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利用厌氧微生物分离技术,对深度为1.2 m 的海南红树林湿地沉积物钻孔样品进行了分离培养,共获得11 株
厌氧sulfate-reducing bacteria(SRB) 菌株。经显微观察和16S rDNA序列分析,可归纳为6个属,其中已经报道有芽孢杆菌
属(Bacillus)、弧菌属(Vibrio) 和梭状芽胞杆菌属(Clostridium),另外3个属分别为伯克霍尔德菌属(Burkholderia)、希瓦氏菌属(Shewanella) 和海杆菌属(Marinobacterium)。不同属的细菌对硫酸盐还原的速率最低为14.71%,最高可达
56.78%,并且以上6属11株菌都能将+6价的硫还原生成-2价硫,并与培养基中的Fe2+结合生成黑色FeS沉淀,而这些无定
形FeS沉淀是生成黄铁矿的前体。红树林湿地SRB种群数量随沉积物深度的增加而降低,结合沉积物的地球化学分析测试
结果表明,表层(0 cm) 水界面的沉积物由于处于氧化-还原界面,氧气的周期性输入在一定程度上抑制了SRB的生长;随着
深度增加(10~40 cm),充足的有机质、偏中性的pH值以及厌氧环境的增强,使得SRB种类和数量明显增加;而60 cm以下
沉积物中因TOC含量降低,减少了微生物可利用的碳源,pH值明显降低,Na+和Ca2+离子浓度明显增加,这些因素都抑制了
SRB的生长,使得深部沉积物中SRB的种类和数量显著减少。 相似文献
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太湖沉积物中微生物多样性垂向分布特征 总被引:2,自引:0,他引:2
运用化学分析方法和PCR-DGGE技术,从沉积物化学及分子生物学角度对太湖沉积物理化性质(pH、Eh)、营养盐及微生物多样性的垂向分布及相关性进行研究。结果表明:沉积物-上覆水接触界面处于轻度还原状态,在表层8.0cm左右以下,Eh随沉积深度的增加迅速下降,还原性逐渐增强,到15.0~22.5cm深度区间内,Eh值基本稳定,还原性最强,之后随深度的进一步增加,Eh呈"之"型缓慢升高。沉积物pH随深度的增加先降低后缓慢升高,pH在整个剖面上变化幅度不大,在7.2~7.6变动。沉积物中含有丰富的营养盐,总氮(TN)、总磷(TP)最高含量分数和有机质(OM)的最高百分比分别为2.436mg/g、0.731mg/g和3.817%,其剖面特征表明,沉积物表层TN和OM远高于底层,其含量随深度增加而降低。TP随着沉积深度的增加呈"之"型缓慢减少。不同深度沉积物的微生物群落呈现出明显的空间分布多样性差异,不同深度沉积物的微生物群落结构之间的相似性和动态性存在差异。多元相关分析结果显示,TN与OM显著相关,理化指标、营养盐中任一指标含量与微生物群落多样性指标之间存在相关性,但不显著,微生物多样性是营养盐及环境物理、化学和生物等多方面共同作用的结果。 相似文献
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硝化和反硝化对湖泊有机质沉积成岩前降解作用的研究 总被引:8,自引:1,他引:8
贵州红枫湖10月叶绿素a(chla)和NO3^-含量均比7月明显降低。利用氮同位素等数据对此进行了研究,结果表明,含量的降低是由不同的生物地球化学作用引起的。chla含量的降低主要是水体中有机质降解(硝化)所致,而NO3^- 含量的降低则是缺氧季节湖泊沉积物表层反硝化作用的结果。缺氧季节表层水体仍然能发生较强烈的硝化作用。硝化作用和反硝化作用分别发生在热分层湖泊的上层和沉积物表层。反硝化作用不仅消耗大量的NO3^-,而且还造成了一定量的有机质降解(有机碳作为电子受体)。据估算,在红枫湖后五测点和大坝测点,总有机碳在沉积成岩前分别降解了78%和68%。其中由硝化作用引起的总有机质降解量分别为35.8%和25.9%,而反硝化作用则分别为13.4%和9.2%。 相似文献
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硫酸盐作为电子受体,在有机质早期成岩作用中扮演着十分重要的角色,且较浅的硫酸盐甲烷作用带往往预示着下部有较大的甲烷逸散,或下部暗含天然气水合物藏(或天然气藏)。南海北部作为天然气水合物赋存区,了解赋存区沉积物中硫酸盐浓度变化对我们研究沉积物早期成岩作用和水合物的赋存是有重要帮助的。本文在分析了南海北部陆坡多个站位的沉积物柱状剖面中硫酸盐浓度变化特征之后,提出了南海北部硫酸盐变化模型及SMI界面深度计算方法。根据南海北部硫酸盐变化特征由浅至深可依次划分为有机质氧化驱动硫酸盐还原带、中层过渡带及下部甲烷厌氧氧化还原硫酸盐带。其中部分站位下部甲烷厌氧氧化硫酸盐还原带可分为上、下两层,两者硫酸盐还原速率以及硫酸盐梯度具有明显差异。有机质氧化带与甲烷厌氧氧化还原硫酸盐带在区内各处广泛发育,中层过渡带的存在与否取决于下部甲烷通量,在通量较大的地区中层过渡带消失。表层硫酸盐浓度增大是由有机硫氧化产生硫酸盐引起的。还应该注意的是,在计算SMI界面深度时,应剔除上部有机质氧化消耗硫酸盐的相关数据后进行计算,若下部甲烷厌氧氧化层根据硫酸盐还原速率可以划分成不同的两层,则应该使用下层数据进行拟合,计算SMI界面深度。 相似文献
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本研究应用微生物16S rRNA-DGGE和T-RFLP技术,结合环境参数,对我国天然气水合物潜在区南海九龙甲烷礁附近973-4柱状样沉积物中3个层位12个不同深度(表层20 cm至382 cm,中层552 cm至796 cm,深层862 cm至1 196 cm)细菌群落结构及其分布进行了对比研究.其中T-RFLP实验表明,细菌丰度、香农指数和均匀度变化趋势相同,由深层到716 cm处先降后升,中层716 cm深度范围处微生物群落丰度、均匀度、香农指数相对较高,716 cm至表层先降后升.DGGE图谱和T-RFLP色谱峰聚类分析表明:表层20 cm至192 cm相似性较高,表层236 cm至382 cm与深层1 082 cm、1 196 cm群落结构相似性较高,但中层沉积物中微生物群落结构与表层及深层均有较大差异.环境参数表明中层甲烷含量较高,推测甲烷是影响微生物群落结构差异的主要因素之一.T-RFLP色谱峰与微生物数据库比对及DGGE条带测序也表明了:本区变形杆菌(Proteobacteria)为优势菌群,其中α-、γ-、δ-变形杆菌(Proteobacteria)为主要的细菌亚群,其他细菌包括放线菌(Actinobacteria)、厚壁菌门(Firmicutes)、绿弯菌门(Chloroflexi)为次优势菌群.甲烷含量较高的中层,甲烷氧化菌(Methanotrophs),硫还原菌(Sulfate-reducing bacteria)等与甲烷密切相关的细菌均有被检测到,表明该区域存在与天然气水合物的分解释放相关的微生物群落. 相似文献
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以长江河口典型潮间带(崇明东滩湿地)不同地貌单元植被根际柱样沉积物(0~33 cm)为研究对象,探讨了长江河口潮间带表层沉积环境中酸挥发性硫化物(AVS)的时空间变化特征及其与环境因子的关系.结果表明,不同植被根际沉积物中 AVS 含量存在显著季节变化,表现为:互花米草大于海三棱藨草和芦苇.各采样点根际沉积物中 AVS 含量垂向变化为:高潮滩芦苇,随深度的增加而降低;中潮滩互花米草与海三棱藨草,随深度的增加先增大后减小,且在地面下约20 cm 处显著增大. Pearson 相关分析表明,沉积物中 AVS含量与<16μm 的颗粒物、有机碳含量及含水率之间不存在简单的正相关关系.根际沉积物中 AVS 含量的时空变化可能受潮汐、植被生长等因素的综合影响,其时空变化特征反映了长江河口潮滩复杂多变的氧化还原条件.与芦苇和海三棱藨草相比,入侵物种互花米草对沉积物中硫酸盐异化还原有显著影响,其可能改变了潮滩湿地生态系统原有的氧化-还原生物地球化学循环过程 相似文献
