陆地生态系统卤甲烷释放特点及其生态意义

大气卤甲烷与平流层臭氧破坏密切相关,并参与光化学反应,还具有一定的．温室效应和污染毒害作用。研究发现：(1)大气CH3Cl和CH3Br存在巨大的未知源,它们的已知源分别仅占已知汇的大约1／2～2／3和60％。而CH3I的源和汇还都不确切;(2)陆地生态系统有可能是最大的卤甲烷自然释放源;(3)生物合成和土壤非生物生产是陆地生态系统卤甲烷生产的两个主要途径;(4)沿海湿地、水稻田、热带森林等陆地生态系统是卤甲烷主要释放源;(5)陆地生态系统卤甲烷的自然释放可能在生物竞争、生物代谢和大气环境污染方面具有重要的生态意义;(6)随着大气卤甲烷人为释放源的控制,其自然释放源的相对重要性将更加突出。提出了当前陆地生态系统卤甲烷释放研究的重点方向以及我国开展相关研究的重要意义。     

大气甲烷的源和汇与土壤氧化 (吸收)甲烷研究进展

甲烷是主要的温室气体之一,对温室效应的贡献仅次于CO₂,而每分子甲烷温室增温潜力是CO₂的21倍.因此确定全球大气甲烷的源与汇,并对其进行估算、预测已成为目前全球环境变化及温室效应研究的一个热点.本文概述了国内外大气甲烷源与汇研究的进展情况,详述了土壤氧化(吸收)大气与内源甲烷机理及其影响因子(如土地利用情况、环境甲烷浓度、土壤温度、湿度、pH值、孔隙状况等).最后指出,通过在长白山森林垂直分布带开展地带性土壤甲烷氧化(吸收)研究,对估算我国温带至寒带、高山苔原带土壤吸收甲烷总量,乃至全球甲烷汇具有重要意义.     

大气溴甲烷的释放与控制研究

大气溴甲烷是破坏大气臭氧层的主要化合物之一,既有人为释放,也有自然释放,目前还存在着巨大的未知源。了解大气溴甲烷释放规律和控制措施,不仅对保护臭氧层具有重要意义,而且是大气溴甲烷含量的历史追溯和未来预测的重要基础,是全球变化研究热点。全面介绍了大气溴甲烷排放的途径和机制以及调控排放通量的主要措施,并分析了近期的优先研究领域。     

土壤CH_4氧化与土壤甲烷营养菌及主要研究方法

甲烷营养菌(methanotrophs)是一类以CH_4为唯一碳源和能源的细菌,广泛分布在水稻土、森林土、苔原土、泥炭地、海洋与湖泊底泥、堆肥、垃圾填埋场及地下水等环境中,并作为大气甲烷(CH_4)唯一的生物汇(库),在全球温室效应研究中备受关注.目前,关于土壤甲烷营养菌的研究主要包括菌株的多样性、生态分布以及环境因素对微生物氧化CH_4过程的影响.本文从甲烷营养菌的分类入手,概述稻田土壤CH_4的氧化与释放、旱地土壤CH_4的氧化以及影响土壤CH_4氧化的因素等方面的研究进展,同时介绍了土壤甲烷营养菌研究领域的几种主要的分子研究技术,以期为甲烷营养菌相关的研究提供参考.     

长江口滨海湿地潮间带生态系统的多稳态特征

多稳态现象普遍存在于多种生态系统中,它与生态系统的健康和可持续发展密切相关,已成为生态学研究的热点与难点,但是目前有关滨海湿地生态系统多稳态的形成机制还缺乏深入研究.本文以崇明东滩鸟类自然保护区的潮间带生态系统为研究对象,通过以下内容,开展滨海湿地多稳态研究: 1)通过验证多稳态的判定依据“双峰”和“阈值”特征,证实长江口潮间带生态系统存在多稳态,并确定其稳态类型;2)通过监测潮间带生态系统水动力过程、沉积动力过程以及盐沼植物生长和扩散情况,分析盐沼植被与沉积地貌之间的正反馈作用,进而探讨潮间带生态系统多稳态的形成机制.结果表明: 1)潮间带生态系统的归一化植被指数(NDVI)频度分布存在明显的双峰特征,且盐沼植物成活存在生物量阈值效应,均证实潮间带生态系统存在多稳态,“盐沼”和“光滩”是潮间带生态系统的两种相对稳定状态;2)崇明东滩盐沼前沿的沉积地貌表现出泥沙快速淤积的趋势,显著促进了盐沼植物的生长,盐沼植物与泥沙淤积之间的这种正反馈作用是潮间带生态系统形成多稳态的主要原因;3)盐沼植被扩散格局监测结果在景观尺度上也表明,泥沙淤积作用促进了潮间带生态系统“盐沼”和“光滩”多稳态的形成.本研究既丰富了滨海湿地稳态转换的机理研究,也为我国开展海岸带保护、修复和管理提供了科学依据,具有重要的理论和实践意义.     

