非共生固氮菌及其固氮作用

生物固氮作用是生态系统中重要的氮素来源,参与固氮作用的微生物对植物的生长发育至关重要。与共生固氮微生物相比,非共生固氮微生物地域分布更广泛、种类更多,对全球生态系统中氮素循环有着重要意义。本文总结了非共生固氮菌的分类及系统发育,非共生固氮菌的群落构建过程和机制;归纳了不同生态系统(如草原、森林、海洋、农田等)、植物不同部位(如林冠、叶际、根际、根内、凋落物等)和土壤中非共生固氮菌的群落组成及固氮潜力的差异,以及影响非共生固氮菌群落组成和固氮潜力的主要因素(如气候因素、土壤理化性质、人为措施等);并整理了常用的研究非共生固氮菌及其固氮潜力的检测方法。     

植物内生固氮菌及其固氮机理研究进展

氮素是植物生长必不可少的元素,植物内生固氮菌不仅能够在植物体内产生氮素以供植物利用,而且在自然界氮素循环过程中发挥积极作用,对农业可持续发展具有重要意义。近年来,植物内生固氮菌逐渐成为研究热点。由植物内生固氮菌的发现、作物共生、侵入途径、固氮机理、促生作用机制等方面系统地综述了植物内生固氮菌的研究进展,探讨了植物内生固氮菌新的研究思路以及一些尚未解决的问题,以期为植物内生固氮菌及生物固氮研究提供参考。     

植物叶际固氮菌研究进展

固氮菌广泛存在于植物叶际,能固定空气中的氮气,满足自身或植物的部分氮素需求。基于纯种分离和培养的传统生物学方法已经研究了部分叶际固氮菌的特性,但对叶际固氮菌的物种组成、群落结构及生态功能等方面的认识还非常有限。随着分子生物学技术的发展、微生物分子生态学研究方法的逐步成熟,人们对叶际微生物的多样性和生态功能的研究越来越深入。叶际固氮菌具有丰富的多样性,温度、湿度、光照等环境因素及植物种类和微生物互作均会影响叶际固氮菌的组成。不同于根际固氮菌,叶际固氮菌具有非专一性,且不易受化肥的影响,其在农业生产上已经表现出潜在的应用价值。为此,本文综述了农作物、森林、海域生态系统中叶际固氮菌的群落结构组成及生态功能,以及外界因素对叶际固氮系统的影响。     

不同时期艾比湖湿地盐角草群落土壤固氮微生物的多样性分析

【目的】研究新疆艾比湖湿地不同季节盐角草根际和非根际土壤固氮微生物的多样性和丰富度与环境因子的相关性,以期探究在荒漠化和盐渍化不断严重的艾比湖湿地中随着季节变化的固氮微生物群落对恢复生态功能起到的潜在作用,为后续的湿地保护和退化恢复工作提供理论支持和数据基础。【方法】应用Illumina HiSeq PE250测序技术,分析6个土壤样本固氮微生物的多样性,结合相关的理化因子并利用RDA分析法探究土壤理化性质和固氮微生物菌落结构及丰富度的相关性。【结果】艾比湖湿地盐角草植物根际土壤的固氮微生物多样性高于非根际土壤,7月的土壤固氮微生物多样性高于10月和4月的土壤。土杆菌属(Geobacter)、假单胞菌属(Pseudomonas)、固氮菌属(Azotobacter)和慢生根瘤菌属(Bradyrhizobium)等为盐角草根际和非根际土壤中的共同优势菌属。这些固氮微生物优势菌属隶属于变形菌门(Proteobacteria)和蓝藻门(Cyanobacteria),且相对丰富度占比为85%和10%,其余各菌门共占比较少,仅为5%。土壤中固氮微生物的优势菌群与碱解氮(AN)、全氮(TN)、速效钾(AK)和有效磷(TP)呈显著相关。【结论】随着时间的推移土壤样本中固氮微生物的多样性和群落结构也发了改变,同一时期植物根际与非根际土壤中固氮微生物的群落结构并不相同。土壤的环境因子与固氮细菌的群落结构和丰富度的相关性研究可以为艾比湖湿地的退化恢复提供数据基础和理论支持。     

Spittlebug indicators of nitrogen-fixing plants

Abstract.

