Distribution of putative denitrifying methane oxidizing bacteria in sediment of a freshwater lake, Lake Biwa

Methane oxidation coupled to denitrification is mediated by 'Candidatus Methylomirabilis oxyfera', which belongs to the candidate phylum NC10. The distribution of putative denitrifying methane-oxidizing bacteria related to "M. oxyfera" was investigated in a freshwater lake, Lake Biwa, Japan. In the surface layer of the sediment from a profundal site, a phylotype closely related to "M. oxyfera" was most frequently detected among NC10 bacteria in PCR analysis of the 16S rRNA gene. In the sediment, sequences related to "M. oxyfera" were also detected in a pmoA gene library. The presence of NC10 bacteria was also confirmed by catalyzed reporter deposition fluorescence in situ hybridization (CARD-FISH). Denaturing gradient gel electrophoresis (DGGE) and quantitative real-time PCR indicated that the abundance of the "M. oxyfera"-related phylotype was higher in the upper layers of the profundal sediment. The horizontal distribution of the putative methanotrophs in lake sediment was also analyzed by DGGE, which revealed that their occurrence was restricted to deep water areas. These results agreed with those in a previous study of another freshwater lake, and suggested that the upper layer of the profundal sediments is the main habitat for denitrifying methanotrophs.     

氮依赖型甲烷厌氧氧化菌的整合

氮依赖型甲烷厌氧氧化菌(nitrite-dependent anaerobic methane oxidation bacteria,n-damo细菌,属于NC10门)是最近10年来微生物生态学领域的研究热点。然而,对该类群基于现有数据的生态分布、群落结构和系统进化的整合分析还未见报道。【目的】为了更好地将近年来针对该类群的研究做一次全面梳理,本文通过整合前人已有发表数据和结合自身实验数据两方面进行。【方法】一方面,利用NCBI数据库(数据搜集到2016年11月)中所有n-damo细菌序列对其进行生物信息学分析;另一方面,对大九湖泥炭地表层泥炭利用16S rRNA二代测序技术对该类群进行检测,并同前人数据进行对比。【结果】n-damo细菌主要在沉积物、湿地和水稻土检出;基于pmo A基因的n-damo细菌的平均检出率是基于16S rRNA基因检出率的7倍,但是这两类基因分子标记物所得到的多样性指数保持相对稳定(1.4-3.4);贫氮的大九湖泥炭其NC10的丰度仅为0.067%。【结论】n-damo类群种群相对稳定,暗示其行使的生态功能相对单一;贫氮的大九湖泥炭其极低的NC10丰度暗示氮对NC10是限制因子;具有真正氮依赖型甲烷厌氧氧化细菌的Group A可能只占很少的一部分(小于20%),暗示出该类群真正的生态潜能需要进一步评估。本次整合分析为更好的理解n-damo细菌的生活环境、评估不同基因分子标记物下n-damo细菌的检出率、不同亚类群比如Group A和Group B等的丰度和真正的潜在生态功能提供参考。     

Anaerobic oxidation of alkanes by newly isolated denitrifying bacteria

The capacity of denitrifying bacteria for anaerobic utilization of saturated hydrocarbons (alkanes) was investigated with n-alkanes of various chain lengths and with crude oil in enrichment cultures containing nitrate as electron acceptor. Three distinct types of denitrifying bacteria were isolated in pure culture. A strain (HxN1) with oval-shaped, nonmotile cells originated from a denitrifying enrichment culture with crude oil and was isolated with n-hexane (C₆H₁₄). Another strain (OcN1) with slender, rod-shaped, motile cells was isolated from an enrichment culture with n-octane (C₈H₁₈). A third strain (HdN1) with oval, somewhat pleomorphic, partly motile cells originated from an enrichment culture with aliphatic mineral oil and was isolated with n-hexadecane (C₁₆H₃₄). Cells of hexane-utilizing strain HxN1 grew homogeneously in the growth medium and did not adhere to the alkane phase, in contrast to the two other strains. Quantification of substrate consumption and cell growth revealed the capacity for complete oxidation of alkanes under strictly anoxic conditions, with nitrate being reduced to dinitrogen. Received: 3 August / Accepted: 6 October 1999     

硝态氮还原型厌氧甲烷氧化的研究进展及展望

以硝态氮为电子受体的甲烷厌氧氧化(Nx-damo)是近年被证实的微生物驱动的地球氮、碳循环机制,对于认识重要元素地球化学循环的微生物驱动机制和自然环境中甲烷的源与汇具有重大意义;在废水生物脱氮及其温室气体减排方面也具有潜在工程应用价值。从功能微生物富集及其影响因素、生理特性、生物代谢的可能机理等方面对Nx-damo的最新进展进行了梳理和讨论;评估了其应用于废水处理的潜力和优势;对未来的研究方向进行了展望,以期推动该领域更广泛的研究,并为其提供有价值的参考。     

