氨氧化古菌的生态学研究进展

上百年来细菌一直被认为是地球氨氧化过程的主要驱动者,2005年海洋中分离到迄今唯一的非极端环境泉古菌,发现其氧化氨态氮获得能源生长,是氨氧化古菌。氨氧化古菌和细菌对地球氨氧化过程的相对贡献率,是目前全球氮循环研究最重要的微生物生态学问题之一。已有的证据表明古菌在海洋氨氧化过程中发挥了重要作用,细菌则是土壤氨氧化过程的主要驱动者。本文重点探讨了原位自然环境下氨氧化古菌的生态学研究进展。     

若尔盖高原湿地土壤氨氧化古菌的多样性

【目的】研究自然界中氨氧化古菌(ammonia-oxidizing archaea,AOA)对于理解全球氮循环起着至关重要的作用,但人们对高原湿地AOA种群生态还知之甚少。本研究旨在了解若尔盖高原湿地土壤AOA群落组成及多样性。【方法】从若尔盖高原阿西(A'xi)、麦西(Maixi)和分区(Fenqu)3个典型牧区采集土壤样品,提取土壤总DNA,利用AOA氨单加氧酶(ammonia monooxygenase,amoA)基因通用引物扩增amoA基因,构建amoA基因克隆文库。从每个克隆文库中随机挑选80个阳性克隆子用于后续限制性酶切片段长度多态性(restriction fragment length polymorphism,RFLP)分析,挑选不同酶切类型的克隆子进行测序、比对,利用MEGA 5.0软件构建amoA基因系统发育树。【结果】从3个克隆文库共240个AOA amoA基因阳性克隆中得到15条代表序列,通过Mothur软件进行OTUs(operational taxonomic units)分类得到7个不同的分类单元。其中OTU 6为优势类群,在3个克隆文库均有发现,约占所有特异性克隆子的27%。15条amoA基因序列分属于Zoige Wetland Clade 1(4 OTUs)、Zoige Wetland Clade 2(2 OTUs)和Zoige Wetland Clade 3(1OTU)3个系统发育分支。BLAST分析显示所有OTUs均归于泉古菌门(Crenarchaeota)。相关性分析表明,若尔盖高原湿地AOA多样性指数与土壤铵态氮和硝态氮含量存在显著的相关性(P0.05)。【结论】若尔盖高原湿地中AOA多样性较低,均属于泉古菌,且与土壤中氨态氮和硝态氮密切相关。     

东湖表层沉积物中氨氧化古菌和氨氧化细菌丰度及多样性研究

研究通过高通量测序和荧光定量PCR等分子生物学分析方法, 以氨单加氧酶基因(amoA)为分子标记, 研究了东湖表层沉积物中AOA和AOB的群落多样性、丰度及其与环境因子的关系。结果表明, 东湖沉积物AOA主要为Nitrosopumilus, 其群落结构与沉积物中总氮含量显著相关, 而AOB主要为Nitrosomonas, 群落结构与沉积物中总有机碳和总磷显著相关。此外, 不同季节AOA丰度均高于AOB, 且沉积物AOA数量与温度呈显著负相关, 但AOB丰度变化不明显。东湖沉积物中AOA可能主导了氨氧化过程。     

