我国城市生活垃圾处理温室气体排放特征

CH₄和CO₂是大气中主要的温室气体,研究我国城市生活垃圾处理过程中二者的排放情况,对制订温室气体减排政策和应对气候变化有着至关重要的意义. 利用IPCC(政府间气候变化专门委员会)提供的废弃物处理排放CH₄和CO₂的计算方法,对1979—2011年我国城市生活垃圾处理CH₄和CO₂排放量(不含港澳台数据)进行统计分析. 结果表明:①2011年我国城市生活垃圾人均清运量为0.46 t,比2000年增加了53.3%. ②1979—2011年,我国城市生活垃圾处理仍以填埋为主,焚烧和堆肥处理方式相对较少,但近年来焚烧处理量呈逐年增加趋势,其中2011年焚烧处理量是2001年的16.8倍. ③我国城市生活垃圾处理产生的CH₄和CO₂排放量均呈逐年增长趋势,至2011年,二者分别达到7 024.03×104 (以CO₂当量计,下同)和706.22×104 t;其中,2011年CH₄排放量是1990年的20.0倍,CO₂排放量是2001年的16.8倍. ④城市生活垃圾产生的温室气体排放具有明显的地域特性,其中华东地区CH₄和CO₂排放总量高达2 570.98×104 t;西北地区最小,仅为482.3×104 t. 该差异与城市发展规模、人们生活习惯和城市化进程等影响因子紧密相关.      

Sulfate-containing amendments to reduce methane emissions from rice fields: mechanisms,effectiveness and costs

Application of sulfate-containing amendments is oftensuggested as a mitigation option to reduce methane (CH₄) emissionsfrom rice (Oryza) fields. This paper discusses the mechanism andpotential of this mitigation option, reviews the relevant experimental data,and presents first, indicative costs of application. CH₄ emission datafor rice fields with sulfate-containing amendments are compiled toreinterpret the resulting reduction in CH₄ emission and find a generalrelationship between emission reduction and amount of sulfate applied. Thereduction in CH₄ emission depends on the amount of sulfate applied.However, absolute emission reduction is location specific and cannot bederived from the amount of sulfate (SO^2- ₄) applied only. We established alogarithmic relationship, across locations, between SO^2- ₄ application andfractional emission reduction relative to the emission of the non-amendedcontrol field. Recycling of SO^2- ₄ in the rhizosphere was essential to explainthe observed reductions in CH₄ emission for a number of theexperiments. The cost of applying SO^2- _{_4}-containing fertilizers varies acrosscountries and depends on local fertilizer prices. Since a fractional reductionis obtained, the cost-efficiency in terms of CH₄ mitigation per unitof SO^2- ₄ applied will be highest in high-emitting rice production systems.Provided the proper target areas are selected, the cost of SO^2- ₄-containingfertilizer as a mitigation option to reduce CH₄ emissions in rice fieldsis estimated at 5–10 US dollar per Mg CO₂-equivalent.     

氮输入对沼泽湿地碳平衡的影响

以小叶章沼泽化草甸为对象,利用静态箱-气相色谱法,在三江平原进行野外原位试验,研究氮输入对沼泽湿地碳平衡及其各分量的影响.氮素输入后,沼泽湿地生态系统总初级生产力提高,生物量增大,分别比对照处理增加了10%和26.8%.同时,CH₄和生态系统呼吸CO₂排放量提高,而生态系统CO₂净交换(NEE)和净碳(CO₂和CH₄都转化成对应的碳)交换降低,CO₂、CH₄和NEE的季节变化动态未改变.2004年整个生长季氮输入处理的CO₂和CH₄排放量分别比对照处理升高了34%和145%,NEE和净碳交换分别降低了70%和81.6%,但整个生长季2个处理仍然表现为碳的净吸收.氮输入没有改变沼泽湿地碳“汇”的功能,只是减弱了其作为碳“汇”的功能.     