Increase in benthic trophic reliance on methane in 14 French lakes during the Anthropocene

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水生生态系统中金属依赖型甲烷厌氧氧化过程的研究进展

甲烷是一种比CO_2更活跃的温室气体,微生物驱动的甲烷厌氧氧化(anaerobicoxidationof methane,AOM)过程对于降低全球甲烷的排放有着重要意义。参与AOM反应的最终电子受体主要分为三类,即硫酸盐、亚硝酸盐/硝酸盐以及以Fe(III)、Mn(IV)等为代表的金属离子。可溶性金属物质和不溶性金属矿物都可以被用作AOM的电子受体,这大大提高了参与金属依赖型甲烷厌氧氧化(metal-dependent anaerobic oxidation of methane,Metal-AOM)微生物的生态价值。目前研究聚焦在功能菌群、生态分布等方面。部分甲烷厌氧氧化古菌(anaerobic methanotrophic archaea,ANME)具有直接或间接参与Metal-AOM过程的能力。但由于功能菌群纯化富集和分离具有一定难度,有关其生理生化和生态学等特征的研究受到限制。同时,随着Metal-AOM被发现存在于不同水生生境中,其在污染治理领域的应用也被广泛讨论,但是河口生境尚缺乏深入研究。本文从Metal-AOM的发现入手,阐述了参与该过程的主要微生物及其在水域环境下的生态分布,并介绍了Metal-AOM的反应机制和在实际应用中的机遇与挑战。最后,根据现有研究结果,提出对功能菌群、机制及环保应用的研究展望,包括微生物分离纯化和影响因素、菌群代谢活性和作用机制的解析以及新型生产工艺的设计和发展应用,以期为今后的环境污染治理和工业应用提供借鉴意义。     

Relationship between δ13C of chironomid remains and methane flux in Swedish lakes

1. Methanogenic carbon can be incorporated by methane‐oxidising bacteria, leading to a ¹³C‐depleted stable carbon isotopic composition (δ¹³C) of chironomids that feed on these microorganisms. This has been shown for the chironomid tribe Chironomini, but very little information is available about the δ¹³C of other abundant chironomid groups and the relationship between chironomid δ¹³C and methane production in lakes. 2. Methane flux was measured at the water surface of seven lakes in Sweden. Furthermore, fluxes from the sediments to the water column were measured in transects in two of the lakes. Methane fluxes were then compared with δ¹³C of chitinous chironomid remains isolated from the lake surface sediments. Several different chironomid groups were examined (Chironomini, Orthocladiinae, Tanypodinae and Tanytarsini). 3. Remains of Orthocladiinae in the seven study lakes had the highest δ¹³C values (?31.3 to ?27.0‰), most likely reflecting δ¹³C of algae and other plant‐derived organic matter. Remains of Chironomini and Tanypodinae had lower δ¹³C values (?33.2 to ?27.6‰ and ?33.6 to ?28.0‰, respectively). A significant negative correlation was observed between methane fluxes at the lake surface and δ¹³C of Chironomini (r = ?0.90, P = 0.006). Methane release from the sediments was also negatively correlated with δ¹³C of Chironomini (r = ?0.67, P = 0.025) in the transect samples obtained from two of the lakes. The remains of other chironomid taxa were only weakly or not correlated with methane fluxes measured in our study lakes (P > 0.05). 4. Selective incorporation of methane‐derived carbon can explain the observed correlations between methane fluxes and δ¹³C values of Chironomini. Remains of this group might therefore have the potential to provide information about past changes in methane availability in lakes using sediment records. However, differences in productivity, algal δ¹³C composition and the importance of allochthonous organic matter input between the studied lakes may also have influenced Chironomini δ¹³C. More detailed studies with a higher number of analysed samples and detailed measurement of δ¹³C of different ecosystem components (e.g. methane, dissolved inorganic carbon) will be necessary to further resolve the relative contribution of different carbon sources to δ¹³C of chironomid remains.     