• 1 Spittlebugs (Homoptera: Cercopoidea) are preferentially associated with nitrogen-fixing angiosperms. Generally, the Aphrophoridae associate with legumes, the Clastopteridae with actinorhizal plants, and the Cercopidae with associative nitrogen-fixing grasses. This is the first reported insect—host association specific to nitrogen-fixing plants.
• 2 It is probable that spittlebugs are attracted to nitrogen-fixing plants because these hosts provide a relatively rich, reliable source of organic nitrogen compounds for xylem-sucking insects.
• 3 Many spittlebugs live on plants that do not fix nitrogen, and ecological, mechanical or chemical factors may bar some spittlebugs from otherwise suitable nitrogen-fixing plants.
• 4 Among nitrogen-fixing hosts, spittlebugs appear to prefer plants that transport fixed nitrogen as amino acids and amides to plants that transport fixed nitrogen as ureides.

     

动物的共生菌固氮

介绍了共生菌固氮涉及的动物和微生物类群、动物共生菌固氮的性质和机理。应用乙炔还原法和固氮酶基因检测等研究表明,所涉及的动物有7门13纲23目50科99属174种。动物肠道具有丰富的微生境,供不同生理需求的固氮菌生长发育,所蕴含的共生固氮菌类群也十分丰富,涵盖植物共生固氮菌、植物内生固氮菌、植物根际固氮菌、自生固氮菌等生态类型。一般认为动物共生固氮菌来源于环境,其性质属于联合共生固氮。动物共生固氮菌一般与其他共生生物形成复合体,以满足固氮过程中对电子和质子供体、能量供给、固氮酶活性保护以及氨阻遏解除等方面的需求。动物共生菌固氮产物氨的同化也需要多种共生物的协同作用,可能通过谷氨酰胺合成酶/谷氨酸合成酶等途径。总体上,食物氮、非蛋白氮和共生菌固氮相互协调,形成营养和解毒的代谢网络,共同维持动物体内氮素营养的动态平衡,并对未来研究提出展望。     

Enumeration and identification of nitrogen-fixing bacteria from forage grass roots

Root-soil cores were collected from forage grasses growing in a subtropical region of Texas and tested for acetylene reduction activity. The population density of nitrogen-fixing bacteria was measured, using various media and incubation conditions. Bacteria were confirmed as nitrogen fixing, using the acetylene reduction assay, and were classified according to standard biochemical and cultural methods. The majority of the nitrogen-fixing bacteria isolated from roots were Enterobacter cloacae or Klebsiella pneumoniae. Root-associated, nitrogen-fixing bacteria were isolated from 21 of 24 root-soil cores. The population densities of nitrogen-fixing bacteria ranged from approximately 10 to 3 x 10 per g of root. Population density on roots was significantly correlated with the rate of acetylene reduction but the relationship was not linear.     

间作大豆对甘蔗根际土壤细菌及固氮菌多样性的影响

为探讨间作大豆(Glycine max)对甘蔗(Saccharum officinarum)根际土壤细菌及固氮细菌多样性的影响, 收集和开发固氮菌资源, 筛选高效甘蔗联合固氮体系, 选用3个甘蔗栽培品种‘ROC22’、‘GT21’、‘B8’与大豆品种‘Guizao 2’进行间种栽培, 采用巢式PCR特异扩增细菌16S rRNA基因片段和固氮细菌nifH基因片段, 并结合变性梯度凝胶电泳(DGGE)技术, 对间作大豆的甘蔗根际土壤细菌及固氮细菌进行系统演化和多样性分析。聚类分析结果显示, 间作大豆改变了甘蔗根际土壤细菌及固氮细菌原来的群落组成结构, 尤其对固氮菌群落组成的改变更大, 但对群落物种的优势度影响较小。Shannon-Wiener多样性指数和Simpson多样性指数分析结果表明, 甘蔗-大豆间作显著影响甘蔗根际土壤中细菌和固氮菌的多样性, 其中对固氮细菌多样性的影响较大。不同甘蔗品种的根际土壤细菌和固氮菌在间作大豆条件下表现出不同的多样性, ‘ROC22’和‘GT21’间作处理甘蔗根际土壤固氮细菌的Shannon-Wiener多样性指数显著高于单作处理, 而‘ROC22’与大豆间作处理的甘蔗根际土壤固氮菌多样性最为丰富。在大豆生长盛期, 间作处理的甘蔗根际土壤细菌多样性最为丰富, 不同处理间的差异也最大, 随后下降。总体来看, 甘蔗-大豆间作显著地影响根际土壤细菌和固氮菌的群落结构和群落多样性, 有助于对甘蔗合理间作栽培模式的认识和筛选高效甘蔗联合固氮体系。     