施氮肥对华北平原土壤氨氧化细菌和古菌数量及群落结构的影响

利用荧光定量PCR、末端限制性片段长度多样性(T-RFLP)和基因克隆文库技术,比较了4种施氮水平(不施氮肥,0 kg N/hm~2,CK;施低水平氮肥,75 kg N/hm~2,N1;施中水平氮肥,150 kg N/hm~2,N2;施高水平氮肥,225 kg N/hm~2,N3)下华北平原地区小麦季表层(0—20 cm)土壤总细菌、氨氧化细菌(AOB)和氨氧化古菌(AOA)的丰度和群落结构。结果表明,土壤总细菌、AOB和AOA数量分别在每克干土5.74×10~9—7.50×10~9、8.89×10~6—2.66×10~7和3.83×10~8—7.78×10~8之间。不同施氮量土壤AOA数量均高于AOB数量,AOA/AOB值在81.72—14.38之间。增施氮肥显著显著提高AOB数量(P0.05),对总细菌和AOA数量的影响不显著(P0.05)。与CK相比,处理N1、N2和N3中AOB数量分别提高了0.64、1.50和1.99倍。增施氮肥显著改变了AOB和AOA的群落结构,且不同施氮量处理中AOB群落结构差异更大。系统进化分析显示,施氮肥小麦土壤AOB主要为Nitrosospira属类群,分布在Cluster 3的两个分支中;AOA分布在Cluster S的4个分支中。相关性分析显示,AOB数量与全氮和铵态氮含量呈显著正相关关系,与土壤pH和碳氮比呈显著负相关关系(P0.05);AOA数量与硝态氮含量和土壤pH呈显著正相关关系,与铵态氮含量呈显著负相关关系(P0.05)。研究结果表明:增施氮肥可显著改变华北平原地区碱性土壤AOB数量与群落结构,该地区小麦土壤中AOB比AOA对氮肥响应更敏感。     

艾比湖湿地氨氧化细菌数量空间分布及其与土壤环境相关性分析

【目的】对新疆艾比湖湿地不同植被类型(柽柳群落、盐节木群落、芦苇群落)和土壤深度(0-5 cm、5 cm-15 cm、15 cm-25 cm、25 cm-35 cm)中氨氧化细菌数量空间分布进行研究,并对其与土壤环境因子的相互关系进行分析。【方法】采用MPN-Griess和Pearson相关分析法。【结果】艾比湖湿地不同植被类型氨氧化细菌的数量存在明显的差异,分布趋势为柽柳群落最高,盐节木群落次之,芦苇群落最低;不同土层中氨氧化细菌的数量也存在明显的差异,分布趋势为15 cm-25 cm>0-5 cm>5 cm-15 cm>25 cm-35 cm;氨氧化细菌数量分布与土壤有机质含量呈显著相关,与土壤pH、含水量、盐度以及氨氮含量等因子之间均无相关性。【结论】艾比湖湿地不同植被类型和不同土层中氨氧化细菌数量的分布均存在显著差异;氨氧化细菌数量的空间分布除与土壤有机质含量呈显著相关外,与其他土壤环境因子均无相关性。     

白洋淀富营养化湖泊湿地厌氧氨氧化菌的分布及对氮循环的影响

随着生物反应器和海洋生态系统中厌氧氨氧化反应的发现,自然生态系统的氮循环过程被重新认识,但是目前厌氧氨氧化过程是否也存在于富营养化湖泊湿地并发挥着重要作用,还未见报道。结合15N同位素示踪与分子生物学技术研究了白洋淀湖泊湿地沉积物中厌氧氨氧化菌的分布、菌群结构特性、生物多样性及其活性。结果表明,在藻类影响导致的高氨氮沉积物中,厌氧氨氧化菌具有广泛存在性。通过构建16S rRNA克隆文库发现,沉积物中厌氧氨氧化菌的生物多样性相对较低,在2%差异度的条件下,30个克隆序列只分为5个操作分类单元(OTUs),代表序列与Genebank数据库中已探明的厌氧氨氧化菌Candidatus Brocadia fulgida和Candidatus Brocadia anammoxidans同源性最高,分别可达97%和96%。同位素示踪结果表明,白洋淀湖泊湿地沉积物中厌氧氨氧化活性为0.19—7.78 nmol N g-1h-1,空间差异较大,产生的氮气占此沉积物总氮气生成量的0.64%—20.65%,体现了湿地的异质性。通过得出的厌氧氨氧化反应速率推算每年由厌氧氨氧化反应损失的氮量为1.8—78gN m-2a-1,对白洋淀氮循环起到非常重要的作用。富营养化湖泊湿地沉积物中厌氧氨氧化反应的发现为研究厌氧氨氧化对氮循环的重要影响提供了新证据。     