Responses of greenhouse gas fluxes to experimental warming in wheat season under conventional tillage and no-tillage fields

Understanding the effects of warming on greenhouse gas(GHG, such as N_2O, CH_4 and CO_2 )feedbacks to climate change represents the major environmental issue. However, little information is available on how warming effects on GHG fluxes in farmland of North China Plain(NCP). An infrared warming simulation experiment was used to assess the responses of N_2O, CH_4 and CO_2 to warming in wheat season of 2012–2014 from conventional tillage(CT) and no-tillage(NT) systems. The results showed that warming increased cumulative N_2O emission by 7.7% in CT but decreased it by 9.7% in NT fields(p 0.05). Cumulative CH_4 uptake and CO_2 emission were increased by 28.7%–51.7% and 6.3%–15.9% in both two tillage systems,respectively(p 0.05). The stepwise regressions relationship between GHG fluxes and soil temperature and soil moisture indicated that the supply soil moisture due to irrigation and precipitation would enhance the positive warming effects on GHG fluxes in two wheat seasons.However, in 2013, the long-term drought stress due to infrared warming and less precipitation decreased N_2O and CO_2 emission in warmed treatments. In contrast, warming during this time increased CH_4 emission from deep soil depth. Across two years wheat seasons, warming significantly decreased by 30.3% and 63.9% sustained-flux global warming potential(SGWP) of N_2O and CH_4 expressed as CO_2 equivalent in CT and NT fields, respectively. However, increase in soil CO_2 emission indicated that future warming projection might provide positive feedback between soil C release and global warming in NCP.     

Geological CO2 Storage as a Climate Change Mitigation Option

Carbon dioxide (CO₂₎ capture and storage is increasingly being considered as an important climate change mitigation option. This paper explores provisions for including geological CO₂ storage in climate policy. The storage capacity of Norway's Continental Shelf is alone sufficient to store a large share of European CO₂ emissions for many decades. If CO₂ is injected into oil reservoirs there is an additional benefit in terms of enhanced oil recovery. However, there are significant technical and economic challenges, including the large investment in infrastructure required, with related economies of scale properties. Thus CO₂ capture, transportation and storage projects are likely to be more economically attractive if developed on a large scale, which could mean involving two or more nations. An additional challenge is the risk of future leakages from storage sites, where the government must take on a major responsibility. In institutional and policy terms, important challenges are the unsettled status of geological CO₂ storage as a policy measure in the Kyoto Protocol, lack of relevant reporting and verification procedures, and lack of decisions on how the option should be linked to the flexibility mechanisms under the Kyoto Protocol. In terms of competitiveness with expected prices for CO₂ permits under Kyoto Protocol trading, the relatively high costs per tonne of CO₂ stored means that geological CO₂ storage is primarily of interest where enhanced oil recovery is possible. These shortcomings and uncertainties mean that companies and governments today only have weak incentives to venture into geological CO₂ storage.     