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自生黄铁矿是海洋沉积物缺氧硫酸盐还原过程的主要产物。南海东北部的HD196A岩心中发现大量条状的自生黄铁矿,以中空或实心为主。含量分析表明,岩心500cm附近为黄铁矿富集带,与沉积物有机碳(Corg)、硫酸盐[SO4]2-、甲烷(CH4)以及碳酸钙(CaCO3)的地球化学特征分界一致,是岩心的沉积边界,反映了沉积物所处的缺氧环境。岩心沉积物地球化学剖面表明,有机质参与的硫酸盐还原过程和甲烷厌氧氧化作用是黄铁矿形成的主要因素。黄铁矿异常可以作为指示沉积物甲烷异常的标志之一。 相似文献
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土地整理对岩溶区土壤微生物生物量碳、氮及酶活性的影响——以重庆丰都县三坝乡为例 总被引:3,自引:2,他引:1
文章以重庆市丰都县三坝乡土地整理项目为例,分别对土地整理前(2012年12月)52个采集点和土地整理后(2013年3月)28个采集点,采用野外采样和室内分析相结合的方法,研究了土地整理对岩溶区土壤微生物群落结构、土壤微生物生物量碳(SMBC)、氮(SMBN)及酶活性(过氧化氢酶、脲酶、蔗糖酶)的影响,结果表明:(1)土地整理对土壤微生物影响显著,土地整理后比整理前土壤中的放线菌数量降低,真菌数量增加。(2)在0~20 cm土层,整理前后SMBC和SMBN含量变化显著,SMBC含量整理后比整理前降低了20.33%,SMBN含量整理后比整理前减少了47.84%;土地整理改变了整理前SMBC、SMBN含量随土层深度变化递减的规律,使SMBC、SMBN含量分别在亚表层(20~40 cm)出现最小值68.34 mg/kg和最大值33.58 mg/kg。(3)整理前后土壤脲酶和过氧化氢酶均在0~20 cm和20~40 cm同一土层差异显著,蔗糖酶活性在各土层差异均显著。土地整理使土壤脲酶和过氧化氢酶活性降低,蔗糖酶活性提高。(4)有机质对表层SMBC、SMBN含量和脲酶活性呈显著正相关,pH值与土壤酶活性呈显著正相关。 相似文献
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Enzymatic and Microbial Degradation of Organic Matter in Lake Hongfeng, Guizhou Province, China 总被引:1,自引:2,他引:1
1IntroductionEnzymaticandmicrobialdegradationoforganicmatterhasabearingnotonlyonearlydiagene sis,butalsoonelementcyclingandmicrobedistributioninlakesediments.Somereportsshowedtheabundancevariationsoforganicmatterinsediments (BurdigeandGardner,1998;ArthurandDean ,1998;WanGuojiangetal.,2 0 0 0 ) .However,duetothecomplexchemicalcompositionoforganicmatter,mechanismsofenzymaticandmicrobialdegradationandvariationsofeachchemicalcomponentneedtobestudiedfurther.Underanoxiccondition ,SO2 -4 isanimpo… 相似文献
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Hiromi Matsuda 《Geochimica et cosmochimica acta》1978,42(7):1027-1034
A 3-m sediment core taken from Lake Suigetsu, in which a shift from fresh to brackish water occurred about three hundred years ago, has been examined for variation with depth of organic carbon and fatty acids. From the difference in total amounts of sulphur between sediments under fresh and brackish water environments, the surface sediments above approximately 35 cm depth were deduced to be accumulated under a brackish water environment. The total contents of organic carbon and fatty acids, and percentage composition of fatty acids gave discontinuous profiles above and below the 35–40 cm sediment layer. At a depth of 12.5 cm, the distribution in chain length of the fatty acids changed from a unimodal (the predominance of C12-C18 over C20-C34) to a bimodal pattern, which was mirrored by the composition diversity index (CDI).Although the fatty acids in the surface sediments (0–40 cm) from Lake Suigetsu seemed to suffer milder degradation through microbial activity than those in a core (0–150 cm) from Lake Suwa, a freshwater eutrophic lake, both lacustrine sediments showed similar trends in the alteration of fatty acid composition with depth. 相似文献
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G. A. Leonova A. E. Mal’tsev V. N. Melenevskii L. V. Miroshnichenko L. M. Kondrat’eva V. A. Bobrov 《Geochemistry International》2018,56(4):344-361
