Stromatolites of the upper Siyeh Limestone (Middle Proterozoic), Belt Supergroup,Glacier National Park,Montana     

Robert J. Horodyski 《Precambrian Research》1976,3(6):517-536

Calcareous stromatolites of the upper Siyeh Limestone (ca. 1.1 ° 10⁹ years old) were studied in the central part of Glacier National Park, Montana. The stromatolites, mound- and dome-shaped structures deposited in a shallow, generally submerged, tidally influenced setting, were formed by a combination of in situ carbonate precipitation and organic stabilization of detrital material. Well-developed, 1–4 cm diameter, branched columns occur in a single stromatolite bed.Physical factors, including the size and shape of sediment-surface irregularities upon which the stromatolites developed, the rate of sedimentation between stromatolites, and the water depth, played a major role in controlling stromatolite macrostructure. Deposition of non-organically stabilized detritus on stromatolite growth surfaces inhibited the development of small-diameter columns by smoothing over developing growth features. Columnar structures are absent in stromatolites that contain abundant non-organically stabilized sediment. In contrast, they are well-developed in a stromatolite bed that is relatively deficient in such material.“Molar-tooth” structures are common in the impure dolomitic limestones, and the abundant sheet-shaped forms appear to be sparry-calcite-filled syneresis cracks.  相似文献   

Lacustrine stromatolites: Useful structures for environmental interpretation – an example from the Miocene Ebro Basin     

Leticia Martin‐Bello  Concha Arenas  Brian Jones 《Sedimentology》2019,66(6):2098-2133

The significance of stromatolites as depositional environmental indicators and the underlying causes of lamination in the lacustrine realm are poorly understood. Stromatolites in a ca 600 m thick Miocene succession in the Ebro Basin are good candidates to shed light on these issues because they are intimately related to other lacustrine carbonate and sulphate facies, grew under variable environmental conditions and show distinct lamination patterns. These stromatolites are associated with wave‐related, clastic‐carbonate laminated limestones. Both facies consist of calcite and variable amounts of dolomite. Thin planar stromatolites (up to 10 cm thick and less than 6 m long) occurred in very shallow water. These stromatolites represented first biological colonization after: (i) subaerial exposure in the palustrine environment (i.e. at the beginning of deepening cycles); or (ii) erosion due to surge action, then coating very irregular surfaces on laminated limestones (i.e. through shallowing or deepening cycles). Sometimes they are associated with evaporative pumping. Stratiform stromatolites (10 to 30 cm high and tens of metres long) and domed stromatolites (10 to 30 cm high and long) developed in deeper settings, between the surge periods that produced hummocky cross‐stratification and horizontal lamination offshore. Changes in stromatolite lamina shape, and thus in the growth forms through time, can be attributed to changes in water depth, whereas variations in lamina continuity are linked to water energy and sediment supply. Growth of the stromatolites resulted from in situ calcite precipitation and capture of minor amounts of fine‐grained carbonate particles. Based on texture, four types of simple laminae are distinguished. The simple micrite and microsparite laminae can be grouped into light and dark composite laminae, which represent, respectively, high and low Precipitation/Evaporation ratio periods. Different lamination patterns provide new ideas for the interpretation of microbial laminations as a function of variations in climate‐dependent parameters (primarily the Precipitation/Evaporation ratio) over variable timescales.  相似文献   

青海省湟中区东岔沟克素尔组叠层石分类及地层对比     

但浩文  保广普  董琳  秦树健 《地质学报》2023,97(10):3198-3212

叠层石被广泛认为是地球上的一些最古老的生命痕迹,是研究地球早期生命的重要窗口。作为前寒武纪地层中的唯一常见化石,可以作为地层对比的标志,特别是中、新元古代盆地间的地层对比。青海省中祁连地层分区东岔沟村花石山群克素尔组以白云质碳酸盐岩组合为主,赋存大量叠层石。依据曹瑞骥和袁训来总结的分类方法,在研究区识别出9种不同的叠层石属,分别为：Baicalia、Chihsienella、Anabaria、Tielingella、Conicodomenia、Tungussia、Colonnella、Stratifera和Cryptozoon。研究区叠层石组合与中元古界上部蓟县系铁岭组叠层石组合具有明显的可比性,与国内其他地区的中元古代晚期—新元古代早期叠层石组合也有很强的相似性,据此推测花石山群克素尔组的年代大致为中元古代晚期。青海叠层石的报道将为我国和世界范围内中、新元古代叠层石的分布提供新产地的数据,常见叠层石属、种的垂直分布延限也有新的化石证据,对提升地层对比的精度具有重要意义。  相似文献   