长春城市水体夏秋季温室气体排放特征

为掌握我国东北地区城市湖泊水体温室气体的释放/吸收特征,本研究分别于夏季和秋季,对位于吉林省长春市的7个城市湖泊(南湖、北湖、雁鸣湖、胜利公园、地理所内湖、天嘉公园和长春公园)表层水中的CO_2和CH_4分压[p(CO_2)和p(CH_4)]进行了监测,并对影响p(CO_2)和p(CH_4)季节变化的相关环境和水质参数进行了分析.研究结果表明在夏季和秋季这7个城市湖泊表层水体中CH_4都处于过饱和状态;除夏季的南湖和胜利公园内湖,其它湖泊CO_2也都处于过饱和状态,且不同湖泊间的温室气体分压具有显著性差异(P0.05),通量也同样具有显著性差异(P0.05).除了南湖和胜利公园内湖外,其它各湖泊在夏秋季节都是大气CO_2和CH_4的"源",且对大气中温室气体的贡献都以CO_2为主.环境参数与p(CO_2)或p(CH_4)之间的相关性分析表明,在夏季,城市湖泊表层水体中p(CO_2)和p(CH_4)都与日照时数呈显著负相关(r_(p(CO_2))=-0.48,P0.05;r_(p(CH_4))=-0.63,P0.01),日照时数通过影响水生植物的光合作用进而影响水体中CO_2和溶解氧浓度,p(CH_4)还与降水量呈显著正相关(r_(p(CH_4))=0.44,P0.05);在秋季,p(CO_2)与气温呈显著负相关(r_(p(CO_2))=-0.39,P0.05).另外,水质参数与p(CO_2)和p(CH_4)的相关性分析表明,这些城市湖泊表层水体的p(CO_2)和p(CH_4)都与水体pH显著负相关(r_(p(CO_2))=-0.51,r_(p(CH_4))=-0.82,P0.01),与盐度显著正相关(r_(p(CO_2))=0.38,P0.05;r_(p(CH_4))=0.75,P0.01),p(CH_4)还与水体DOC、TN和TP均具有显著相关性(P0.01).从研究结果可以推测在这7个富营养城市湖泊中,水体的营养物水平及其所决定的浮游植物生物量并不是影响表层水体p(CO_2)的最主要因素,而日照时数、水体pH和盐度与夏秋季表层水体中的p(CO_2)和p(CH_4)有较大关联.     

淹水增加对闽江河口淡水潮汐湿地孔隙水地球化学特征及CO2和CH4排放通量的影响

海平面上升使得河口潮汐湿地淹水高度增加,对CO_2和CH_4的排放通量产生重要影响,但目前绝大多数研究集中在淹水增加对河口盐沼湿地的影响,淹水增加对于河口淡水潮汐湿地的影响缺乏数据.鉴于此,本研究利用模拟潮汐池和中型生态系,研究淹水增加15 cm和30 cm后对闽江河口淡水潮汐湿地孔隙水(NH_4+、NO_3-、DOC、溶解性CH_4和DIC)浓度及CO_2和CH_4排放通量的影响.结果表明,淹水高度增加15 cm和30 cm后,CO_2的排放通量分别下降28. 53%和36. 56%;淹水增加15 cm时,CH_4的排放通量没有显著变化,增加至30 cm后,CH_4的排放通量显著增加29. 27%;淹水高度增加15 cm和30 cm,孔隙水CH_4的浓度分别增加47. 83%和73. 91%.淹水增加对孔隙水DOC浓度变化影响不显著.淹水增加促进孔隙水NH_4+浓度,并降低孔隙水DIC和NO_3-的浓度.淹水增加降低CO_2和CH_4排放通量的温度敏感性.根据研究结果,未来海平面上升50 a和100 a后,闽江河口淡水潮汐湿地的综合增温潜势将分别降低28%和35%.     

Technology-side carbon abatement cost curves for China’s power generation sector

China is among the largest emitters of carbon dioxide (CO₂), worldwide Thus, its emissions mitigation is of global concern. The power generation sector is responsible for nearly half of China’s total CO₂ emissions and plays a key role in emissions mitigation. This study is an integrated evaluation of abatement technologies, including both low-carbon power generation technologies and retrofitting options for coal power plants. We draw marginal abatement cost curves for these technologies using the conservation supply curve method. Using scenario analysis for the years 2015 to 2030, we discuss the potential performance of abatement technologies. Marginal costs for the analyzed abatement technologies range from RMB ? 357.41/ton CO₂ to RMB 927.95/ton CO₂. Furthermore, their cumulative mitigation potential relative to the baseline scenario could reach 35 billion tons of CO₂ in 2015–2030, with low-carbon power generation technologies and coal power abatement technologies contributing 55% and 45% of the total mitigation, respectively. Our case study of China demonstrates the power generation sector’s great potential to mitigate global emissions, and we suggest nuclear power, hydropower, and the comprehensive retrofitting of coal power as key technology options for the low-carbon transition of the energy system and long-term emissions mitigation strategies.