垃圾填埋场甲烷氧化菌及甲烷减排的研究进展

垃圾填埋场是全球最重要的人为甲烷排放源之一,其全球年甲烷释放量为35-69 Tg,垃圾填埋场甲烷减排是目前全球温室气体研究的热点。甲烷氧化菌能够氧化分解甲烷,作为减少大气甲烷排放的重要生物汇,对保持大气中甲烷浓度的平衡具有重要意义。从甲烷氧化菌的类型及其特征、甲烷氧化机理着手,介绍了多样性研究方法、填埋场中甲烷氧化菌的活性影响因素及甲烷生物减排应用等最新研究进展。在综述前人研究的基础上,探讨了目前研究的不足,提出了利用甲烷氧化菌复合微生物菌剂等综合处理措施,旨为垃圾填埋场甲烷减排的研究和应用提供新的思路。     

苏北海岸带盐沼二氯甲烷和1,2-二氯乙烷通量沿高程梯度的变化特征

2004年4月到2005年1月在我国东部海岸带盐沼上沿高程梯度采用静态箱技术原位测定二氯甲烷(DCM, CH2Cl2)和1,2-二氯乙烷(1, 2-DCA, CH2CH2Cl2)气体通量.为确定高等植物对通量的贡献,进行了高等植物地上部分去除实验.也对通量与生态因子间关系进行了分析.研究结果表明:在高程梯度上,生长季(4～10月份)盐沼整体上表现为DCM和1, 2-DCA的净汇,其中,米草带和光滩对DCM和1, 2-DCA的消耗率最高.非生长季(11月到翌年3月份)表层冻结的植被带表现为DCM和1, 2-DCA的弱源,但是受非生长季采样量不足的限制,难以确定盐沼究竟是DCM和1, 2-DCA的净源还是净汇.高等植物去除实验结果表明生长季高等植物地上部分是DCM和1, 2-DCA的重要汇,而非生长季为净源,然而高等植物排放和消耗DCM和1, 2-DCA气体的基本机制还不清楚.盐沼DCM和1, 2-DCA通量正相关于光照强度、土壤可溶性盐含量、土壤有机质和全氮含量,而负相关于土壤温度、硫酸盐含量和大气中DCM和1, 2-DCA浓度.这表明盐沼对DCM和1, 2-DCA的吸收可能与相对较高的DCM和1, 2-DCA大气背景浓度和丰富的土壤有机质含量有关.     

中国滨海盐沼湿地碳收支与碳循环过程研究进展

滨海盐沼湿地由于其较高的初级生产力和较缓慢的有机质降解速率而成为缓解全球变暖的有效蓝色碳汇,近年来引起全球范围内的热切关注.我国滨海盐沼湿地分布较广,国内学者对滨海盐沼湿地碳循环及碳收支研究取得了一定进展,深入研究滨海盐沼湿地碳循环有助于对全球碳循环及全球变化的理解,并为利用滨海湿地进行碳的增汇减排提供科学依据.主要从我国滨海盐沼湿地碳循环主要观测方法、碳收支与碳循环过程及特点、碳库的组成与影响因素、气态碳的输入输出、潮汐作用对其碳收支的影响这5个方面出发,对国内的滨海盐沼湿地碳循环与碳收支的研究进展进行了归纳总结,并对今后的研究方向给出如下建议:(1)加强滨海盐沼湿地土壤碳库在深度上和广度上的研究;(2)标准化滨海盐沼湿地碳储量、碳通量的量化方法和观测技术;(3)在研究尺度上要宏观、微观并重,同时加强长期原位监测湿地碳通量的变化与室内模拟研究;(4)量化在潮汐影响下滨海盐沼湿地碳与邻近生态系统之间的横向交换通量.只有对我国滨海盐沼湿地碳库收支进行更准确的评估和长期的碳库动态变化监测,方可进一步认识我国盐沼湿地对全球气候变化的影响及其反馈作用,这对于预测全球变化及制定湿地碳储备功能的提升策略具有重要的意义.     