南美白对虾养殖底泥中氨氧化细菌与氨氧化古菌多态性分析

【目的】本研究皆在了解虾养殖底泥中氨氧化细菌与氨氧化古菌群落多态性。【方法】以功能基因为基础,构建氨氧化细菌(AOB)与氨氧化古菌(AOA)的氨单加氧酶α亚基基因(amoA)克隆文库。利用限制性片段长度多态性(Restriction Fragment Length Polymorphism,RFLP)技术将克隆文库阳性克隆子进行归类分析分成若干个可操作分类单元(Operational Taxa Units,OTUs)。【结果】通过序列多态性分析,表明AOB amoA基因克隆文库中所有序列都属于变形杆菌门β亚纲(β-Proteobacteria)中的亚硝化单细胞菌属(Nitrosomonas)及Nitrosomonas-like,未发现亚硝化螺旋菌属(Nitrosospira)。AOA amoA基因克隆文库中只有一个OTU序列属于未分类的古菌(Unclassified-Archaea),其余序列都属于泉古菌门(Crenarchaeote)。AOA群落结构单一且存在一个绝对优势类群OTU3,其克隆子数目占克隆文库的57.45%。AOB和AOA amoA基因克隆文库分别包括13个OTUs和9个OTUs,其文库覆盖率分别为73.47%和90.43%。AOB amoA基因克隆文库的Shannon-Wiener指数、Evenness指数、Simpson指数、Richness指数均高于AOA。【结论】虾养殖塘底泥中存在氨氧化古菌的amoA基因,且多态性低于氨氧化细菌,表明氨氧化古菌在虾养殖塘底泥的氮循环中可能具有重要的作用。     

艾比湖湿地芦苇根际土壤氨氧化古菌的多样性和群落结构

【目的】旨在揭示耐盐植物芦苇根际与非根际土壤AOA群落结构间的差异,为深入研究盐生植物根际土壤微生物与耐盐性之间的关系提供理论基础。【方法】应用高通量测序技术以氨单加氧酶基因(amoA)为分子标记,对新疆艾比湖湿地荒漠生态系统不同季节(春、夏、秋)芦苇根际与非根际土壤氨氧化古菌(AOA)的多样性和群落结构进行研究。【结果】结果表明,不同季节芦苇根际土壤AOA多样性和丰富度存在差异,相比非根际土壤,夏季和秋季芦苇根际土壤AOA多样性较低丰富度较高,春季多样性较高丰富度较低。芦苇根际土壤中AOA的多样性为春季夏季秋季。AOA群落组成分析表明,土壤样品中AOA群落主要集中在泉古菌门(Crenarchaeota)和奇古菌门(Thaumarchaeota),其中泉古菌门为主要优势菌门。RDA分析表明,含水量(SM)、有机质(SOM)、总氮(TN)和pH是影响芦苇根际土壤AOA群落多样性和丰富度的主要环境因子。【结论】不同季节芦苇根际土壤AOA多样性及丰富度存在差异,相比非根际土壤,芦苇根际土壤AOA更丰富。     

乌梁素海湖泊湿地过渡带氨氧化细菌群落

探究乌梁素海富营养化湖泊湿地演化过程中,不同植物群落下土壤氨氧化细菌群落的组成、丰度、亲缘关系以及多样性变化,结合湿地理化因子探讨基质条件对氨氧化细菌群落结构的影响。提取沉积物和土壤总DNA,对氨氧化细菌群落的amoA基因构建克隆文库,并进行测序,分析湿地沉积物与土壤过渡带4个样点中氨氧化细菌群落结构的组成、丰度、亲缘关系以及多样性指标;分析基质条件变化对氨氧化细菌群落结构的影响。富营养化湖泊湿地水陆过渡带的芦苇沼泽沉积物、碱蓬盐碱化土壤和白刺荒漠化土壤中,氨氧化细菌群落结构组成相似性逐渐降低;优势种群发生明显变化,氨氧化细菌从与Nitrosomonaslike序列相似为主要优势类群向与Nitrosospira-like序列相似为主要优势类群转变,群落结构空间异质性成因主要由总氮和水溶盐总量这两个基质因子所主导,相关系数r为0.943;多样性指数分析表明,芦苇沼泽沉积物和白刺荒漠化土壤适合多样的氨氧化细菌生长。氨氧化细菌多样性与优势种群在湿地水陆过渡带发生明显变化,氨氧化细菌群落结构主要驱动因子为总氮和水溶盐总量的组合。     