Potential activity of methane and ammonium oxidation by methanotrophic communities from the soda lakes of southern Transbaikal

Radioisotopic measurements of the methane consumption by mud samples taken from nine Southern Transbaikal soda lakes (pH 9.5–10.6) showed an intense oxidation of methane in the muds of Lakes Khuzhirta, Bulamai Nur, Gorbunka, and Suduntuiskii Torom, with the maximum oxidation rate in the mud of Lake Khuzhirta (33.2 nmol/(ml day)). The incorporation rate of the radioactive label from¹⁴CH₄ into¹⁴CO₂ was higher than into acid-stable metabolites. Optimum pH values for methane oxidation in water samples were 7–8, whereas mud samples exhibited two peaks of methane oxidation activity (at pH 8.15–9.4 and 5.8–6.0). The majority of samples could oxidize ammonium to nitrites; the oxidation was inhibited by methane. The PCR amplification analysis of samples revealed the presence of genes encoding soluble and paniculate methane monooxygenase and methanol dehydrogenase. Three alkaliphilic methanotrophic bacteria of morphotype I were isolated from mud samples in pure cultures, one of which, B5, was able to oxidize ammonium to nitrites at pH 7–11. The data obtained suggest that methanotrophs are widely spread in the soda lakes of Southern Transbaikal, where they can actively oxidize methane and ammonium.     

Anaerobic oxidation of methane at different temperature regimes in Guaymas Basin hydrothermal sediments

Anaerobic oxidation of methane (AOM) was investigated in hydrothermal sediments of Guaymas Basin based on δ¹³C signatures of CH₄, dissolved inorganic carbon and porewater concentration profiles of CH₄ and sulfate. Cool, warm and hot in-situ temperature regimes (15–20 °C, 30–35 °C and 70–95 °C) were selected from hydrothermal locations in Guaymas Basin to compare AOM geochemistry and 16S ribosomal RNA (rRNA), mcrA and dsrAB genes of the microbial communities. 16S rRNA gene clone libraries from the cool and hot AOM cores yielded similar archaeal types such as Miscellaneous Crenarchaeotal Group, Thermoproteales and anaerobic methane-oxidizing archaea (ANME)-1; some of the ANME-1 archaea formed a separate 16S rRNA lineage that at present seems to be limited to Guaymas Basin. Congruent results were obtained by mcrA gene analysis. The warm AOM core, chemically distinct by lower porewater sulfide concentrations, hosted a different archaeal community dominated by the two deep subsurface archaeal lineages Marine Benthic Group D and Marine Benthic Group B, and by members of the Methanosarcinales including ANME-2 archaea. This distinct composition of the methane-cycling archaeal community in the warm AOM core was confirmed by mcrA gene analysis. Functional genes of sulfate-reducing bacteria and archaea, dsrAB, showed more overlap between all cores, regardless of the core temperature. 16S rRNA gene clone libraries with Euryarchaeota-specific primers detected members of the Archaeoglobus clade in the cool and hot cores. A V6-tag high-throughput sequencing survey generally supported the clone library results while providing high-resolution detail on archaeal and bacterial community structure. These results indicate that AOM and the responsible archaeal communities persist over a wide temperature range.     

亚硝酸盐型甲烷厌氧氧化及其功能微生物研究进展

亚硝酸盐型甲烷厌氧氧化（nitrite-dependent anaerobic methane oxidation,N-DAMO）是耦合氮循环和碳循环的关键环节,主要是由亚硝酸盐型甲烷厌氧氧化菌（Candidatus Methylomirabilis oxyfera）介导完成,对于研究全球氮和碳元素的生物地球化学循环具有重要意义。本文首先总结了国内外N-DAMO的影响因素和在不同自然生态系统中的分布;然后阐述了N-DAMO菌的生理生化特性及其富集培养优化实验和检测技术,最后探讨了N-DAMO技术的应用现状。本综述不仅有助于揭示全球碳氮循环的耦合作用机制,也为N-DAMO反应耦合其他厌氧生物处理过程应用到污水的除碳脱氮上提供了理论依据。     

微生物介导的甲烷厌氧氧化过程及其影响因子研究进展

温室气体甲烷减排是全球变化领域的研究热点,甲烷厌氧氧化(anaerobic methane oxidation,AOM)过程是一个以前被忽视的甲烷汇,在调控全球甲烷收支平衡及减缓温室效应等方面扮演着十分重要的角色。AOM微生物以甲烷为唯一电子供体,与硫酸盐(SO42-)、亚硝酸盐(NO2-)/硝酸盐(NO3-)、金属离子(Fe3+、Mn4+、Cr6+)等结合完成氧化还原过程,该过程是耦合碳、氮、硫循环的关键环节。本文系统整理分析了不同AOM类型、发生机理、相关功能微生物类群(ANME-1、ANME-2、ANME-3、NC10、MBG-D)及影响AOM过程的关键调控因子的最新研究进展。结果发现,目前80%以上研究都集中在对最常见电子受体类型(SO42-/NO3-/NO2-/Fe3+/Mn4+)的AOM相关过程,而忽视了潜在的新型电子受体(AQDS/HAs O42-/Cr6+/ClO4-等)的耦合作用过程和相对应的微生物类型及作用机理。对未来AOM研究方向提出展望,以期为研究甲烷厌氧氧化菌在不同生态系统中的生态分布及减缓全球温室气体排放提供新的思路。     