黄河口潮间盐沼湿地生长季净生态系统CO2交换特征及其影响因素

潮间盐沼湿地生物地球化学过程独特,生态系统CO2交换存在着极大的复杂性和不确定性。利用2012年黄河口潮间盐沼湿地生态系统生长季(4—10月)连续的涡度相关观测数据,分析了潮间盐沼湿地的净生态系统CO2交换(NEE)、总初级生产力(GPP)和生态系统呼吸(Reco)的变化特征及其影响因素。结果表明:生长季,生态系统NEE具有明显的日变化和季节变化。日尺度上,表现为白天CO2净吸收,夜间CO2净释放,NEE日平均值为-0.38 g CO2m-2d-1;月尺度上,平均气温最高的7月生态系统释放CO2最多(15.16 g C/m2),6月生态系统吸收CO2最多(25.07 g C/m2)。潮间盐沼湿地生态系统的CO2交换受到光合有效辐射(PAR)、土壤温度(Ts)、土壤含水量(SWC)和潮汐淹水的共同影响。白天NEE主要受控于PAR,且生态系统表观初始光能利用率(α)和最大光合速率(NEEsat)分别在6月和5月达到最大值,分别为(0.0086±0.0019)μmol CO2μmol-1光子和(4.79±1.52)μmol CO2m-2s-1。夜间NEE随Ts呈指数增加趋势,生态系统呼吸的温度敏感性(Q10)为1.33,且SWC越高,Q10值越大。研究典型晴天(6月19日—6月25日)表明,潮汐淹水增强了生态系统白天对CO2的吸收,同时也增强了夜间CO2释放,研究时段内,潮汐淹水使生态系统净CO2吸收增加了0.76 g CO2m-2d-1。整个生长季,黄河口潮间盐沼湿地生态系统表现为CO2的汇,NEE为-22.28 g C/m2(其中,吸收118.34 g C/m2,释放96.28 g C/m2)。研究结果利于对潮间盐沼湿地源汇功能和影响机制的进一步认识与研究。     

鼎湖山典型森林地表卤代烃通量对氮沉降的响应

卤代烃(volatile halogenated organic compounds,VOX)是一类已被公认的大气环境污染物,能导致臭氧层空洞和温室效应。虽然海洋是卤代烃主要的源汇区,但是森林生态系统地表卤代烃通量对全球卤代烃循环也存在着重要贡献。全球氮沉降量逐年增加,严重影响森林生态系统的结构与功能,从而导致地表卤代烃源汇发生改变。本研究运用静态箱及大气预浓缩仪-GC-MS系统分析了鼎湖山马尾松林(PF)和季风常绿阔叶林(BF)地表卤代烃通量及其对氮沉降的响应。结果表明:自然氮沉降下,马尾松林地表为卤代烃的汇,吸收速率最大的化合物为1,1,2-三氯乙烷,达-428.32 pmol·m-2·s-1;施氮促进卤代烃排放,且中氮效果显著,地表由"汇"变成"源";阔叶林地表为卤代烃的源,氮增加抑制其排放,部分卤代烃由"源"变为"汇",对照样地与氮处理样地存在显著差异。自然氮沉降下,林型间卤代烃通量存在显著差异,加氮后差异减弱甚至消失。加氮处理样地,马尾松林中氯乙烯与1,2-二氯丙烷、1,1,2-三氯乙烷显著相关,阔叶林中氯甲烷与氯乙烯、氯乙烷及氯苯显著相关,而氯苯与大部分被测卤代烃都具有显著的相关性,说明部分卤代烃对氮沉降可能有相同的响应机制。自然氮沉降下,阔叶林卤代烃通量日变化无明显规律,但高氮处理样地,各化合物表现基本一致,在07:00出现释放小高峰,最大吸收则主要出现在13:00。     