高含氮稻田深层土壤的氨氧化古菌和厌氧氨氧化菌共存及对氮循环影响

随着海洋生态系统中的厌氧氨氧化反应和氨氧化古菌的发现,自然生态系统的氮循环过程被重新认识,但是目前尚无在陆地深层的相关报道。结合同位素示踪与分子生物学技术探索了稻田深层土壤中anammox与AOA的存在及特性。结果表明,在沼渣处理废水浇灌的高含氮稻田深层土壤中,anammox与AOA共存。通过构建克隆文库发现,此土壤中厌氧氨氧化菌的生物多样性相对较低,35个克隆序列只分为4个独立操作单元(OTU),代表序列与Genebank数据库中已探明的厌氧氨氧化菌Candidatus 'Kuenenia stuttgartiensis’的同源性超过95%;对氨氧化古菌的分析发现,20个克隆子共得到5个OTU,其与基因库中土壤/沉积物进化分支关系最近,序列的同源性部分超过98%。同位素示踪的初步结果表明,anammox产生的氮气占此土壤总氮气生成量的24.1%-29.8%。AOA与anammox的共存为anammox反应的广泛存在与发生提供了新思路。     

Abundance and community composition of ammonia-oxidizing archaea and bacteria in two different zones of Lake Taihu

The abundance and community composition of ammonia-oxidizing archaea and ammonia-oxidizing bacteria in the surface sediments of 2 different zones (Meiliang Bay and Eastern Lake Taihu) of Lake Taihu were investigated using real-time quantitative polymerase chain reaction and clone libraries. The amoA gene copy numbers in the surface sediment of Meiliang Bay ranged from 4.91?× 10(5) to 8.65?× 10(6) copies/g dry sediment for the archaeal amoA gene and from 3.74?× 10(4) to 3.86?× 10(5) copies/g dry sediment for the bacterial amoA gene, which were significantly higher than those of Eastern Lake Taihu (P?< 0.05). Concentrations of ammonia (NH(4)(+)), total nitrogen, organic matter, and pH of the sediments exhibited significantly negative correlations with the abundance of ammonia-oxidizing archaea or ammonia-oxidizing bacteria (P?< 0.05 or P?< 0.01, respectively). The potential nitrification rates show remarkable correlations with the copy numbers of the archaeal amoA gene. Diversity of the archaeal amoA gene in Eastern Lake Taihu was significantly higher than that of Meiliang Bay, whereas the bacterial amoA gene diversity was comparable for the 2 lake zones. The data obtained in this study would be useful to elucidate the role of ammonia-oxidizing archaea and ammonia-oxidizing bacteria in the nitrogen cycle of freshwater ecosystems.     

Lake acidity,fish predation,and the distribution and abundance of some littoral insects

Densities of Corixidae (Hemiptera), larval Odonata, and large larval Trichoptera were estimated in the littoral zone of small lakes in an acid-stressed area near Sudbury, Ontario. Fish were present in some lakes and absent in others, and fishless lakes occurred across a wide range of pH. Corixidae were significantly more abundant in lakes without fish than in lakes with fish, and their numbers were not related to the pH of fishless lakes. Anisoptera (Odonata) larvae tended to be more numerous in benthic samples from fishless lakes than from lakes with fish, and their exuviae were significantly more abundant around fishless lakes. In most lakes, the assemblage was dominated by three species; Leucorrhinia glacialis, Libellula julia, and Cordulia shurtleffi. In lakes containing white sucker, Catostomus commersoni, Gomphus spp. were most numerous. In the most acid fishless lakes, L. julia was uncommon, and L. glacialis was extremely abundant. In fishless lakes, numbers of Anisoptera larvae and exuviae were negatively correlated with pH, though species richness was positively correlated with pH. Exuviae of Zygoptera (Odonata) were more abundant around fishless lakes, irrespective of pH. Larvae of Limnephilus (Trichoptera) were most abundant in non-acid fishless lakes, and absent at pH<5.2. Abundances of Banksiola (Trichoptera) were negatively correlated with the pH of fishless lakes.     

