However, straw application caused the CH4 in soil solution to be significantly depleted in 13C during the middle of the rice season, and the mean δ13C value was lower in WS (-57.4‰) than in CK (-49.9‰). Calculation from the isotopic data showed that straw application increased the fraction of CH4 oxidized, causing no significant difference in the δ13C value of the emitted CH4 between the two treatments. 相似文献
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冬季淹水稻田CH4排放通量及其δ13C的时间变化特征 总被引:1,自引:0,他引:1
通过田间试验研究了持续淹水稻田冬季休闲期和水稻生长期CH4排放通量及其稳定性碳同位组成的时间变化。结果表明:CH4排放在冬季休闲期从4月份呈逐渐上升趋势,至6月份出现排放峰,为CH46.4 mg m-2h-1;水稻移栽后则迅速增加,于7月和8月出现两个排放峰,分别为CH423.1 mg m-2h-1和CH429.8 mg m-2h-1,此后急剧下降,末期稻田排水落干期间出现一个排放峰。冬季休闲期CH4排放总量为CH43.3 g m-2,占全年排放总量的8.9%。稻田排放的δ13CH4在冬季休闲期后期逐渐从-51‰上升至-44‰,然后下降至-56‰。水稻移栽后,δ13C值从-62‰迅速降至-68‰,然后慢慢上升至-60‰,并在较长一段时间内保持不变,后期再次富集13C。末期排水落干对排放δ13CH4影响显著。排放δ13CH4在水稻生长期较冬季休闲期低得多,原因在于冬季休闲期的CH4氧化率很高(60%~90%),而水稻生长期的CH4氧化率相对较低(10%~80%)。全观测期内,CH4排放通量的季节变化均与土壤温度显著正相关(p<0.01),与土壤Eh显著负相关(p<0.01),与δ13CH4呈显著负相关(p<0.05)。 相似文献
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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:6,自引:1,他引:6
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
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中国稻田CH4排放量估算研究综述 总被引:8,自引:0,他引:8
稻田是大气CH4的重要排放源,对中国稻田CH4排放量做出准确估算是中国CH4研究的主要目的之一。估算稻田CH4排放的方法主要有四种:根据田间测定结果或特定的排放系数和该值代表的稻田面积外推计算;将水稻的净初级生产力(NPP)的折算系数与模型相结合进行估算;根据新投入到土壤的有机碳量或原有土壤有机质碳折算;机理模型计算。其次,还有模型与GIS技术、其他方法相结合估算。稻田CH4排放在空间和时间尺度上的变异性是估算结果不确定性的主要驱动因素。统计分析显示中国稻田CH4排放量为8.4(7.2~9.5)Tga-1。 相似文献
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The Zoige alpine peatlands cover approximately 4,605 km2 of the Qinghai–Tibetan Plateau and are considered to constitute the largest plateau peatland on the Eurasian continent. However, the Zoige alpine peatlands are undergoing major degradation because of human activities and climate change, which would cause uncertainty in the budget of greenhouse gases (CH4 and CO2) and carbon (C) storage in global peatlands. This study simultaneously investigates the CH4 and CO2 emission fluxes and C storage at three typical sites with respect to the peatland degradation gradient: peatland, wet meadow and dry meadow. Results show that peatland degradation would increase the CO2 emission and decrease the CH4 emission. Moreover, the average C emission fluxes were 66.05, 165.78 and 326.56 mg C m?2 hr?1 for the peatland, wet meadow and dry meadow, respectively. The C storage of the vegetation does not considerably differ among the three sampling sites. However, when compared with the peatland (1,088.17 t C ha?1), the soil organic C storage decreases by 420 and 570 t C ha?1 in case of wet and dry meadows, respectively. Although the C storage in the degraded peatlands decreases considerably, it can still represent a large capacity of C sink. Therefore, the degraded peatlands in the Zoige alpine area must be protected and restored to mitigate regional climate change. 相似文献
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不同灌溉模式下寒地稻田CH_4和N_2O排放及温室效应研究 总被引:3,自引:0,他引:3