典型生境巨菌草根内生固氮菌的群落多样性

【目的】探究不同生境巨菌草内生固氮菌群落组成多样性及其分异规律。【方法】采用高通量测序固氮酶nif H标靶基因方法,研究了我国6个典型地区的巨菌草内生固氮菌群,包括福建闽侯县、新疆墨玉县、内蒙古阿拉善左旗、青海贵德县、甘肃安定区、海南那大镇,结合地理气候因子统计,分析了固氮菌多样性的环境驱动机制。【结果】共获得64122条nif H基因的有效序列,640个OTUs,归属于6个门、10个纲、17个目、24个科、33个属和39个种。不同地区巨菌草中优势内生固氮菌群的种类和丰度存在较大的差异。在门水平上,福州闽侯县、甘肃安定区、新疆墨玉县、内蒙古阿拉善左旗和青海贵德县5个地区的优势菌门均为变形菌门,海南那大镇的优势菌门为变形菌门和蓝藻菌门;属水平上,不同地区巨菌草最优势内生固氮菌类群分别为:福州闽侯县(变形菌门中未定属,80.56%);新疆墨玉县(变形菌门中未定属,33.14%);内蒙古阿拉善左旗(变形菌门中未定属,76.23%);甘肃安定区(α-变形菌纲中的未定属,53.78%);海南那大镇(变形菌门中未定属,38.37%);青海贵德县(变形菌门中未定属,46.12%)。Alpha多样性和Beta多样性分析表明,不同地区巨菌草内生固氮菌群落的多样性存在较大的差异,海南那大镇样本中巨菌草各类内生固氮菌群的多样性及丰富度最高,福建闽侯县样本中巨菌草各类内生固氮菌群的多样性及丰富度最低。典范对应分析(CCA)结果表明,年均降雨量和年均气温是影响巨菌草内生固氮菌群变化的主要因素,其次是土壤有机质、土壤全氮和土壤p H。【结论】不同地区巨菌草内生固氮菌群落的组成及丰度存在着较大的差异,海南那大镇巨菌草内生固氮菌群的种类及相对丰度较高,本研究可为巨菌草内生固氮菌群的资源开发及其固氮微生物肥料的菌种选育和生产应用提供理论支持。     

Effect of presowing treatment of spring wheat seeds with wheat germ agglutinin on the chlorophyll content, lectin activity in leaves and nitrogen-fixing capacity of rhizospheric microorganisms

The response of spring wheat and rhizospheric nitrogen-fixing micro-organisms to the presowing treatment of seeds by wheat germ agglutinin was investigated in conditions of green house experiments. It was shown, that exogenous lectin induced the metabolic changes in plants and caused an increase in chlorophyll content and activity of endogenous lectins in the leaves, as well as enhanced accumulation of plants biomass and nitrogen-fixing capacity of the rhizospheric micro-organisms. These results evidence for the considerable role of exogenous lectin as a regulator of growth and development of plants and activity of the nitrogen-fixing microorganisms.     

甘露醇对氯化钠胁迫下蓝藻Anabaena 7120固氮活性的增强效应

营养液中添加外源的甘露醇后,蓝藻Ａｎａｂａｅｎａ ７１２０固氮受ＮａＣｌ胁迫的程度减弱。在光合作用不能进行或受到削弱,能量供应受阻、厌氧环境中和分子氧条件下,甘露醇的良好作用减小或消失。改善能涛和碳架供应,增强氢的利用或满足合成固氮酶蛋白所需物质需求时,甘露醇缓解ＮａＣｌ胁迫蓝藻固氮的程度明显增大。     

冬季低温及模拟升温对生物土壤结皮固氮活性的影响

以腾格里沙漠东南缘固沙植被区和相邻天然植被区发育的藻类和藓类结皮为研究对象,采用不同规格的OTCs研究了冬季低温及短期模拟升温对其固氮活性的影响。结果表明:不同规格的OTCs装置冬季全天气温升温幅度在1℃左右,不同深度土层升温幅度更加明显,约为3.2℃;冬季试验期,湿润条件下藻类和藓类结皮均具有固氮活性,平均固氮活性分别为1.2×104和0.4×104nmolC2H4·m-2·h-1,藻类结皮的固氮活性显著高于藓类结皮(P<0.01);试验期藻类和藓类结皮的固氮活性均与培养期气温显著正相关(P<0.001),与试验前3d降水量也呈显著正相关(P<0.001)。低温湿润冷冻环境下,结皮生物体胞内冰晶形成而导致的固氮酶体系受损可能是造成冬季结皮固氮活性降低的主要原因,冬季升温能促进结皮固氮活性的提高。本研究表明,在未来全球变暖和降水格局变化背景下,冬季升温能促进生物土壤结皮对区域生态系统的氮贡献。     