     

水氮组合模式对双季稻甲烷和氧化亚氮排放的影响

为给双季稻水肥高效利用调控技术提供理论基础,设置间歇灌溉和淹水灌溉两种灌溉方式,高氮、中氮、低氮和不施氮这4种施肥方式,开展大田小区试验,探讨了水氮组合模式对双季稻CH4和N2O排放的影响.结果表明,间歇灌溉显著降低了CH4积累排放量,与淹水灌溉相比,早晚稻分别降低13.18~87.90 kg·hm-2和74.48~131.07 kg·hm-2,分别减排了24.4%~67.4%和42.5%~66.5%;但促进了N2O排放,早晚稻的增排量分别为0.03~0.24 kg·hm-2和0.35~1.53 kg·hm-2,分别比淹水灌溉增加6.2%~18.3%和40.2%~80.9%.总体上,间歇灌溉降低了稻田温室气体的增温潜势,其中早稻降低了18.8%~58.6%,晚稻降低34.4%~60.1%,两季综合降低2 388~4 151 kg·hm-2(以CO2eq计),下降41%~54%.通过相关分析发现,土壤CH4排放和土壤溶液Eh显著负相关,和溶液CH4浓度显著正相关.与淹水灌溉相比间歇灌溉模式有利于减排CH4,虽增排了N2O,但增温潜势显著减少.综合来看,间歇灌溉配施中氮更有利于双季稻种植.     

杭州西溪湿地CH4、CO2通量及其主要影响因子

本研究采用便携式温室气体分析仪连接通量箱在线监测杭州西溪湿地CH_4、CO_2通量日变化及季节变化,同时也对包括有机碳含量、湿度、孔隙度、比重、p H、Eh在内的潜在影响因子进行了研究。结果表明,通常情况下,CH_4、CO_2通量的变化分别为-0.001 9~0.035 3mg/(m~2·h)和-109.76~442.55mg/(m~2·h);CH_4、CO_2通量的变化存在明显正相关关系。CH_4通量的季节变化表现为夏季秋季春季冬季;CO_2通量的季节变化表现为夏季春季冬季秋季。土壤湿度是影响CH_4通量变化的重要因子,通常湿度越大,CH_4通量越大;在生长季维管植物有助于CH_4的氧化;西溪湿地土质差异也使CH_4、CO_2通量排放有所差异,具体表现在土壤有机碳含量相差较大,而土壤中有机碳的含量与CH_4产生潜力呈显著正相关。     

Modeling the impact of mitigation options on methane abatement from rice fields

The enhanced concentration of methane (CH₄) in the atmosphere is significantly responsible for the ominous threat of global warming. Rice (Oryza) paddies are one of the largest anthropogenic sources of atmospheric CH₄. Abatement strategies for mitigating CH₄ emissions from rice fields offer an avenue to reduce the global atmospheric burden of methane and hence the associated menace of climate change. Projections on population growth suggest that world rice production must increase to meet the population’s food energy demand. In this scenario, those mitigation options are advocated which address both the objectives of methane mitigation and increased production of rice simultaneously. In this paper, we have formulated a nonlinear mathematical model to investigate the effectiveness and limitations of such options in reducing and stabilizing the atmospheric concentration of CH₄ while increasing rice yield. In modeling process, it is assumed that implementation rate of mitigation options is proportional to the enhanced concentration of atmospheric CH₄ due to rice fields. Model analysis reveals that implementation of mitigation options not always provides “win-win” outcome. Conditions under which these options reduce and stabilize CH₄ emission from rice fields have been derived. These conditions are useful in devising strategies for effective abatement of CH₄ emission from rice fields along with sustainable increase in rice yield. The analysis also shows that CH₄ abatement highly depends on efficiencies of mitigation options to mitigate CH₄ emission and improve rice production as well as on the implementation rate of mitigation options. Numerical simulation is carried out to verify theoretical findings.     