Organogenic sediments (sapropels) in lakes are characterized by a reduced type of diagenesis, during which organic compounds are decomposed, the chemical composition of the pore waters is modified, and authigenic minerals (first of all, pyrite) are formed. Pyrolysis data indicate that organic matter undergoes radical transformatons already in the uppermost sapropel layers, and the composition of this organic matter is principally different from the composition of the organic matter of the its producers. The sapropels contain kerogen, whose macromolecular structure starts to develop during the very early stages of diagenesis, in the horizon of unconsolidated sediment (0–5 cm). The main role in the diagenetic transformations of organic matter in sediments is played by various physiological groups of microorganisms, first of all, heterotrophic, which amonifying, and sulfate-reducing bacteria. SO42? and Fe2+ concentrations in the pore waters of the sediments are determined to decrease (because of bacterial sulfate reduction), while concentrations of reduced Fe and S species (pyrite) in the solid phase of the sediment, conversely, increase. Comparative analysis shows that, unlike sapropels in lakes in the Baikal area, sapropels in southern West Siberia are affected by more active sulfate reduction, which can depend on both the composition of the organic matter and the SO42? concentration in the pore waters. 相似文献
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Saburo Sakai Masaru Nakaya Yoshikazu Sampei David L. Dettman Katsumi Takayasu 《Environmental Earth Sciences》2013,68(7):1999-2006
The relationship among H2S, total organic carbon (TOC), total sulfur (TS) and total nitrogen contents of surface sediments (0–1 cm) was examined to quantify the relationship between H2S concentrations and TOC content at the sediment water interface in a coastal brackish lake, Nakaumi, southwest Japan. In this lake, bottom water becomes anoxic during summer due to a strong halocline. Lake water has ample dissolved SO4 2? and the surface sediments are rich in planktic organic matter (C/N 7–9), which is highly reactive in terms of sulfate reduction. In this setting the amount of TOC should be a critical factor regulating the activity of sulfate reduction and H2S production. In portions of the lake where sediment TOC content is less than 3.5 %, H2S was very low or absent in both bottom and pore waters. However, in areas with TOC >3.5 %, H2S was correlated with TOC content (pore water H2S (ppm) = 13.9 × TOC (%) ? 52.1, correlation coefficient: 0.72). H2S was also present in areas with sediment TS above 1.2 % (present as iron sulfide), which suggests that iron sulfide formation is tied to the amount of TOC. Based on this relationship, H2S production has progressively increased after the initiation of land reclamation projects in Lake Nakaumi, as the area of sapropel sediments has significantly increased. This TOC–H2S relationship at sediment–water interface might be used to infer H2S production in brackish–lagoonal systems similar to Lake Nakaumi, with readily available SO4 2? and reactive organic matter. 相似文献
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Xiangchao Chen Muhua Feng Fan Ke Jizheng Pan Fan Fan Yarui Wang Wenchao Li 《Aquatic Geochemistry》2018,24(1):55-77