三峡库区水体中固氮微生物多样性及其影响因素

【目的】研究分析不同时空条件下三峡库区水体固氮微生物多样性,并探讨其与地球化学参数的相关性。【方法】采集三峡库区不同时间(三月份和六月份)和空间(干流与支流)的水体样品,对其进行地球化学参数分析,并通过构建克隆文库分析样品中固氮功能基因(nifH)的多样性进而探讨其与水体地化参数的相关关系。【结果】统计分析显示三峡库区水体固氮微生物α-多样性和群落组成具有时空差异。支流水体样品的固氮微生物α-多样性高于干流水体样品;六月水体样品的固氮微生物α-多样性高于三月水体样品。三峡库区三月水体样品中的固氮微生物群落以Proteobacteria (50.3%)和Firmicutes (40.0%)为主;六月水体样品的固氮微生物群落以Proteobacteria(48.4%)、Firmicutes(25.4%)和Cyanobacteria(19.0%)为主。Mantel检验结果显示:固氮微生物群落结构的差异与温度、pH和DIC等地球化学参数具有显著(P0.05)相关性,其中温度和pH的相关性系数最大。【结论】三峡库区固氮微生物的种群结构和多样性具有时空差异,影响三峡水库水体中固氮微生物群落结构与多样性的主要环境因素为温度和pH,同时浊度、DIC、氨氮也对库区水体固氮微生物群落结构和多样性有一定的影响。     

Nitrogen fixation throughout growth,and varietal differences in nitrogen fixation by the rhizosphere of rice planted in pots

Summary The nitrogen-fixing activity in the rhizospheres of various rices was measured by the acetylene-reduction method throughout plant growth in green-house pots. The activity began to increase 4 weeks after transplanting, increased until heading stage, then decreased. The concentrations of exchangeable ammonium and sugars in the soil were not related to the variation of nitrogen-fixing activity during rice growth.The nitrogen-fixing activities in the rhizospheres of 41 rice varieties in pots were measured to discover varietal differences. Levels of nitrogen fixation were highly correlated with the rices' dry root weight at heading stage.     

中央戈壁石下生物土壤结皮固氮细菌群落结构和多样性

【背景】戈壁荒漠石下生物土壤结皮(Biological Soil Crusts,BSCs)由石下生物定殖繁衍而成,广泛存在于石英石下方,在相关生态系统的物质循环中起重要作用;其细菌群落结构受空间和土壤环境因子影响而变化较大。固氮细菌是石下BSCs的形成和发育主要驱动力;中央戈壁面积较大,为温带的代表戈壁之一,但目前其石下BSCs中固氮细菌群落结构和多样性尚未有研究报道。【目的】阐释中央戈壁石下BSCs中固氮细菌的群落结构、多样性及其影响因素。【方法】应用Mi Seq对nif H基因进行高通量测序,并使用生物信息学方法基于nif H序列分析固氮细菌的群落结构和多样性及其影响因素。使用CoNet软件绘制物种共现性图,以期揭示石下固氮细菌群落结构的关键物种。【结果】石下固氮细菌的优势菌门有Cyanobacteria (47.20%-69.90%)和Proteobacteria (27.47%-48.91%);优势菌属为Scytonema (45.05%-69.09%)、Skermanella (10.26%-20.48%)和未知属(13.72%-22.00%);9月份物种丰富度较5月份高,但这2个月份的多样性无明显差异;在土壤理化因子中,速效氮对石下固氮细菌群落组成的影响最大;其中各微生物之间均存在较强的互作关系,以共存关系为主(约占66.98%),点度中心性、接近中心性和中介中心性均较高的节点属于Alphaproteobacteria。【结论】中央戈壁石下BSCs中固氮细菌以Cyanobacteria和Proteobacteria为最优势菌群;Alphaproteobacteria为稳定石下BSCs固氮细菌群落的关键类群,可能是主要固氮者,这为认识和利用石下生物土壤结皮固氮细菌提供了基础依据。     

Soft gel medium solidified with gellan gum for preliminary screening for root-associating,free-living nitrogen-fixing bacteria inhabiting the rhizoplane of plants

For preliminary screening for and characterization of free-living nitrogen-fixing bacteria from rhizoplane microflora, we used Winogradsky's mineral mixture-based nitrogen-free medium solidified with 0.3% gellan gum. The soft gel medium enabled some reference and wild free-living nitrogen-fixing bacteria to grow in characteristic colonies, including their reaction to oxygen and their motility change. Gellan gum is thus likely to be a better gel matrix than agarose for the investigation of root-associating, free-living nitrogen-fixing bacteria to identify their characteristic behaviors.     