为了研究寒地稻田CH4和N2O排放特征,选取黑龙江省寒地稻田为研究对象,采用静态箱—气相色谱法对控制灌溉、间歇灌溉、浅湿灌溉及淹灌四种水分管理模式等4个处理的CH4和N2O排放通量进行观测。结果表明,不同灌溉模式下的CH4和N2O排放高峰均出现在水稻生长旺季,而休闲期内排放较少。相对于淹灌,浅湿灌溉稻田CH4累积排放量降低了27.2%,控制灌溉处理的降低了34%,间歇灌溉处理的降低了48.2%。长期淹灌稻田N2O排放量比间歇灌溉稻田减少0.41kg/hm2,比控制灌溉稻田增加0.38kg/hm2,比浅湿灌溉稻田增加0.37kg/hm2。总体温室效应分析,节水灌溉模式能有效抑制温室气体的排放并显著地降低CH4和N2O的总温室效应。水稻生育期内,CH4排放量减少时期,N2O排放量有增加趋势,综合考虑CH4和N2O排放的消长关系,才能有效减缓稻田温室气体的排放。 相似文献
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选取不同施肥处理的一季中稻田为研究对象,采用静态箱-气相色谱法对一季稻CH4排放通量进行手动观测。结果表明,与不施肥相比,各施肥处理CH4平均排放通量均有不同程度增加。其中稻草还田+化肥处理(稻草处理)CH4平均排放通量为31.04mg·m-2·h-1,比化肥处理和猪粪+化肥处理(猪粪处理)分别增加326.4%(P〈0.05)和211.7%(P〈0.05),鸡粪+化肥处理(鸡粪处理)比化肥和猪粪处理分别增加140.4%(P〈0.05)和75.7%(P〈0.05)。说明稻草还田和鸡粪处理显著增加稻田CH4排放通量,而猪粪处理与化肥无显著差异。同时对有关的环境因子进行分析表明,不同处理的土壤表层5cm温度、Eh与CH4排放通量存在显著相关关系;土壤pH值和水层厚度与稻田CH4季节排放通量相关性不明显。猪粪处理单位产量全球增温潜势(GWP)为0.83kg·kg-1,是较好的推荐施肥处理,对环境与产量之间效益的协调具有较好的作用。 相似文献
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若尔盖高寒草地沙化对土壤活性有机碳组分的影响 总被引:2,自引:2,他引:0
为了解若尔盖高寒草地沙化对土壤活性有机碳组分的影响,采用空间代替时间的方法,通过野外土壤采集,并结合室内化验分析,研究了若尔盖高寒草原不同沙化阶段土壤有机碳及其活性组分的含量和变化特征。结果表明:沙化对高寒草地0—60cm土层土壤有机碳含量具有显著影响,随沙化程度加剧,土壤总有机碳、溶解性有机碳、易氧化有机碳和微生物量碳含量均呈现显著下降的特征,极重度沙化阶段较潜在沙化阶段分别减少了74.76%,80.24%,76.02%和83.24%;活性有机碳组分的损失较土壤总有机碳明显,其中微生物量碳含量的下降幅度最大;随土层深度的增加,沙化草地土壤有机碳含量及其变化量均呈下降趋势,其中,0—20cm土层土壤有机碳含量变化最为显著;土壤总有机碳、溶解性有机碳、易氧化有机碳和微生物量碳含量均呈极显著正相关关系(P0.01)。 相似文献
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不同时期施用生物炭对稻田N_2O和CH_4排放的影响 总被引:7,自引:0,他引:7
通过分别在水稻季(R)和小麦季(W)设置对照(RB0-N0、WB0-N0)、单施氮肥(RB0-N1、WB0-N1)、20 t hm-2生物炭与氮配施(RB1-N1、WB1-N1)、40 t hm-2生物炭与氮配施(RB2-N1、WB2-N1)等8个处理,研究稻麦轮作周年系统N2O和CH4排放规律及其引起的综合温室效应(Global warming potential,GWP)和温室气体强度(Greenhouse gas intensity,GHGI)特征。结果表明:稻季配施20 t hm-2生物炭对N2O和CH4的排放、作物产量及GWP和GHGI均都无明显影响;稻季配施40 t hm-2生物炭能显著降低8.6%的CH4的排放和9.3%的GWP,显著增加作物产量17.2%。麦季配施20 t hm-2生物炭虽然对温室气体及GWP影响不明显,但显著增加21.6%的作物产量,从而显著降低21.7%的GHGI;麦季配施40 t hm-2生物炭能显著降低20.9%和11.3%的N2O和CH4排放,显著降低15.7%和23.5%的GWP和GHGI。因此麦季配施生物炭对减少N2O和CH4的排放、增加稻麦轮作产量及降低GWP和GHGI的效果较稻季配施生物炭效果更好。 相似文献
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Rice‐straw amendment increased methane production by 3‐fold over that of unamended control. Application of P as single superphosphate at 100 μg (g soil)–1 inhibited methane (CH4) production distinctly in flooded alluvial rice soil, in the absence more than in the presence of rice straw. CH4 emission from rice plants (cv. IR72) from alluvial soil treated with single superphosphate as basal application, in the presence and absence of rice straw, and held under non‐flooded and flooded conditions showed distinct variations. CH4 emission from non‐flooded soil amended with rice straw was high and almost similar to that of flooded soil without rice‐straw amendment. The cumulative CH4 efflux was highest (1041 mg pot–1) in rice‐straw‐amended flooded soil. Appreciable methanogenic reactions in rice‐straw‐amended soils were evident under both flooded and non‐flooded conditions. Rice‐straw application substantially altered the balance between total aerobic and anaerobic microorganisms even in non‐flooded soil. The mitigating effects of single‐superphosphate application or low‐moisture regime on CH4 production and emission were almost nullified due to enhanced activities of methanogenic archaea in the presence of rice straw. 相似文献
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不同灌溉模式和施氮处理下稻田 CH4 和 N2O 排放 总被引:4,自引:0,他引:4