甲烷氧化过程中铜的作用研究进展

甲烷生物氧化在全球甲烷平衡和温室效应控制中扮演着重要的角色,而铜是甲烷生物氧化过程中的重要影响因子.一方面,铜是调控不同类型甲烷单加氧酶表达的主要影响因子,是组成颗粒性甲烷单加氧酶的必需金属元素;另一方面,在自然环境体系中,铜含量及其形态的变化对甲烷氧化菌的分布、代谢甲烷和非甲烷类有机化合物的能力以及甲烷氧化菌的特异性铜捕获系统也会产生较大影响.准确把握铜在甲烷生物氧化过程中发挥的作用将有助于全面了解甲烷生物氧化过程,进而更好地指导甲烷氧化微生物在温室气体减排及非甲烷有机物污染修复中的应用.本文主要从铜的角度,概述了铜对甲烷氧化菌的分布和活性的影响,介绍了铜在调控甲烷单加氧酶的表达和活性以及调节甲烷氧化菌铜捕获系统方面的作用,并展望了其研究方向.     

自然生境中亚硝酸盐型厌氧甲烷氧化细菌研究进展

随着功能微生物介导的亚硝酸盐型厌氧甲烷氧化(nitrite-dependent anaerobic methane oxidation,N-DAMO)过程被发现,人们对自然界的碳氮循环有了全新的认识,该过程成为自然生态系统中温室气体甲烷的汇,同时还是氮污染的消减途径。本文系统介绍了N-DAMO过程反应机理以及参与该过程的亚硝酸盐型厌氧甲烷氧化细菌(Candidatus Methylomirabilis oxyfera)的生理生化特征,并对研究该功能菌的分子微生物方法进行了汇总。通过对不同自然生境中该细菌的研究报道进行总结分析,揭示各生境中年均降水量、年均温度、所处不同自然区等大尺度宏观环境因子及碳源、氮源、pH和氧气含量等生存因子对其群落结构的潜在影响,最后在展望中提出此功能菌在未来可深入研究的方向,期望能厘清厌氧甲烷氧化过程及其功能菌在碳、氮循环中的生态学功能。     

Duckling response to changes in the trophic web of acidified lakes

We reared American Black Duck (Anas rubripes Brewster) and Common Goldeneye (Bucephala clangula Linnaeus) ducklings on two Quebec laurentian lakes in which we manipulated brook trout populations (Salvelinus fontinalis Mitchill), lake acidity and lake productivity to relate waterfowl foraging to trophic status of lakes. We developed a preliminary model to assess the effects of lake acidity and productivity, fish predation and interspecific fish/duck competition in relation to available food (aquatic invertebrates). We then validated the model using a factorial analysis of the relationships between the variables pertaining to the diet of the fish and ducklings, and the environmental characteristics of the lakes (acidity, biological production and fish predation).The first factorial axis can be interpreted in terms of biological productivity, while the second axis illustrates the effect that fish have on the quantity and type of food available to ducklings. Two different trends appear to occur depending on whether the carrying capacity of the lake is reduced by acidification of the water or increase through liming or fertilization. In the first case, fish predation appears to have a marked effect on available food, whereas in the second case, interspecific fish/duck competition is apparently to blame for changes in the diet of ducklings. In both instances, but to a lesser extent, fish compete increasingly (exploitation and/or interference) with the ducklings, forcing them to feed to a greater extent in riparian sites that are less accessible to fish.     

The occurrence of gas-vacuolate bacteria in lakes

In order to assess the importance of gas vacuoles in planktonic bacteria we carried out a survey of 35 lakes of different types. At least 39 morphologically distinct species of gas-vacuolate bacteria were encountered. All of the freshwater lakes, and one of two seawater-flooded quarries, which became thermally stratified in summer, contained gas-vacuolate bacteria in their anaerobic hypolimnia; however, with one exception, none was found in isothermally mixed lakes. This pattern of distribution supports the idea that gas vacuoles are important in providing buoyancy, a function which is relevant only in non-turbulent aquatic systems.     