农垦与放牧对内蒙古草原N2O、CO2排放和CH4吸收的影响

利用优选静态箱/气相色谱法(GC),首次对我国内蒙古草原典型地区进行了人类活动对N₂O、CO₂和CH₄交换通量影响的实验观测结果表明,农垦麦田N₂O平均排放通量比原始草原高出3倍,并改变了草甸草原为CO₂汇的性质,使其季节排放净通量以C计增加14.3 mg·(m²·h).随放牧强度的增加CO₂排放通量呈线性增长,轻牧会引起草原对CH₄吸收的大幅增加,而随着放牧压力的增大,增加值迅速回落.农垦麦田与草甸草原相比地-气间CH₄交换无显著变化,放牧强度对N₂O排放影响无显著规律.土壤湿度和温度是影响草原排放N₂O和CO₂、吸收CH4季节变化形式的关键因子,而人类活动仅影响排放强度.排放和吸收量年际间差异很大,但主要受降水的影响.N₂O和CO₂排放与CH₄吸收峰值相反现象普遍存在.     

瓦里关气相色谱法大气CO_2和CH_4在线观测数据处理分析

加强我国本底站温室气体数据资源的科学管理与共享,首先应保证观测全流程的标准化和规范化,确立数据处理和质量控制方法.我国青海瓦里关全球本底站自1994年开始了气相色谱-氢火焰离子化检测器法(GC-FID)大气CO2和CH4在线观测,本文详细讨论了该系统原始资料采集、数据信息合并、时间序列检查、观测员级质量控制和专家级质量控制等流程.利用局部近似回归法对大气CO2和CH4数据进行本底值筛分,获得CO2本底数据百分比约占有效数据的72%、CH4占44%.在线观测的CO2和CH4月平均浓度与同期瓶采样分析结果基本一致,相对偏差均在±0.5%以内.经流程化处理和质控的瓦里关大气CO2和CH4本底浓度变化资料已进入全球同化数据库(Globalview-CO2、Globalview-CH4),报送世界温室气体数据中心(WDCGG)并应用于世界气象组织(WMO)温室气体公报和联合国政府间气候变化专门委员会(IPCC)评估.     

江西赣州站大气CO2和CH4浓度变化特征研究

通过分析2018年12月—2019年11月江西赣州站大气CO₂和CH₄浓度高精度在线观测资料,对其CO₂和CH₄浓度变化特征进行了研究,分析了区域大气输送的影响以及潜在排放源区分布特征.结果表明：研究期内赣州站CO₂和CH₄的平均浓度分别为433.1×10^-6和2142.5×10^-9.赣州站CO₂和CH₄浓度日变化均表现为日间低、早晚高,CO₂浓度日振幅在夏季最大,为29.7×10^-6,冬季最小,为6.9×10^-6.CH₄浓度日振幅在秋季最大,为145.1×10^-9,冬季最小,为41.4×10^-9.CO₂本底浓度季节变化表现为4—8月迅速下降,8—11月逐渐上升,最大值出现在1月,最小值出现在8月,季节振幅为26.2×10^-6.CH₄本底浓度季节变化表现为1—7月逐渐下降,7—9月逐渐上升,最大值出现在1月,最小值出现在7月,季节振幅为79.5×10^-9,基本可代表江西赣州地区混合均匀大气的CO₂和CH₄季节变化状况.与南昌站对比分析表明,赣州站各季节CO₂和CH₄本底浓度均低于南昌站.赣州地区CO₂和CH₄潜在源区主要分布在江西北部、湖北东部、安徽南部和珠江三角洲地区.     