The source, quantity and quality of sedimentary organic matter (SOM) were investigated in the surface sediments of Lake Fuxian, a deep oligotrophic lacustrine system in China. Granulometry, biochemical organic composition, bulk organic proxies and their stable isotopes were determined in the surface sediments (0–4 cm). The values of δ13C, δ15N and atomic ratio of total organic carbon to total nitrogen (TOC/TN) indicated that the sediments in the large partial lake were influenced by autochthonous organic matter. The concentrations of TOC, protein (PRT) and total hydrolysable amino acids may be mainly modulated by phytodetritus sinking from euphotic zones since they correlated significantly with chlorins. Otherwise, the lack of correlation between chlorins concentrations and carbohydrate (CHO) and lipid (LIP) indicated that the latter may have an additional terrestrial source. The highest sediment quantity was found in the deepest station NC owing to its fine sediment. Stations near northwestern shore accumulated more SOM than other littoral stations, which was in accordance with sewage discharge strength. Degradation quality indices, such as chlorin index, degradation index, PRT/CHO, and LIP/CHO, were in general agreement in showing the degraded status of SOM in Lake Fuxian. No clear spatial patterns were found in sediment degradation quality, which may be influenced by bottom oxygen concentration in the deep stations. 相似文献
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水库现代沉积过程沉积磷的早期成岩作用模型研究 总被引:2,自引:0,他引:2
在沉积磷形态分析、孔隙水化学、核素计年以及吸附解吸实验等的基础上,运用一维“反应-平流-扩散”模型,研究了红枫湖现代沉积过程中磷的沉积改造。结果表明:红枫湖现代沉积过程中,有机态磷的矿化分解和铁结合态磷的络合/溶解,是控制沉积物磷迁移转化动力学的主要机制。沉积物-水界面附近有机磷的快速降解,可能克服沉积界面上铁氧化物对溶解磷的吸附缓冲,而形成向水体的磷酸盐迁移通量;自生磷灰石的沉积改造相对不明显,沉积磷向稳定形态含磷矿物(钙氟磷灰石)的转化过程同样不能影响红枫湖现代沉积过程中磷转化的质量平衡。 相似文献
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Offset of prograde hydrothermal alterations by retrograde reactions is evident in sediments from a piston core (PC6, 8 m long) from the Guaymas Basin, Gulf of California. Geochemical and mineralogical analyses of sediments and pore fluids show superimposed geochemical signals that indicate currently active reactions are modifying previously formed secondary solids. Hydrothermal barite was formed in a previously active flow channel between 150 and 250 cm depth. Hydrothermal gypsum is presently dissolving at depths > 780 cm, below which hydrothermal fluid flow is channeled by a secondary dolomite layer. Thermal stress of organic matter generates hydrothermal gas and petroleum having wide ranges of compositions and maturities. A significant amount of hydrothermally generated oil has been transported laterally through a porous debris flow (approx. 240 cm subbottom), overwhelming the indigenous bituminous matter. Water soluble petroleum constituents have disseminated throughout the cored sediments. From 400 to 700 cm depth the immature organic matter continues to experience thermally-enhanced diagenesis, and an even higher thermal stress has occurred at the bottom of the core. Enhanced bacterial degradation of organic matter has led to depletion of pore water sulfate and enrichment of ammonium (NH4+) in both pore fluid and sediment, resulting in formation of NH4+ bearing secondary clay minerals at depths below 780 cm. 相似文献
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东岛牛塘为目前在西沙群岛少见的淡水湖泊,发育保存完好的沉积物。文章通过对一根长126cm的沉积柱开展多方面的沉积学分析,包括沉积物的岩性特征,反映碳酸盐含量的白度、CaO和LOI950℃以及反映有机质含量的TOC,TN,TS和LOI550℃等地球化学指标随深度的变化特征,沉积物和环境介质的碳、氮同位素的对比分析,沉积物的稀土元素和Sr,F,P,Se等元素地球化学特征。结果认为:该湖泊沉积剖面自上而下可分成3个具有明显不同沉积学特征的沉积单元,其中25~96cm的沉积层明显地受到了海鸟粪的影响。识别出的海鸟粪土沉积层,为进一步研究历史时期岛屿鸟类生态系统和气候演化提供了良好的信息载体。 相似文献
