干旱区土壤自养微生物研究进展     

赵康  张磊  李凯凯  王斐  张丙昌 《中国沙漠》2022,42(5):177-186

微生物自养固碳是维持干旱区土壤微生物群落结构及异养活动的重要过程,并影响地表生物结皮的演替及生态功能。近年来,土壤微生物组学的广泛应用,拓展了蓝细菌及真核藻类土壤自养微生物功能群研究,揭示了非蓝细菌类原核微生物向土壤输入有机质的可能。基于此,本文综述了干旱区土壤蓝细菌及藻类的分布及功能特征,并总结了环境因子的调控作用,重点总结了近几年对非蓝细菌自养微生物功能群及其生态功能的探索,最后对干旱区土壤自养微生物功能群研究的发展进行了总结与展望,以期为深入理解干旱区土壤微生物群落的形成及发展机理提供理论基础,并为良好生物结皮的构建提供科学依据。  相似文献   

Effect of Ecological Factors on the Distribution of Microorganisms in Regosols (Steppe of Priol’khonie, Siberia)     

Olga LOPATOVSKAYA  Anna SEREDKINA  Natalia BELKOVA 《《地质学报》英文版》2014,88(Z1):188-190

正1 Introduction Regosol in Eastern Siberia is intrazonal soil.In Priolkhonie region it occurs among chestnut soils,salt marshes and solonetzes.There are small information about Tagotskij hydrolaccolith in the research articles of geologists,archaeologists,and paleolimnologists when  相似文献   

Evidence of methylmercury production and modification of the microbial community structure in estuary sediments contaminated with wastewater treatment plant effluents     

Ramond JB  Petit F  Quillet L  Ouddane B  Berthe T 《Marine pollution bulletin》2011,62(5):1073-1080

The Seine’s estuary (France) waters are the receptacle of effluents originating from wastewater treatment plants (WWTP). In this estuary, mudflats are deposition zones for sediments and their associated contaminants, and play an essential role in the mercury (Hg) biogeochemical cycle mainly due to indigenous microorganisms. Microcosms were used to assess the impact of WWTP-effluents on mercury methylation by monitoring Hg species (total dissolved Hg in porewater, methylmercury and total mercury) and on microbial communities in sediments. After effluent amendment, methylmercury (MeHg) concentrations increased in relation with the total Hg and organic matter content of the WWTP-effluents. A correlation was observed between MeHg and acid-volatile-sulfides concentrations. Quantification of sulfate-reducing microorganisms involved in Hg methylation showed no increase of their abundance but their activity was probably enhanced by the organic matter supplied with the effluents. WWTP-effluent spiking modified the bacterial community fingerprint, mainly influenced by Hg contamination and the organic matter amendment.  相似文献   

盐场海芽孢杆菌与大洋铁锰结核相互作用     

吕靖  蓝鑫  姜明玉  曹文瑞  萨仁高娃  于心科  常凤鸣 《海洋科学》2020,44(1):36-45

本文研究了盐场海芽孢杆菌(Marinibacilluscampisalis)与大洋铁锰结核的相互作用过程,以及海洋微生物在铁锰结核形成中的作用。实验选取从深海沉积物中分离培养的盐场海芽孢杆菌(Marinibacillus campisalis)和大洋铁锰结核样品进行相互作用实验,设置有菌组和无菌组,培养过程中间隔取样分析。运用X射线荧光光谱(XRF)分析测定大洋铁锰结核元素组成,通过电感耦合等离子体发射光谱(ICP-OES)和电感耦合等离子体质谱(ICP-MS)测定反应过程中Fe、Mn、Co、Ni、Cu等离子浓度的变化,通过透射电镜(TEM)、扫描电镜(SEM)和能谱仪(EDS)观察并分析微生物表面情况,利用X射线衍射(XRD)分析手段测定铁锰结核矿物组成的变化。实验进行1天内细菌处于对数生长期,有菌组的Fe、Mn等离子浓度增加; 2—7天内细菌处于稳定期, Fe、Mn等离子浓度有一定程度降低,但总体浓度均大于无菌组的离子浓度,金属离子被吸附在菌体表面,新形成了简单的含Fe化合物和矿物;实验结束后,XRD分析结果显示样品的矿物含量,如菱铁矿、赤铁矿和针铁矿等有轻微程度的增加。研究表明盐场海芽孢杆菌(Marinibacilluscampisalis)能够促进释放铁锰结核中的Fe、Mn等元素,同时对释放出的金属离子又有富集作用,并能够诱导新矿物的形成。本研究为深入了解铁锰结核的生物成因提供了新的依据。  相似文献   

