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1.
风干土壤中氨氧化微生物的恢复 总被引:3,自引:0,他引:3
【目的】比较历史风干土壤与加水恢复培养土壤中氨氧化古菌AOA和细菌AOB的组成与数量差异,探究风干土壤用于后续微生物生理生态学研究的可能性;明确我国典型酸性森林土壤中,海洋类Group 1.1a是否为数量上占据优势的古菌AOA生态型。【方法】针对中国生态系统研究网络10个台站的典型森林土壤样品,围绕风干保存和加水培养两种处理,通过高通量测序土壤氨氧化古菌及细菌amoA标靶基因,分析氨氧化微生物群落组成的变化规律;利用实时荧光定量PCR和DGGE指纹图谱技术,研究森林土壤微生物群落16S rRNA基因的数量变化规律,以及氨氧化细菌和古菌群落结构的差异。【结果】10个历史风干土壤加水培养28天后,土壤细菌和古菌数量均急剧增加,最高可达3230倍和568倍;其中8个土壤中氨氧化古菌AOA明显增加,5个土壤中氨氧化细菌AOB表现出明显的增加趋势。然而,高通量测序和系统发育分析表明,历史风干土壤与加水恢复培养土壤中AOA和AOB的群落组成无明显变化。Group 1.1b是氨氧化古菌的优势类群,而氨氧化细菌的主要类群是Nitrosospira螺菌属。氨氧化古菌和细菌的比例与总氮浓度呈显著正相关(r2=0.54,P0.05),表明酸性条件下土壤矿化并提供铵态氮底物可能是古菌氨氧化的驱动机制。【结论】风干土壤加水恢复培养后,AOA和AOB的种群数量大多出现增加的趋势,但其物种组成未发生显著变化,表明风干保存的土壤样品可用于后续室内培养,开展微生物生理生态学研究。与已有的海洋AOA生态型主导酸性土壤氨氧化类群的报道不同,土壤Group 1.1b是本研究森林土壤中的优势类群。 相似文献
2.
宏基因组技术研究泥岩母质发育的三种不同pH紫色土硝化微生物群落演变规律 总被引:2,自引:0,他引:2
【目的】揭示典型农田旱地紫色土硝化微生物的群落组成及其对pH的响应规律。【方法】针对同一母质发育但pH差异显著的3种紫色土,利用宏基因组技术深度测序研究土壤中硝化微生物丰度和群落,包括氨氧化古菌(ammonia-oxidizing archaea,AOA),氨氧化细菌(ammonia-oxidizing bacteria,AOB),亚硝酸盐氧化细菌(nitrite-oxidizingbacteria,NOB)和全程氨氧化细菌(completeammoniaoxidizer,Comammox)。【结果】土壤中硝化微生物的丰度占总微生物的2.130%–6.082%。3种紫色土中AOA、AOB和NOB的相对丰度有显著差异:酸性紫色土中AOA的相对丰度显著大于碱性紫色土,而AOB则相反;NOB的相对丰度在中性紫色土中最高。所有土样中均发现了1种全程氨氧化细菌Candidatus Nitrospira inopinata (Ca. N. inopinata),其在中性紫色土中相对丰度最高,占总微生物的0.203%。3种不同pH紫色土中AOA均以Nitrososphaera为主,NOB均以Nitrospira为主;酸性紫色土中AOB以Nitroscoccus为主,而中性和石灰性紫色土中则以Nitrosospira为主。Pearson相关性分析发现,土壤pH和铵态氮是影响硝化微生物丰度最大的两个因子。【结论】Comammox存在于3种不同pH紫色土中,且偏好中性环境;AOA、AOB和NOB群落结构和相对丰度都存在显著差异,结合相关性分析发现土壤pH和铵态氮是导致差异最重要的两个因子。 相似文献
3.