水位下降对若尔盖泥炭地垂直剖面土壤甲烷产生及厌氧氧化潜势的影响

泥炭地是主要的甲烷（CH₄）排放源,甲烷循环过程对水位变化响应敏感。研究选取两块具有水位差异的泥炭地土壤,通过厌氧培养实验探究水位变化对泥炭地甲烷产生和甲烷厌氧氧化（Methane Anaerobic Oxidation,AOM）潜势的影响,并分析影响其潜势大小的生物地球化学因子。结果显示,高水位泥炭地（0 cm） CH₄产生累积量为（0.89±0.01）μg/g,要显著高于低水位（-30 cm：（0.70±0.03）μg/g）泥炭地甲烷产生量,但低水位AOM累积量要显著高于高水位泥炭地（0 cm：（2829.93±35.99）μg/g）,低水位泥炭地AOM量为（3588.06±24.78）μg/g。通过相关性分析发现甲烷产生潜势与含水量和DOC具有显著相关性,AOM潜势与含水量、pH、DOC具有显著相关性,含水量和DOC是影响若尔盖泥炭地甲烷产生及AOM潜势大小的重要因子。此外,发现高水位泥炭地甲烷产生潜势对温度升高的响应较为明显,特别是表层土壤（0-20 cm）。本研究明确了水位变化对若尔盖泥炭地甲烷产生及AOM潜势的影响特征,估算了全国泥炭地甲烷产生及AOM潜势的大小,以期为减缓全球气候变暖提供一定的理论支撑。     

The absolute requirement for carbon dioxide for aerobic methane oxidation by a methanotrophic-heterotrophic soil community of bacteria

An aerobic methanotrophic-heterotrophic soil community has been characterised when growing with different partial pressures of CO₂. The methanotrophic population using methane as carbon source reached 3 × 10⁷ cfu ml^–1 with one of the major methanotrophs being of type II which uses the serine pathway for C assimilation. Optimal methanotrophic activity required the addition of CO₂, and in the absence of CO₂ no methane oxidisers grew. Partial pressures of CO₂ from 1.6 to 11.6 kPa gave optimal cell growth and production of soluble organic compounds. Biomass yield, soluble organics and CO₂ production were 0.36, 0.15, and 0.48 mg mg^–1 methane uptake, respectively, with CO₂ at 11.6 kPa. The results presented here may have important implications for the use of methane-oxidising bacteria in bioremedial applications.     

Anaerobic oxidation of the aromatic plant hydrocarbon p-cymene by newly isolated denitrifying bacteria

The capability of nitrate-reducing bacteria to degrade alkyltoluenes in the absence of molecular oxygen was investigated with the three isomers of xylene, ethyltoluene, and isopropyltoluene (cymene) in enrichment cultures inoculated with freshwater mud. Denitrifying enrichment cultures developed most readily (within 4 weeks) with p-cymene, a natural aromatic hydrocarbon occurring in plants, and with m-xylene (within 6 weeks). Enrichment of denitrifiers that utilized m-ethyltoluene and p-ethyltoluene was slow (within 8 and 12 weeks, respectively); no enrichment cultures were obtained with the other alkylbenzenes within 6 months. Anaerobic degradation of p-cymene, which has not been reported before, was studied in more detail. Two new types of denitrifying bacteria with oval cells, strains pCyN1 and pCyN2, were isolated; they grew on p-cymene (diluted in an inert carrier phase) and nitrate with doubling times of 12 and 16 h, respectively. Strain pCyN1, but not strain pCyN2, also utilized p-ethyltoluene and toluene. Both strains grew with some alkenoic monoterpenes structurally related to p-cymene, e.g., α-terpinene. In addition, the isolates utilized p-isopropylbenzoate, and mono- and dicarboxylic aliphatic acids. Determination of the degradation balance of p-cymene and growth with acetate and nitrate indicated the capacity for complete oxidation of organic substrates under anoxic conditions. Adaptation studies with cells of strain pCyN1 suggest the existence of at least two enzyme systems for anaerobic alkylbenzene utilization, one metabolizing p-cymene and p-ethyltoluene, and the other metabolizing toluene. Excretion of p-isopropylbenzoate during growth on p-cymene indicated that the methyl group is the site of initial enzymatic attack. Although both strains were facultatively aerobic, as revealed by growth on acetate under air, growth on p-cymene under oxic conditions was observed only with strain pCyN1. Strains pCyN1 and pCyN2 are closely related to members of the Azoarcus-Thauera cluster within the β-subclass of the Proteobacteria, as revealed by 16S rRNA gene sequence analysis. This cluster encompasses several described denitrifiers that oxidize toluene and other alkylbenzenes. Received: 15 July 1998 / Revision received: 29 July 1999 / Accepted: 2 August 1999