Mineral photoelectrons and their implications for the origin and early evolution of life on Earth   总被引：1，自引：0，他引：1  

LU AnHuai  WANG Xin  LI Yan  DING HongRui  WANG ChangQiu  ZENG CuiPing  HAO RuiXia  YANG XiaoXue 《中国科学:地球科学(英文版)》2014,57(5):897-902

Energy is the key issue of all life activities.The energy source and energy yielding pathway are the key scientific issues of the origin and early evolution of life on Earth.Current researches indicate that the utilization of solar energy in large scale by life was an important breaking point of the early evolution of life on Earth and afterwards life gradually developed and flourished.However,in the widespread biochemical electron transfer of life activities,it is still not clear whether the electron source is sun or how electrons originated from sun.For billions of years,the ubiquitous semiconducting minerals in epigeosphere absorb solar energy,forming photoelectrons and photoholes.In reductive and weak acidic environment of early Earth,when photoholes were easily scavenged by reducing matters,photoelectrons were separated.Photoelectrons could effectively reduce carbon dioxide to organic matters,possibly providing organic matter foundation for the origin of life.Photoelectrons participated in photoelectron transfer chains driven by potential difference and transfer into primitive cells to maintain metabolisms.Semiconducting minerals,by absorbing ultraviolet,also protected primitive cells from being damaged by ultraviolet in the origin of life.Due to the continuous photoelectrons generation in semiconducting minerals and utilization by primitive cells,photoelectrons from semiconducting minerals’photocatalysis played multiple roles in the origin of life on early Earth,such as organic synthesis,cell protection,and energy supply.This mechanism still plays important roles in modern Earth surface systems.  相似文献   

Fluid inclusions as a tool to constrain the preservation conditions of sub-seafloor cryptoendoliths     

M. Ivarsson  C. Broman  S. Lindblom  N.G. Holm 《Planetary and Space Science》2009,57(4):477-490

The combination of fluid inclusion analyses and microfossil analyses is an excellent method to study the preservation process of deep sub-seafloor microorganisms. By studying fluid inclusions in the same mineral phases as microfossils, it is possible to reconstruct the conditions that prevailed when the microorganisms where entombed and to put them in a geological and environmental context.This study has been performed on carbonate and gypsum veins in drilled basalt samples from three seamounts belonging to the Emperor Seamounts in the Pacific Ocean: Detroit, Nintoku and Koko Seamounts. The study show that variations in salt composition (MgCl₂, NaCl, KCl and CaCl₂) and salinity (2.1 and 10.5 eq. wt% NaCl) of the hydrothermal fluids do not have an influence on the occurrence of microfossils throughout the samples. The microorganisms were trapped and entombed at minimum temperatures of ∼130 °C which implies that the microorganisms could have existed at temperatures of ∼130 °C for shorter periods of time. The microorganisms were entrapped at shallow-marine to submarine conditions and the entrapment of the microorganisms occurred relatively late compared to the volcanic activity.  相似文献   

Quantitative characteristics of microorganisms in permafrost at different depths and their relation to soil physicochemical properties     

Wei Zhang  XiaoPei Dong  GuangXiu Liu  GaoSen Zhang  XiuKun Wu  XiSheng Tai  HaoZhi Long  BaoGui Zhang 《寒旱区科学》2012,4(2):0127-0131

Microorganisms in permafrost can live in cold environments due to coadapted physicochemical processes in this environment. In this paper, the relation between microbial number and soil physicochemical properties at the headwaters area of the Urumqi River is analyzed by using fluorescence microscopy counting and oligo-culture techniques. In total, 20 samples from a 200-cm permafrost core were used as study materials. The study reveals that the number of culturable bacteria has a significantly positive correlation with soil water content, total carbon and total nitrogen concentrations, and a significantly negative correlation with soil pH value. In addition, the ratio of culturable bacteria to total cell number decreases with depths. The results demonstrate that the number of culturable bacteria in permafrost is closely correlated with soil physicochemical properties and depositional age.  相似文献   

Bioremediation of sulphate rich mine effluents using grass cuttings and rumen fluid microorganisms   总被引：1，自引：0，他引：1  

Harma A. Greben  Jacobin Baloyi  Julia Sigama  Stephanus N. Venter 《Journal of Geochemical Exploration》2009,100(2-3):163-168