三峡库区消落带周期性淹水-落干对硝化微生物生态过程的影响 总被引:2,自引:0,他引:2
【目的】明确三峡库区消落带周期性淹水-落干对土壤硝化过程及功能微生物的影响。【方法】在重庆段万州、丰都和长寿3个典型消落带区域,分别采集淹水-落干8次、淹水-落干5次、淹水-落干0次土壤样品,通过室内培养分析土壤硝化作用强度;利用实时荧光定量PCR研究不同淹水-落干周期土壤氨氧化古菌和细菌的数量变化规律;采用DGGE分子指纹图谱和克隆文库技术研究土壤氨氧化古菌和细菌的群落组成差异。【结果】万州、丰都和长寿3个消落带中,土壤有机质和pH含量随淹水-落干次数的增加而增加;除长寿消落带外,土壤硝化强度也随着淹水-落干次数的增加而增强;随着硝化作用的发生,氨氧化古菌和细菌数量呈上升趋势,DGGE条带数量、位置和亮度均发生明显变化;氨氧化功能基因amoA的系统发育分析表明:万州和丰都消落带氨氧化古菌均属于土壤类古菌Group 1.1b;而长寿消落带则检测到少量的海洋类古菌Group 1.1a;3个消落带的优势氨氧化细菌均属于Nitrosospira和Cluster 0类群。【结论】三峡库区独特的"冬蓄夏泄"管理方式,导致淹水-落干8次的土壤经历了周期性的淹水-落干水分胁迫,提升了土壤有机质含量和pH,增加了土壤硝化作用强度,并可能改变了土壤硝化微生物群落结构。 相似文献
4.
【目的】以内蒙古辉腾锡勒草原九十九泉湿地为对象,研究湖泊干涸过程中氨氧化微生物的群落结构及其变化。【方法】通过MPN-PCR定量测定氨氧化古菌(AOA)和氨氧化细菌(AOB)的数量;构建amoA基因克隆文库,进行系统发育分析;结合土壤环境因子,探讨湿地退化过程中影响氨氧化微生物的潜在因素。【结果】依湖泊湿地退水梯度的不同样点中,有75%的样点AOB的数量高于AOA,AOB与AOA的数量比率为0.3-18.1。从湖心到湖岸草原带,AOA和AOB的数量有明显增加,但生物多样性呈降低趋势,二者没有呈现正相关。研究发现,AOB的数量与土壤中NH 4+-N的变化存在良好响应。系统发育分析显示,退化湖泊湿地AOA克隆序列均来自于泉古菌门(Crenarchaeota);AOB的amoA基因的克隆序列大部分与亚硝化单胞菌属(Nitrosomonas)有一定同源性,较少部分与亚硝化螺菌属(Nitrosospira)有一定同源性。【结论】湖泊退水过程增加了湿地土壤氨氧化微生物的数量,而氨氧化微生物的种群丰度有所降低。AOA和AOB群落对湖泊湿地的退化过程做出了响应,其中AOB的响应较为明显,氧化条件和土壤铵浓度的改变可能是促成这种响应的重要原因。 相似文献
5.
云南地区热泉中氨氧化菌丰度对环境条件的响应 总被引:3,自引:1,他引:2
【目的】研究热泉中的氨氧化菌对于理解全球氮循环作用至关重要,而人们对于热泉中环境条件对氨氧化菌丰度分布的影响还知之甚少。本研究旨在研究云南热泉中氨氧化菌的丰度以及热泉环境因子(例如:温度、氨浓度及pH等)对氨氧化菌丰度的影响。【方法】在所选取的热泉中,采集沉积物、菌席或泉华样品。使用RNA逆转录、定量聚合酶链式反应及荧光原位杂交等技术对样品中各微生物种群进行定量分析。【结果】所选取的热泉沉积物、菌席或泉华中微生物总量大约为108-109细胞/g。其中,氨氧化古菌(AOA)占样品中微生物总量的0.02-1.32%,而氨氧化细菌数量低于检测下限。地球化学参数和AOA相对丰度的相关性统计分析显示,氨氧化古菌相对丰度值与NH3、NO2-、NO3-浓度和温度等具有统计学意义上的相关性,而其与Fe2+和及盐度无统计学意义上的相关性。【结论】在所调查的热泉中,氨氧化微生物种群主要由AOA组成,AOA在热泉中的氨氧化生物地球化学过程中起着重要作用。热泉中多个环境因子一起控制着AOA丰度在不同热泉中的分布特征,而某些环境因子,如盐度-和Fe2+浓度,可能不是控制AOA分布特征的关键因素。 相似文献
6.
亚热带不同林分土壤氨氧化菌群落特征 总被引:2,自引:0,他引:2
为揭示亚热带不同森林类型对土壤氨氧化菌群落特征的影响,采用荧光定量PCR以及PCR-DGGE技术研究了阔叶林、杉木林、马尾松林和毛竹林土壤氨氧化古菌和细菌丰度及古菌群落结构特征.结果表明:不同林分土壤中氨氧化古菌数量(1.62×106~1.88×107个·g-1干土)高于相应土壤中的氨氧化细菌(2.41×105~4.36×105个·g-1干土);毛竹林土壤氨氧化古菌数量显著高于杉木林,而后者又显著高于阔叶林和马尾松林,但氨氧化细菌数量在不同林分之间没有显著差异.DGGE图谱分析表明,不同林分土壤中氨氧化古菌的物种有所差异,且毛竹林和杉木林土壤古菌群落结构迥异.氨氧化古菌在亚热带主要林分土壤中表现出明显优势,且除植被类型外,土壤速效钾、pH和有机质是引起土壤氨氧化古菌群落结构及多样性变异的主要因素. 相似文献
7.