Effect of long-term fertilization on C mineralization and production of CH4 and CO2 under anaerobic incubation from bulk samples and particle size fractions of a typical paddy soil

Impacts of nutrient management on C mineralization and greenhouse gas (GHGs) emission from soils have been of much concern in global change. Using laboratory incubation, the production of CH₄ and CO₂ were studied from both bulk samples and the particle size fractions (PSF) of topsoil from a paddy under a long-term different fertilization trial (including non (NF), chemical without (CF) and with manure (CFM) fertilization, respectively) in the Tai Lake Region, China. Four PSFs (2000–200, 200–20, 20–2, <2 μm) were separated from undisturbed samples collected after rice harvest by a low-energy ultrasonic dispersion procedure. Both the bulk samples and PSFs were incubated under submerged condition for 72 days. The concentration of CH₄ and CO₂ evolved during incubation were determined by gas chromatography. C mineralization rates ranged from 0.13 to 0.52 mg C g⁻¹ C day⁻¹, with different fertilizations and size of the PSFs, and were not correlated with C/N ratio. While CO₂ production predominated over CH₄ from C mineralization from both bulk samples and the size fractions, CH₄ production played a predominant role in the total global warming potential (GWP) under all treatments. C mineralization of bulk soil was significantly higher under CF than under CFM and NF. CH₄ production, however, was 3 times as under CFM and 27 times as under NF, indicating a tremendous effect of chemical fertilization alone on the total GWP. CO₂ production from the PSFs differed from CH₄ under a single treatment, which was notably from the coarse PSFs larger than 200 μm. Higher C mineralization and CH₄ production with a higher metabolic quotient under CF implicated a vulnerability of soil functioning of GHGs mitigation in the paddy receiving chemical fertilizers only. Thus, rational organic amendments should be undertaken for mitigating the climate change.     

Long-term reductions in costs of controlling regional air pollution in Europe due to climate policy

This paper examines to what extent climate change policies will alter the effectiveness of agreed-upon or future policies to reduce regional air pollution in Europe and vice versa. And when is it cost-effective to combat regional air pollution with clean technology instead of add-on technology?For this exercise, several extensions were made to the energy model TIMER, to introduce add-on abatement technologies, specified in terms of costs and reduction potentials, in order to be able to calculate cost-effective emission reduction strategies for different scenarios and regions.The results show that add-on technologies to reduce regional air pollution remain necessary throughout the century. The costs to reach the NO_x emission reduction targets in Europe are about three times as high as for SO₂. Mitigation costs averaged over the century by add-on technologies can be reduced by climate measures by 50–70% for SO₂ and around 50% for NO_x. The costs of SO₂ and NO_x mitigation by add-on technology in a world without climate policy are comparable or in some periods even higher than the costs of an integrated mitigation of SO₂, NO_x and CO₂ emissions if a reduction of specific costs by learning is, in contrast with energy technologies, not assumed for abatement technologies. So, the costs of SO₂ and NO_x add-on measures avoided by climate policies can outweigh the costs of these climate measures. The total annual costs are in the order of 1 or 2% of the present GDP, depending on the scenario.     

2010年中国机动车CH4和N2O排放清单

中国大部分机动车温室气体排放研究都集中于CO₂排放,对于CH₄和N₂O等排放的研究鲜见. 以中国机动车污染防治年报(2011年)、中国汽车工业年鉴(2011年)、中国统计年鉴(2011年)以及交通运输部发布的相关信息和数据(2011年)等为基础,结合文献调研和2008─2010年对北京、广州等国内10余座典型城市的实地调查结果,获得2010年我国机动车活动水平及排放特征. 基于上述基础信息,解析得到按不同车型、燃料和车龄分布的机动车保有量、年均行驶里程及排放因子,建立2010年中国机动车CH₄和N₂O排放清单. 结果表明:2010年中国机动车CH₄和N₂O排放量分别为23.90×104和6.01×104t,折算成CO₂分别为501.99×104和1862.51×104t. 不确定性分析则显示,中国CH₄排放量在18.21×104～27.52×104t之间,N₂O排放量在4.32×104～7.62×104t之间. 在机动车中,汽车CH₄和N₂O排放量最大,分担率(某车型污染物排放量占机动车排放总量的比例)分别为77.99%和94.22%,而摩托车和农用车排放分担率较小. 在各类汽车中,CH₄排放主要来源于轻型汽油车和天然气出租车,二者的排放分担率分别为47.98%和23.42%;N₂O排放则主要源于轻型汽油车,其分担率为73.09%. 因此,轻型汽油车是削减机动车CH₄和N₂O排放的重点车型,同时天然气出租车也应作为控制CH₄排放的主要车型.      