Acid Mine Drainage (AMD) needs to be treated before it can be re-used or discharged in receiving water bodies due to the low pH, high salinity and high sulphate concentrations of the water. Several treatment methods are currently applied including chemical treatment (e.g. neutralisation of the low pH waters), physical treatment (e.g. reverse osmosis) and biological treatment to reduce the high sulphate concentration. When treating AMD biologically, sulphate reducing bacteria (SRB) reduce sulphate to sulphide, provided that a suitable and cost effective carbon and energy source is present. In the present study mine water was remediated biologically, using the degradation products of grass-cellulose, as carbon and energy sources for the sulphate reducing bacteria. A laboratory scale one stage anaerobic bioreactor (20 L volume) containing grass cuttings and biomass consisting of rumen fluid microorganisms and immobilized SRB, was initially fed with synthetic sulphate rich water and later with diluted AMD. The results indicated an average of 86% sulphate removal efficiency when feeding synthetic sulphate rich feed water to the reactor. When feeding diluted AMD, the highest sulphate removal efficiency was 78%. The sulphate removal was dependant on Chemical Oxygen Demand (COD) concentrations in the reactor. Increased COD concentrations were obtained when fresh grass was added to the reactor on a regular basis. Metal removal, especially iron, was observed due to the metal sulphide precipitates formed during biological sulphate removal.  相似文献   

Crescentiella morronensis (Crescenti) (incertae sedis) dominated microencruster association in Lower Cretaceous (lower Aptian) limestones from the Rarău Massif (Eastern Carpathians,Romania)     

《Cretaceous Research》2017

Analysis of eight outcrops from Rarău Massif (Eastern Carpathians, Romania) revealed a rich assemblage of encrusting organisms mostly of problematic biological affiliation within platform-margin facies – Crescentiella morronensis, Radiomura cautica, Koskinobullina socialis, Pseudorothpletzella schmidi, Lithocodium aggregatum and bacinellid structures, encrusting calcified sponges (Calcistella jachenhausenensis, Neuropora lusitanica) and foraminifera (Coscinophragma cribrosa). Orbitolinids, calcareous green algae and rudists assign an early Aptian age (Bedoulian) for the studied limestones. In terms of species variety, abundance and structural microfabrics the studied microencruster association show similarity with the Upper Jurassic communities from reef and peri-reefal sedimentary settings. Comparisons with such assemblages are emphasized here. The presence of the sporolithacean and peyssonneliacean red algae (Sporolithon rude and Polystrata alba) contributes also to the construction of superimposed crusts. Even if the known stratigraphic range of the microencrusters is not strictly limited to the late Jurassic, reports of comparable associations in Urgonian-type facies is poorly documented. Therefore, it exemplifies the resistance and flourishing events of many encrusters throughout the Mesozoic.  相似文献   

高压下深海碳循环的过程及其对生命活动的影响     

刘亮霆  肖湘 《中国地质调查》2021,8(4):66-78

目前约25%化石燃料来源的CO₂被海洋吸收,缓解了人类活动对气候变化的影响。海洋通过多个概念的碳泵将大气中的CO₂输送到深海。深海高压和低温的特点有利于CO₂溶解,目前已经储存了相当于大气含量50倍的无机碳,另外,深海沉积物中还储存有大量甲烷水合物。认识深海中的碳循环过程,对于保护海洋固碳能力、开发固碳潜力有重要意义。总结了国内外在海洋碳库、碳输送研究方面的进展,重点讨论了深海C元素转化循环的过程以及高压对生命活动的影响。微生物驱动了深海碳循环,大部分浮游植物所包含的有机碳在沉降过程中被微生物矿化成CO₂以及转化为难降解的有机碳,使深海成为巨大的、长周转时间的有机碳库; 高压能提高古菌甲烷厌氧氧化的活性,提升屏蔽海底甲烷释放的能力,同时,高压下氧化甲烷的过程中不仅产生碳酸氢盐,还产生可支持异养生物的乙酸,因此,全球甲烷厌氧氧化的通量可能被低估; 高压下细胞代谢额外产生的氨,可作为氨氧化古菌固定无机碳的潜在能量来源。总之,研究现在以及未来的人类活动对深海碳循环过程的影响以及环境效应,评估应用深海作为地球工程技术平台封存CO₂的可能性,都迫切需要加深对碳循环在内的深海元素循环的认识。  相似文献