重庆紫色水稻土中“全程”和“半程”氨氧化微生物的垂直分异 总被引:1,自引:0,他引:1
【目的】系统评估全程氨氧化细菌(complete ammonia oxidizing bacteria, Comammox bacteria)、半程氨氧化细菌(AOB)和古菌(AOA)在典型水稻土剖面的垂直分异规律。2015年发现的"全程"氨氧化细菌(Comammox Nitrospira)可将氨分子一步氧化为硝酸盐,实现硝化作用。而经典的"半程"氨氧化细菌(AOB)或古菌(AOA)将氨分子氧化为亚硝酸盐后,再由系统发育完全不同的硝化细菌将其氧化为硝酸盐。全程氨氧化细菌实现了一步硝化全过程,根本改变了学术界对2类微生物分步硝化的经典认知,但相关研究仍处于初步阶段。【方法】选择重庆北碚地区2017年典型水稻土并采集5、10、20和40 cm不同深度土壤(剖面采样点的上下误差不超过1cm),提取水稻土总DNA后,利用标靶功能基因amoA,通过实时荧光定量PCR技术分析全程氨氧化细菌(Comammox)、半程氨氧化细菌(AOB)和古菌(AOA)在水稻土不同深度的数量变异规律。【结果】半程氨氧化细菌AOB和古菌AOA均随土壤深度增加呈显著下降趋势。然而,全程氨氧化细菌的两大类微生物则表现出相反的规律,Comammox Clade A的丰度随着土壤剖面的加深而显著增加(P0.05),但Clade B并未有类似规律。Clade A在水稻土不同层次的土层中均比Clade B高出1个数量级,在5 cm和40 cm处的最低和最高值分别为3.42×10~7、8.46×10~7 copies/g。AOA与AOB的丰度大致相当,5cm剖面处数量最高分别为1.23×10~7、1.83×10~5copies/g,但其平均丰度远低于全程氨氧化细菌,Comammox与AOA、AOB amoA功能基因拷贝数之比为10–2000。【结论】全程氨氧化细菌(Comammox bacteria)广泛分布于水稻土不同土层中,且数量远高于"半程"氨氧化细菌和古菌,意味着Comammox可能在水稻土硝化作用中起重要作用。 相似文献
8.
自然条件变化和人类活动不仅加剧了土壤酸化,扩大了酸性土壤面积,而且严重影响了土壤氮循环。氨氧化过程作为硝化作用的限速步骤,是全球氮循环的核心环节,受到国内外研究者的广泛关注。探究酸性土壤氨氧化作用及其功能微生物对完善氮循环机制和促进土壤养分循环具有重要意义。本文主要综述了土壤中氨氧化代谢途径,对比了氨氧化细菌(ammoniaoxidizing bacteria, AOB)、氨氧化古菌(ammonia-oxidizing archaea, AOA)和全程硝化菌(complete ammoniaoxidizers,Comammox)对酸性土壤氨氧化作用的相对贡献,分析了微生物内源功能差异及pH、底物浓度等外部环境因素对氨氧化微生物丰度、活性和群落结构的影响,最后对氨氧化微生物研究进行了展望,以期为酸性土壤氨氧化作用研究和微生物修复技术应用与实践提供科学参考。 相似文献
9.
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 总被引:2,自引:0,他引:2
【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。 相似文献
10.