Toxicity of two carbamate insecticides to the cyanobacterium Anabaena PCC 7120 and computations of partial lethal concentrations by the probit method

Toxicity studies of two commercial carbamate insecticides, carbaryl and carbofuran with the nitrogen-fixing filamentous cyanobacterium Anabaena PCC 7120, are described. Under nitrogen-fixing conditions and with calcium nitrate supplementation, 100 and 120 ppm carbaryl were the respective lethal concentrations (LC100), while 20 to 80 ppm (nitrogen-fixing conditions) and 20 to 100 ppm (with nitrate supplementation) were the partial lethal doses (相似文献   

Population of Aerobic Heterotrophic Nitrogen-Fixing Bacteria Associated with Wetland and Dryland Rice

Nitrogen-fixing activity and populations of nitrogen-fixing bacteria associated with two varieties of rice grown in dryland and wetland conditions were measured at various growth stages during the dry season. Acetylene reduction activities were measured both in the field and for the hydroponically grown rice, which was transferred from the field to water culture 1 day before assay. The activities measured by both methods were higher in wetland than in dryland rice. The population of nitrogen-fixing heterotrophic bacteria associated with rhizosphere soil, root, and basal shoots was determined by the most probable number method with semisolid glucose-yeast extract and semisolid malate-yeast extract media. The number of nitrogen-fixing bacteria was higher in wetland conditions than in dryland conditions. The difference between two conditions was most pronounced in the population associated with the basal shoot. The glucose medium gave higher counts than did the malate medium. Colonies were picked from tryptic soy agar plates, and their nitrogen-fixing activity was tested on a semisolid glucose-yeast extract medium. The incidence of nitrogen-fixing bacteria among aerobic heterotrophic bacteria in association with rhizosphere soil, root, and basal shoots was much lower in dryland rice than in wetland rice.     

固氮蓝细菌束毛藻生物固氮策略研究进展

固氮蓝细菌束毛藻(Tricodesmium)是海洋中丰度最高的固氮微生物,贡献了约42%的海洋生物固氮,为海洋生态系统提供了新的氮源,驱动海洋初级生产力和食物网,在海洋生物地球化学循环中发挥重要作用。作为海洋中“新氮”主要贡献者,束毛藻是一种不产生异形胞的丝状固氮蓝细菌。因为生物固氮的关键酶固氮酶对氧气十分敏感,一般固氮蓝细菌通常产生异形胞或采用夜间固氮的方式进行生物固氮,避免氧气对固氮酶的抑制作用。近年来研究发现,束毛藻具有一套独特的生物固氮体系,能够使同一藻丝在白天同时完成光合作用和生物固氮,并具有复杂的调控机制。本文综述了近年来束毛藻生物固氮策略的最新研究进展,介绍了其生物固氮和光合作用之间的精密调控机制,对拓展固氮微生物尤其是海洋蓝细菌固氮机制的认识具有借鉴意义。     

Two new nitrogen-fixing bacteria from the rhizosphere of mangrove trees: Their isolation, identification and in vitro interaction with rhizosphere Staphylococcus sp.

Abstract Two new diazotrophic bacteria, Listonella anguillarum and Vibrio campbellii , and one non-nitrogen-fixing bacterium, Staphylococcus sp., were isolated from the rhizosphere of mangrove trees. Strains of these newly-defined diazotrophs are known as pathogenic bacteria in fish and shellfish. During the purification of diazotrophic species from the entire rhizosphere population, N₂-fixation of the bacterial mixtures decreased. When grown in vitro in mixed cultures, the non-fixing bacterium Staphylococcus sp. increased the nitrogen-fixing capacity of L. anguillarum by 17% over the pure culture; the nitrogen-fixing capacity per bacterial cell increased 22%. This interaction was not due to a change in O₂ concentration. Staphylococcus sp. decreased the nitrogen-fixing capacity of V. campbellii by 15%.
These findings indicate that (i) other species of rhizosphere bacteria, apart from the common diazotrophic species, should be evaluated for their contribution to the nitrogen-fixation process in mangrove communities; and (ii) the nitrogen-fixing activity detected in the rhizosphere of mangrove plants is probably not the result of individual nitrogen-fixing strains, but the sum of interactions between members of the rhizosphere community.