Altitude ammonia-oxidizing bacteria and archaea in soils of Mount Everest

To determine the abundance and distribution of bacterial and archaeal ammonia oxidizers in alpine and permafrost soils, 12 soils at altitudes of 4000–6550 m above sea level (m a.s.l.) were collected from the northern slope of the Mount Everest (Tibetan Plateau), where the permanent snow line is at 5800–6000 m a.s.l. Communities were characterized by real-time PCR and clone sequencing by targeting on amo A genes, which putatively encode ammonia monooxygenase subunit A. Archaeal amo A abundance was greater than bacterial amo A abundance in lower altitude soils (≤5400 m a.s.l.), but this situation was reversed in higher altitude soils (≥5700 m a.s.l.). Both archaeal and bacterial amo A abundance decreased abruptly in higher altitude soils. Communities shifted from a Nitrosospira amo A cluster 3a-dominated ammonia-oxidizing bacteria community in lower altitude soils to communities dominated by a newly designated Nitrosospira ME and cluster 2-related groups and Nitrosomonas cluster 6 in higher altitude soils. All archaeal amo A sequences fell within soil and sediment clusters, and the proportions of the major archaeal amo A clusters changed between the lower altitude and the higher altitude soils. These findings imply that the shift in the relative abundance and community structure of archaeal and bacterial ammonia oxidizers may result from selection of organisms adapted to altitude-dependent environmental factors in elevated soils.     

Abundance of ammonia-oxidizing bacteria and archaea in industrial and domestic wastewater treatment systems

Nitrification plays a significant role in the global nitrogen cycle. Ammonia oxidation, the first step of nitrification, is performed in wastewater treatment by both ammonia-oxidizing bacteria (AOB) and ammonia-oxidizing archaea (AOA). Most previous studies focused on their distribution in natural environments. In this study we qualified and quantified AOB, AOA, total bacteria, and total archaea in six different wastewater treatment systems (WTSs) using clone library and real-time PCR techniques. The results revealed that wastewater quality was an essential factor for the distribution of AOB and AOA in aerobic reactors. Although both AOB and AOA were present in all samples and contributed to nitrification simultaneously, AOB were the dominant nitrifiers in the three industrial WTSs, whereas AOA were dominant in the three domestic WTSs. This indicates AOA may be more sensitive to some toxic compounds than AOB. In addition, the dominant groups of AOB in the industrial WTSs were Nitrosomonas and Nitrosospira; the composition of AOA in the domestic WTSs was very similar, possibly due to the same source of raw sewage.     

螺原体的分类及其生物多样性研究进展

摘要：螺原体(spiroplasma)是基本形态为螺旋形,无细胞壁,具有滤过性,能独立生活的一类原核微生物,是研究生物的运动、代谢及性比生物作用机理的重要模式生物。自从1973年建立了螺原体属(Spiroplasma)以来,已从许多昆虫等节肢动物、植物中分离到大量的螺原体,根据血清学特性目前发现的螺原体被分为34个血清组(包括15个血清亚组),并已确立了37个螺原体种。目前螺原体的分类采用的是多相分类法,主要根据形态学、生理生化、血清学以及系统发育学特性进行分析。螺原体具有丰富的生物多样性,它们与宿主的相互关系包括共生、互生和致病三种。在我国开展螺原体的资源调查和生物多样性研究将有助于充分认识和利用这类重要的生物资源。     

海州香薷（Elsholtzia splendens）根际铜抗性细菌的筛选及生物多样性

摘要：【目的】重金属耐性植物海州香薷根际铜抗性细菌的筛选及生物多样性研究将有助于了解微生物－超富集植物相互关系和植物修复机理、开发微生物－香薷重金属修复新技术。【方法】采用稀释平板涂布法从海州香薷根际筛选铜抗性菌株,测定菌株溶磷和产生吲哚乙酸、铁载体、1-氨基环丙烷-1-羧酸（ACC）脱氨酶的特性,采用16S rDNA限制性酶切多态性分析（amplified rDNA restriction analysis, ARDRA）研究铜抗性细菌的遗传多样性,根据16S rDNA相似性对产ACC脱氨酶的菌株进行了     