【目的】连续3次风干-湿润循环培养水稻土,在DNA和RNA水平下,探究细菌对干湿交替胁迫的响应机制,明确风干水稻土能否代替新鲜土壤进行细菌群落组成分析。【方法】针对我国江苏省常熟市水稻土,开展新鲜土壤的3次风干-湿润循环连续培养处理(每次循环中风干、湿润状态各维持7 d),在DNA和RNA水平应用16S rRNA基因高通量测序和实时荧光定量PCR技术,分析细菌数量和群落组成的变化规律。【结果】在湿润-风干过程中,DNA水平细菌数量降幅高达300–771倍,但RNA水平仅为1.95–5.60倍。在DNA水平,风干土细菌多样性与湿润土无显著差异,但在RNA水平,风干土明显高于湿润土。非度量多维尺度及共发生网络分析表明,水稻土干湿交替过程中,土壤细菌的群落结构发生显著改变(P<0.05);在DNA和RNA水平,水稻土在干湿交替过程中均检测到8个相同的优势菌门,占所有微生物90%以上,但不同门相对丰度变化显著(P<0.05)。在DNA和RNA水平,湿润-风干处理显著增加绿弯菌门(Chloroflexi)和放线菌门(Actinobacteria)的相对丰度,显著降低变形菌门(Prot... 相似文献
11.
海南东寨港红树林不同植被土壤微生物群落结构比较 总被引:4,自引:1,他引:3
【目的】比较不同植被下红树林土壤细菌和古菌的多样性及群落结构,认识红树林土壤微生物资源多样性。【方法】直接提取红树林土壤总DNA,采用细菌通用引物27F/1492R和古菌通用引物Arch21F/Arch958R进行PCR扩增,构建细菌和古菌16S rRNA基因文库,对海南东寨港自然保护区秋茄林、无瓣海桑林和无红树林裸滩土壤的细菌和古菌多样性和群落结构进行分析和比较。【结果】3种土壤样品的细菌类群包括变形细菌门(Proteobacteria)等16个类群,其中变形细菌门(Proteobacteria)与绿屈挠菌门(Chloroflexi)是优势类群;古菌包括6个嗜泉古菌界(Crenarchaeota)类群和7个广域古菌界(Euryarchaeota)类群,分别以Marine Benthic Group C、Marine Benthic Group D为优势类群。多样性指数(H’)和物种丰富度指数(Schao1)表明,本地种秋茄林下土壤细菌和古菌的多样性指数最高,外来种无瓣海桑显著低于秋茄林,甚至明显低于相邻无红树林裸滩沉积物;不同植被下土壤细菌和古菌群落结构存在显著差异,秋茄林土壤微生物群落结构和无红树林裸滩沉积物更相似。【结论】红树林土壤微生物类群丰富,不同植被下土壤细菌和古菌多样性和群落结构存在显著差异。 相似文献
12.
Seasonal changes in nitrogen-cycle gene abundances and in bacterial communities in acidic forest soils 总被引:2,自引:0,他引:2
The abundance of genes related to the nitrogen biogeochemical cycle and the microbial community in forest soils (bacteria, archaea, fungi) were quantitatively analyzed via real-time PCR using 11 sets of specific primers amplifying nifH, bacterial amoA, archaeal amoA, narG, nirS, nirK, norB, nosZ, bacterial 16S rRNA gene, archaeal 16S rRNA gene, and the ITS sequence of fungi. Soils were sampled from Bukhan Mountain from September of 2010 to July of 2011 (7 times). Bacteria were the predominant microbial community in all samples. However, the abundance of archaeal amoA was greater than bacterial amoA throughout the year. The abundances of nifH, nirS, nirK, and norB genes changed in a similar pattern, while narG and nosZ appeared in sensitive to the environmental changes. Clone libraries of bacterial 16S rRNA genes were constructed from summer and winter soil samples and these revealed that Acidobacteria was the most predominant phylum in acidic forest soil environments in both samples. Although a specific correlation of environmental factor and gene abundance was not verified by principle component analysis, our data suggested that the combination of biological, physical, and chemical characteristics of forest soils created distinct conditions favoring the nitrogen biogeochemical cycle and that bacterial communities in undisturbed acidic forest soils were quite stable during seasonal change. 相似文献
13.
内参基因加标法定量土壤微生物目标基因绝对拷贝数 总被引:1,自引:0,他引:1
【目的】通过荧光定量PCR技术对土壤微生物目标基因进行绝对定量,其定量结果的准确性容易受到DNA提取得率以及腐殖酸抑制性的影响。【方法】采用内参基因加标法,利用构建的突变质粒DNA,对供试水稻土壤样品中的微生物16S r RNA目标基因的绝对拷贝数进行荧光定量PCR检测,用来表征该样品中细菌群落总体丰度。在定量前通过双向引物扩增方法验证突变质粒中的内参基因对供试土壤的特异性。【结果】不同水稻土壤样品的DNA提取量在样品间差异较大。通过内参基因加标法对DNA提取量进行校正,显著提高了16S r RNA基因绝对定量的精确度。不同水稻土壤样品间的变异系数为17.8,与未加标处理相比降低了66.7%。在此基础上,进一步通过内参基因加标法对土壤有机质和含水率均呈现典型空间特征差异的6处亚热带湿地土壤样品中的16S r RNA基因进行绝对定量。16S r RNA基因绝对拷贝数与土壤微生物生物量碳具有显著的线性相关性(R2=0.694,P0.001),表明内参校正后的16S r RNA基因绝对拷贝数可以准确反映单位质量土壤中微生物的丰度。【结论】内参基因加标法可以对DNA提取得率以及腐殖酸对PCR扩增的抑制性进行校正,从而提高绝对定量的准确性。基于内参基因加标法的目标基因绝对定量PCR检测,可作为土壤微生物生物量测量,以及微生物功能基因绝对丰度定量的一种核酸检测方法。 相似文献
14.