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The reduction of sulfate by sulfate reducing bacteria in the anoxic zone is an extremely important process during early diagenesis of marine sediments. Our data from Great Bay, NH reinforce the proposal that the rate of sulfate reduction is directly proportional to the reactivity of the organic matter or the amount of readily metabolizable organic matter present in the sediment and, hence, the source of the organic material in the anoxic zone. It appears that organic matter rich in marine organic remains is more easily degraded in the anoxic zone and that sulfate reduction rates can vary considerably in an estuarine system where many types of organic material may be deposited. 相似文献
20.
Bente Aa. Lomstein Bo B. Jørgensen Jutta Niggemann 《Geochimica et cosmochimica acta》2006,70(12):2970-2989
The spatial distribution of total hydrolysable amino acids (THAA) and amino acid enantiomers (d- and l-forms) was investigated in sediments underlying two contrasting Chilean upwelling regions: at ∼23 °S off Antofagasta and at ∼36 °S off Concepción. The contribution of amino acids to total organic carbon (%TAAC: 7-14%) and total nitrogen (%TAAN: 23-38%) in surface sediments decreased with increasing water depth (from 126 to 1350 m) indicating that organic matter becomes increasingly decomposed in surface sediments at greater water depth. Changes in the ratio between the protein amino acid aspartate and its non-protein degradation product β-alanine confirmed this observation. Furthermore, estimates of THAA mineralization showed that sedimentary amino acid reactivity decreased with both increasing water depth as well as progressive degradation status of the organic matter that was incorporated into the sediment. Reactivity of organic matter in the sediment was also assessed using the Degradation Index (DI) developed by [Dauwe, B., Middelburg, J.J., 1998. Amino acids and hexosamines as indicators of organic matter degradation state in North Sea sediments. Limnol. Oceanogr.43, pp. 782-798.]. Off Concepción, DI was successfully applied to examine the degradation status of sedimentary organic matter at different water depths. However, unexpected results were obtained at the Antofagasta stations as DI increased with sediment depth, suggesting more degraded organic matter at the surface than deeper in the cores. The contribution of peptidoglycan amino acids to THAA was estimated from the concentrations of d-aspartate, d-glutamic acid, d-serine, and d-alanine. Peptidoglycan amino acids accounted for >18% of THAA in all investigated samples. In surface sediments peptidoglycan amino acids accounted for a progressively larger fraction of THAA at increasing water depths (up to >26%). Further, the contribution of peptidoglycan amino acids to THAA increased with increased sediment depth and age (up to 288-year-old) reaching up to 59%. Independent estimates based on d-amino acid concentrations in selected laboratory strains, bacterial counts and the sedimentary concentrations of d-amino acids indicate that a large fraction of the measured d-amino acids (>47 to >97%) originated from cell wall residues rather than from enumerated cells. 相似文献