Genetic control of methyl halide production in Arabidopsis

Methyl chloride (CH(3)Cl) and methyl bromide (CH(3)Br) are the primary carriers of natural chlorine and bromine, respectively, to the stratosphere, where they catalyze the destruction of ozone, whereas methyl iodide (CH(3)I) influences aerosol formation and ozone loss in the boundary layer. CH(3)Br is also an agricultural pesticide whose use is regulated by international agreement. Despite the economic and environmental importance of these methyl halides, their natural sources and biological production mechanisms are poorly understood. Besides CH(3)Br fumigation, important sources include oceans, biomass burning, tropical plants, salt marshes, and certain crops and fungi. Here, we demonstrate that the model plant Arabidopsis thaliana produces and emits methyl halides and that the enzyme primarily responsible for the production is encoded by the HARMLESS TO OZONE LAYER (HOL) gene. The encoded protein belongs to a group of methyltransferases capable of catalyzing the S-adenosyl-L-methionine (SAM)-dependent methylation of chloride (Cl(-)), bromide (Br(-)), and iodide (I(-)) to produce methyl halides. In mutant plants with the HOL gene disrupted, methyl halide production is largely eliminated. A phylogenetic analysis with the HOL gene suggests that the ability to produce methyl halides is widespread among vascular plants. This approach provides a genetic basis for understanding and predicting patterns of methyl halide production by plants.     

滨海盐沼湿地蓝色碳汇功能、形成机制及其增汇潜力

盐沼湿地具有很高的碳捕获与存储能力, 是缓解全球变暖的有效蓝色碳汇(蓝碳)。未来气候变暖和海平面上升可能增加盐沼湿地的固碳能力, 其蓝碳功能越来越受到国际社会的重视。该文重点围绕盐沼湿地蓝碳形成的关键过程、光合碳分配过程及影响机制、碳沉积埋藏特征及其来源解析、盐沼湿地土壤碳库稳定性及其微生物机制、盐沼湿地蓝碳过程动态模拟及其增汇潜力等5个方面进行综述。在此基础上, 针对当前研究的不足, 提出今后的研究中需要进一步探究盐沼湿地植被海陆梯度分布格局对碳吸收能力和碳分配的影响, 土壤有机碳沉积和埋藏速率及其对全球变化的响应, 盐沼湿地土壤碳库的稳定性及其横向碳流动, 气候变化和海平面上升背景下盐沼湿地蓝碳模拟与增汇潜力评估, 以及盐沼湿地蓝碳的增汇技术和途径。以期为深入理解盐沼湿地蓝碳形成过程与机制, 预测全球变化背景下盐沼湿地蓝碳功能的潜在变化趋势和制定蓝碳增汇途径提供理论支持, 助力碳达峰、碳中和目标实现。     

The salt marshes of the Westerschelde and their role in the estuarine ecosystem

The salt marshes along the Westerschelde estuary have been influenced by various human activities of which reclamation has been a major cause for the loss of salt marsh area. The salinity gradient in the aquatic system is also mirrored in the vegetation of the salt marshes.The role of the salt marshes for the estuary as a whole is manifold but a major importance is their function as a sink for anthropogenic substances.The possible role as a carbon and mineral source for the estuary is discussed in this paper. It is estimated that the total area of salt marsh adds about 8% to the organic matter input in the estuary while the nutrient input may be as high as 25%.Communication nr. 403 of the Delta Institute, Yerseke.     

Environmental and biological controls on methyl halide emissions from southern California coastal salt marshes

Methyl bromide (CH₃Br) and methyl chloride(CH₃Cl) emission rates from southernCalifornia coastal salt marshes show largespatial and temporal variabilities that arestrongly linked to biological and environmentalfactors. Here we discuss biogeochemical linesof evidence pointing to vegetation as theprimary source of CH₃Br and CH₃Clemissions from salt marshes. Sediments andmacroalgae do not appear to be major producersof these compounds, based on observations thatthe highest fluxes are not inhibited by soilinundation; their emissions are not correlatedwith those of certain gases produced in soils;and emissions from mudflat- andmacroalgae-dominated sites are relativelysmall. In contrast, the seasonal and spatialvariabilities of methyl halide fluxes in thesesalt marshes are consistent with the productionof these compounds by vascular plants, althoughthe possibility of production by microflora orfungi associated with the salt marsh vegetationis not ruled out. Flux chamber measurements ofemission rates are largely correlated to theoverall plant biomass enclosed in the chamber,but appear also to be highly dependent on thepredominant plant species. Emission ratesfollow a diurnal trend similar to the trends ofambient air temperature and photosyntheticallyactive radiation, but not surface soiltemperature. Diurnal variabilities in thecarbon isotope compositions of CH₃Cl andCH₃Br and their relative ratios ofemissions are consistent with simultaneouslycompeting mechanisms of uptake andproduction.     