Autotrophic ammonia-oxidizing bacteria were considered to be responsible for the majority of ammonia oxidation in soil until the recent discovery of the autotrophic ammonia-oxidizing archaea. To assess the relative contributions of bacterial and archaeal ammonia oxidizers to soil ammonia oxidation, their growth was analysed during active nitrification in soil microcosms incubated for 30 days at 30 °C, and the effect of an inhibitor of ammonia oxidation (acetylene) on their growth and soil nitrification kinetics was determined. Denaturing gradient gel electrophoresis (DGGE) analysis of bacterial ammonia oxidizer 16S rRNA genes did not detect any change in their community composition during incubation, and quantitative PCR (qPCR) analysis of bacterial amoA genes indicated a small decrease in abundance in control and acetylene-containing microcosms. DGGE fingerprints of archaeal amoA and 16S rRNA genes demonstrated changes in the relative abundance of specific crenarchaeal phylotypes during active nitrification. Growth was also indicated by increases in crenarchaeal amoA gene copy number, determined by qPCR. In microcosms containing acetylene, nitrification and growth of the crenarchaeal phylotypes were suppressed, suggesting that these crenarchaea are ammonia oxidizers. Growth of only archaeal but not bacterial ammonia oxidizers occurred in microcosms with active nitrification, indicating that ammonia oxidation was mostly due to archaea in the conditions of the present study. 相似文献
15.
16.
Considering their abundance and broad distribution, non-extremophilic Crenarchaeota are likely to play important roles in global organic and inorganic matter cycles. The diversity and abundance of archaeal 16S rRNA and putative ammonia monooxygenase alpha-subunit (amoA) genes were comparatively analyzed to study genetic potential for nitrification of ammonia-oxidizing archaea (AOA) in the surface layers (0-1 cm) of four marine sediments of the East Sea, Korea. After analysis of a 16S rRNA gene clone library, we found various archaeal groups that include the crenarchaeotal group (CG) I.1a (54.8%) and CG I.1b (5.8%), both of which are known to harbor ammonia oxidizers. Notably, the 16S rRNA gene of CG I.1b has only previously been observed in terrestrial environments. The 16S rRNA gene sequence data revealed a distinct difference in archaeal community among sites of marine sediments. Most of the obtained amoA sequences were not closely related to those of the clones retrieved from estuarine sediments and marine water columns. Furthermore, clades of unique amoA sequences were likely to cluster according to sampling sites. Using real-time PCR, quantitative analysis of amoA copy numbers showed that the copy numbers of archaeal amoA ranged from 1.1 x 10(7) to 4.9 x 10(7) per gram of sediment and were more numerous than those of bacterial amoA, with ratios ranging from 11 to 28. In conclusion, diverse CG I.1a and CG I.1b AOA inhabit surface layers of marine sediments and AOA, and especially, CG I.1a are more numerous than other ammonia-oxidizing bacteria. 相似文献
17.