Carbon Dioxide Emission Reduction Scenarios in Mexico for Year 2005: Industrial Cogeneration and Efficient Lighting

An analysis of the impacts on Mexican energy demand and associated carbon dioxide (CO₂) emissions in the year 2005 due to efficient lighting in the commercial and residential sectors and cogeneration in the industrial sector is presented. Estimation of CO₂ abatement costs and an incremental cost curve for CO₂ mitigation options are considered. These technologies are cost effective opportunities, and together are projected to reduce CO₂ emissions in 2005 by nearly 13 percent. Implementation of efficient lighting is already part of the demand side management (DSM) programs of the Mexican state-owned utility. However, there are important barriers that may hinder the implementation of large scale cogeneration plants.     

Temporary Carbon Sequestration Cannot Prevent Climate Change

Storing carbon in biosphere sinks can reduce atmospheric CO₂ concentrations in the short term. However, this lowers the concentration gradient between the atmosphere and the oceans and other potential carbon reservoirs, and consequently reduces the rate of CO₂ removal from the atmosphere. If carbon is released again from that temporary storage, subsequent atmospheric CO₂ concentrations will, therefore, be higher than without temporary carbon storage. It is thus important to analyse whether temporary carbon storage in biosphere sinks can mitigate climate-change impacts. To analyse that, climate-change impacts need to be quantified explicitly. Impacts can be quantified:

1. as the instantaneous effect of increased temperature
2. through the rate of temperature increase
3. as the cumulative effect of increased temperatures.

The analysis presented here shows that temporary carbon storage only reduces climate-change impacts related to the cumulative effect of increased temperature and could even worsen impacts mediated via the instantaneous effect of temperature or the rate of temperature change. This applies under both high and low greenhouse-gas emission scenarios. Because temporary carbon storage improves some, but worsens other, climate-change impacts, it achieves very little on average. For greenhouse mitigation, it is, therefore, not warranted to provide policy incentives for temporary carbon storage.     

稻田不同种类有机肥施用对后季麦田N2O排放的影响

以稻麦轮作系统为对象,研究水稻生长季基肥施用不同有机物料对后季麦田N₂O排放及年轮作系统CH₄和N₂O综合温室效应的影响.结果表明:与施用化肥(化肥处理)相比,施用菜饼加化肥(菜饼处理)对后季麦田N₂O排放量无影响;施用小麦秸秆加化肥(小麦秸秆处理)导致后季麦田的N₂O排放量减少15%;施用牛厩肥加化肥(牛厩肥处理)和猪厩肥加化肥(猪厩肥处理)分别增加29%和16%.就稻麦年轮作生长季总体而言,菜饼、牛厩肥和猪厩肥处理稻麦生长季N₂O排放总量较化肥处理分别增加6%、17%和7%,然而,小麦秸秆处理N₂O排放总量减少16%.20a或500a时间尺度上各处理稻田CH₄排放和该轮作周期水稻和小麦生长季N₂O排放的总GWP值由大到小的顺序分别为:菜饼处理>小麦秸秆处理>牛厩肥处理>猪厩肥处理>化肥处理或菜饼处理>牛厩肥处理>猪厩肥处理>小麦秸秆处理>化肥处理.单位产量的GWP以作物残体处理最高,农家肥其次,化肥处理最低.因此,稻田基施不同种类有机物料都相应地增加稻麦轮作系统CH₄和N₂O排放的综合温室效应.