Fluorescence-Based Bacterial Bioreporter for Specific Detection of Methyl Halide Emissions in the Environment

Methyl halides are volatile one-carbon compounds responsible for substantial depletion of stratospheric ozone. Among them, chloromethane (CH₃Cl) is the most abundant halogenated hydrocarbon in the atmosphere. Global budgets of methyl halides in the environment are still poorly understood due to uncertainties in their natural sources, mainly from vegetation, and their sinks, which include chloromethane-degrading bacteria. A bacterial bioreporter for the detection of methyl halides was developed on the basis of detailed knowledge of the physiology and genetics of Methylobacterium extorquens CM4, an aerobic alphaproteobacterium which utilizes chloromethane as the sole source of carbon and energy. A plasmid construct with the promoter region of the chloromethane dehalogenase gene cmuA fused to a promotorless yellow fluorescent protein gene cassette resulted in specific methyl halide-dependent fluorescence when introduced into M. extorquens CM4. The bacterial whole-cell bioreporter allowed detection of methyl halides at femtomolar levels and quantification at concentrations above 10 pM (approximately 240 ppt). As shown for the model chloromethane-producing plant Arabidopsis thaliana in particular, the bioreporter may provide an attractive alternative to analytical chemical methods to screen for natural sources of methyl halide emissions.     

Ectomycorrhizal fungi: A new source of atmospheric methyl halides?

Incomplete source budgets for methyl halides – compounds that release inorganic chlorine and bromine radicals which, in turn, catalyze atmospheric ozone depletion – limit our ability to predict the fate of the stratospheric ozone layer. We report here the first measured emissions of methyl chloride, methyl bromide, and methyl iodide from ectomycorrhizal fungi. We grew nine fungal isolates on growth media containing halide concentrations similar to those found in soils and plant tissues. The observed range of emissions was 0.003–65 μg methyl chloride, 0.001–3 μg methyl bromide, and 0.02–12 μg methyl iodide g^?1 dry weight fungi day^?1. Species varied in production rates of methyl chloride vs. methyl bromide vs. methyl iodide. Cenococcum geophilum, a widespread ectomycorrhizal fungus, was further tested to investigate the effects of halide substrate concentration in growth media. Emissions from this species increased linearly with increasing concentrations of both bromide and iodide. In addition, a subset of four fungi was studied with two media concentrations each of chloride, bromide, and iodide (0.2 or 20 mm ). These fungi had similar responses to halide concentration, despite 1000‐fold differences in baseline emission rates between isolates. Finally, high chloride concentrations (20 mm ) in media did not appear to inhibit emissions of methyl bromide or methyl iodide. Overall, ectomycorrhizal fungi might be an important source of methyl halides to the atmosphere, and substrate concentrations and community composition may influence production levels in ecosystems.     

国内农业碳源/汇效应研究:视角、进展与改进

结构复杂、自然生态与社会经济过程交织、地域特征显著的农业碳源/汇效应存在基于内部结构、双重属性、区域尺度等多种研究视角。国内基于内部结构视角的农业碳源/汇效应研究多局限于种植业,且多以单一的碳源或碳汇研究为主;农业组分细化与组分关联的系统综合研究明显不足。在基于双重属性视角的研究中,自然生态视角侧重于碳吸收和直接碳排放,社会经济视角则聚焦于间接碳排放;由自然与经济相互割裂到相互融合的二元农业碳源/汇综合方法尚需深化。基于区域尺度视角的研究多集中在大中尺度和样地尺度,小尺度县域研究比较薄弱;农产品供应链关联的区域间碳流及减排值得关注。针对中国小规模家庭农场和种养关联的多种经营特征,农业碳源/汇效应研究应将农业产业组分、农产品碳源/汇构成解析与种养关联碳源/汇综合并重,发展和完善评估模型、提高参数本土化程度,追踪农产品生产、流通与消费等区域间碳流全过程。研究综述国内基于内部结构、双重属性和区域尺度等视角的农业碳源/汇效应研究进展,并提出基于我国农业经营特征的碳源/汇效应改进研究。     

Involvement of S-adenosylmethionine-dependent halide/thiol methyltransferase (HTMT) in methyl halide emissions from agricultural plants: isolation and characterization of an HTMT-coding gene from Raphanus sativus (daikon radish)

Background  

Biogenic emissions of methyl halides (CH₃Cl, CH₃Br and CH₃I) are the major source of these compounds in the atmosphere; however, there are few reports about the halide profiles and strengths of these emissions. Halide ion methyltransferase (HMT) and halide/thiol methyltransferase (HTMT) enzymes concerning these emissions have been purified and characterized from several organisms including marine algae, fungi, and higher plants; however, the correlation between emission profiles of methyl halides and the enzymatic properties of HMT/HTMT, and their role in vivo remains unclear.