西藏米拉山土壤古菌16S rRNA及amoA基因多样性?分析 总被引:2,自引:0,他引:2
摘要:【目的】硝化作用在全球土壤氮循环中具有重要的作用,虽然细菌一度被认为单独负责催化这个过程的限速步骤,但是最近一些研究结果表明泉古菌具有氨氧化的能力。本文通过构建古菌16S rRNA 基因克隆文库和氨氧化古菌amoA基因文库,分析西藏米拉山高寒草甸土壤中古菌及氨氧化古菌群落结构组成情况,为揭示青藏高原高寒草甸土壤古菌的多样性提供理论基础。【方法】采用未培养技术直接从土壤中提取微生物总DNA,分别利用通用引物构建古菌16S rRNA 基因和氨氧化古菌amoA基因克隆文库。【结果】通过构建系统发育树,表明古菌16S rRNA 基因克隆文库包括泉古菌门和未分类的古菌两大类,并且所有泉古菌均属于热变形菌纲。氨氧化古菌amoA基因克隆文库中序列均为泉古菌。通过DOTUR软件分析,古菌16S rRNA基因和古菌amoA基因克隆文库分别包括64个OTUs和 75个OTUs。【结论】西藏米拉山高寒草甸土壤中古菌多样性比较丰富,表明古菌在高寒草甸土壤的氮循环中可能具有重要的作用。所获得的一些序列与已知环境中土壤、淡水及海洋沉积物中获得的一些序列具有很高的相似性,其古菌及氨氧化古菌来自不同环境的可能性比较大,可能与青藏高原的地质历史变迁过程有关。米拉山古菌及氨氧化古菌与陆地设施土壤中相似性最高,说明与西藏米拉山高寒草甸土壤的退化有关。 相似文献
18.
Seasonal changes of freshwater ammonia-oxidizing archaeal assemblages and nitrogen species in oligotrophic alpine lakes 总被引:2,自引:0,他引:2
Auguet JC Nomokonova N Camarero L Casamayor EO 《Applied and environmental microbiology》2011,77(6):1937-1945
The annual changes in the composition and abundance of ammonia-oxidizing archaea (AOA) were analyzed monthly in surface waters of three high mountain lakes within the Limnological Observatory of the Pyrenees (LOOP; northeast Spain) using both 16S rRNA and functional (ammonia monooxygenase gene, amoA) gene sequencing as well as quantitative PCR amplification. The set of biological data was related to changes in nitrogen species and to other relevant environmental variables. The whole archaeal assemblage was dominated by phylotypes closely related to the crenarchaeal 1.1a group (58% ± 18% of total 16S rRNA gene sequences), and consistent structural changes were detected during the study. Water temperature was the environmental variable that better explained spring, summer, and winter (ice-covered lakes) archaeal assemblage structure. The amoA gene was detected year round, and seasonal changes in amoA gene composition were well correlated with changes in the archaeal 16S rRNA gene pool. In addition, copy numbers of both the specific 1.1a group 16 rRNA and archaeal amoA genes were well correlated, suggesting that most freshwater 1.1a Crenarchaeota had the potential to carry out ammonia oxidation. Seasonal changes in the diversity and abundance of AOA (i.e., amoA) were better explained by temporal changes in ammonium, the substrate for nitrification, and mostly nitrite, the product of ammonia oxidation. Lacustrine amoA gene sequences grouped in coherent freshwater phylogenetic clusters, suggesting that freshwater habitats harbor typical amoA-containing ecotypes, which is different from soils and seas. We observed within the freshwater amoA gene sequence pool a high genetic divergence (translating to up to 32% amino acid divergence) between the spring and the remaining AOA assemblages. This suggests that different AOA ecotypes are adapted to different temporal ecological niches in these lakes. 相似文献
19.
PCR profiling of ammonia-oxidizer communities in acidic soils subjected to nitrogen and sulphur deposition 总被引:2,自引:0,他引:2
Communities of ammonia-oxidizing bacteria (AOB) were characterized in two acidic soil sites experimentally subjected to varying levels of nitrogen and sulphur deposition. The sites were an acidic spruce forest soil in Deepsyke, Southern Scotland, with low background deposition, and a nitrogen-saturated upland grass heath in Pwllpeiran, North Wales. Betaproteobacterial ammonia-oxidizer 16S rRNA and ammonia monooxygenase (amoA) genes were analysed by cloning, sequencing and denaturing gradient gel electrophoresis (DGGE). DGGE profiles of amoA and 16S rRNA gene fragments from Deepsyke soil in 2002 indicated no effect of nitrogen deposition on AOB communities, which contained both Nitrosomonas europaea and Nitrosospira. In 2003, only Nitrosospira could be detected, and no amoA sequences could be retrieved. These results indicate a decrease in the relative abundance of AOB from the year 2002 to 2003 in Deepsyke soil, which may be the result of the exceptionally low rainfall in spring 2003. Nitrosospira-related sequences from Deepsyke soil grouped in all clusters, including cluster 1, which typically contains only sequences from marine environments. In Pwllpeiran soil, 16S rRNA gene libraries were dominated by nonammonia oxidizers and no amoA sequences were detectable. This indicates that autotrophic AOB play only a minor role in these soils even at high nitrogen deposition. 相似文献