白洋淀异养鞭毛虫群落特征及其与环境因子的相关性

于2010年4月至2011年3月调查了白洋淀3个典型湖区表层水体异养鞭毛虫丰度和生物量及环境因子的周年变化,分析了异养鞭毛虫群落与环境因子的相关关系。白洋淀表层水体异养鞭毛虫的丰度和生物量分别介于100-3200 个/mL和35.98-2328.85 μg/L之间,周年平均值分别为1054 个/mL和532.93 μg/L。白洋淀小型异养鞭毛虫(＜7 μm)的丰度占总丰度的47.11%,而生物量只占总生物量的6.82%;中型异养鞭毛虫(约7-14 μm)的丰度占总丰度的37.42%,生物量占总生物量的39.21%;大型异养鞭毛虫(＞14 μm)的丰度虽只占总丰度的15.47%,却贡献了53.97%的生物量。相关性分析表明,异养鞭毛虫丰度与总氮和氨氮呈显著性负相关,与pH值、细菌丰度、纤毛虫丰度及叶绿素a含量呈显著性正相关;异养鞭毛虫生物量与pH值、溶解氧、纤毛虫丰度及叶绿素a含量显著正相关,与总氮、氨氮呈显著负相关。结果表明异养鞭毛虫群落在微食物环中起着枢纽作用。     

几种农田土壤中古菌、泉古菌和细菌的数量分布特征

真核生物、细菌和古菌三者共同构成了生命的三域系统.古菌作为第3种生命形式,不仅能在高温、强酸和高盐等极端环境下生存,而且在海洋、湖泊和土壤等生境中也广泛分布,预示其在整个生态系统中有着不可估量的作用.本文以2个农田剖面土壤和2个长期施肥试验站祁阳(QY)和封丘(FQ)的土壤为对象,以实时定量PCR方法为主要研究手段,对土壤中古菌(包括泉古菌)和细菌的16S rRNA基因拷贝数丰度变化进行了研究.结果表明:土壤泉古菌16S rRNA基因拷贝数要低于古菌l～2个数量级,两者与细菌相比,16S rRNA基因拷贝数大小顺序为土壤泉古菌＜古茵＜细菌,而古菌和泉古菌16S rRNA基因拷贝数与细菌的比值均随土壤深度加深而增大.不同施肥处理对土壤古菌和泉古茵的数量有显著影响.QY试验站土壤古菌和细菌的数量与土壤pH值显著相关(分别为r=0.850,P＜0.01和r=0.676,P＜0.05).FQ古菌、泉古菌和细菌与土壤pH值相关性不显著,与土壤有机质含量相关性均达显著水平(分别为r=0.783,P＜0.05;r=0.827,P＜0.05;r=0.767,P＜0.05).了解古菌包括泉古菌在农田土壤中的分布,可为评价其在生态系统和物质循环中的作用提供重要的理论依据.     

Abundance and diversity based on amoA genes of ammonia-oxidizing archaea and bacteria in ten wastewater treatment systems

The abundance and diversity of amoA genes of ammonia-oxidizing archaea (AOA) and bacteria (AOB) were investigated in ten wastewater treatment systems (WTSs) by polymerase chain reaction (PCR), cloning, sequencing, and quantitative real-time PCR (qPCR). The ten WTSs included four full-scale municipal WTSs, three full-scale industrial WTSs, and three lab-scale WTSs. AOB were present in all the WTSs, whereas AOA were detected in nine WTSs. QPCR data showed that AOB amoA genes (4.625?×?10⁴–9.99?×?10⁹ copies g^?1 sludge) outnumbered AOA amoA genes (<limit of detection–1.90?×?10⁷ copies g^?1 sludge) in each WTS, indicating that AOB may play an important role than AOA in ammonia oxidization in WTSs. Interestingly, it was found that AOA and AOB coexisted with anaerobic ammonia oxidation (anammox) bacteria in three anammox WTSs with relatively higher abundance. In a full-scale industrial WTS where effluent ammonia was higher than influent ammonia, both AOA and AOB showed higher abundance. The phylogenetic analysis of AOB amoA genes showed that genera Nitrosomonas was the most dominant species in the ten WTSs; Nitrosomonas europaea cluster was the dominant major cluster, followed by Nitrosomonas-like cluster and Nitrosomonas oligotropha cluster; and AOB species showed higher diversity than AOA species. AOA were found to be affiliated with two major clusters: Nitrososphaera cluster and Nitrosopumilus cluster. Nitrososphaera cluster was the most dominant species in different samples and distributed worldwide.