Mississippian (Early Carboniferous) stromatolite mounds in a fore-reef slope setting, Laibin, Guangxi, South China   总被引：1，自引：0，他引：1  

Jian-Wei Shen  Hairuo Qing 《International Journal of Earth Sciences》2010,99(2):443-458

The Mississippian (Early Carboniferous) is generally a period of scarce carbonate buildups in South China. This study documents outcrops of stromatolite mounds at Mengcun and Helv villages, in Laibin City, Guangxi Province, South China. The stromatolite mounds contain various stromatolite morphologies including laminar, wavy-laminar, domal or hemispheroidal, bulbous, and flabellate-growth columns. Intramound rocks are brachiopod floatstone and dark thin-bedded laminated micrite limestone. Individual stromatolites at Mengcun village are generally 3–6 cm thick and morphologically represent relatively shallow-water laminar (planar and wavy-undulated stromatolites) and deeper-water domal, bulbous and columnar forms. Where mounds were formed, the stromatolites continued growing upward up to 60 cm thick. Thrombolitic fabrics also occur but are not common. Stromatolite microscopic structure shows the bulk of the lamination to consist of wavy microbialite and discrete thin micritic laminae. These mounds are intercalated in deep-water fore-reef talus breccia, packstone formed as a bioclastic debris flow and thin-bedded limestone containing common chert layers of the Tatang Formation (late Viséan). Further evidence supporting the deep-water setting of the stromatolite mounds are: (1) a laterally thinning horizon of brachiopod floatstone containing deep-water, small, thin-shelled brachiopods, peloidal micritic sediments and low-diversity, mixed fauna (e.g., thin-shelled brachiopods, tube-like worms and algae) that have been interpreted as storm deposits, (2) common fore-reef talus breccias, (3) lack of sedimentary structures indicating current action, (4) preservation of lamination with sponge spicules, and (5) lack of bioturbation suggesting that the stromatolites grew in a relatively low energy, deep-water setting. The stromatolite mounds are the first described stromatolite mounds in Mississippian strata of South China and contain evidence that supports interpretations of (1) growth history of Mississippian microbial buildups and (2) environmental controls on stromatolite growth and lithification.  相似文献   

Stromatolites in the Late Ordovician Eureka Quartzite: implications for microbial growth and preservation in siliciclastic settings     

PETER A. DRUSCHKE  GANQING JIANG  THOMAS B. ANDERSON†  ANDREW D. HANSON 《Sedimentology》2009,56(5):1275-1291

Well-preserved siliciclastic domal stromatolites, up to 2 m wide and 1·5 m high, are found in a 10 to 15 m thick interval within the Late Ordovician Eureka Quartzite of Southern Nevada and Eastern California, USA. These stromatolites appear as either isolated features or patchy clusters that contain more than 70% by volume quartz grains; their association with planar, trough and herringbone cross-bedding suggests that they were formed in an upper shoreface environment with high hydraulic energy. In this environment, sand bars or dunes may have provided localized shelter for initial microbial mat colonization. Biostabilization and early lithification of microbial mats effectively prevented erosion during tidal flushing and storm surges, and the prevalence of translucent quartz sand grains permitted light penetration into the sediment, leading to thick microbial mat accretion and the formation of domal stromatolites. Decimetre-scale to metre-scale stromatolite domes may have served as localized shelter and nucleation sites for further microbial mat colonization, forming patchy stromatolite clusters. Enrichment of iron minerals, including pyrite and hematite, within dark internal laminae of the stromatolites indicates anaerobic mineralization of microbial mats. The occurrence of stromatolites in the Eureka Quartzite provides an example of microbial growth in highly stressed, siliciclastic sedimentary environments, in which microbial communities may have been able to create microenvironments promoting early cementation/lithification essential for the growth and preservation of siliciclastic stromatolites.  相似文献   

太平洋中国开辟区锰结核生物成因研究   总被引：13，自引：2，他引：11  

陈建林  张富生等 《地质学报》2001,75(2):228-233,T005,T006

本文对叠层石（微小叠层石与奇异叠层石）及其建造者（中华微放线菌与太平洋螺球孢菌）在结核中显示的规律性特征,叠层石纹层与超微生物生长,主要锰矿物及Fe、Mn元素与叠层石类型之间关系以及超微生物直接成矿等作了深入研究。结果表明：锰结核中叠层石柱体一般都显示出纹层、纹层组与纹层带3个级别的生长韵律,明层菌丝体密集,暗层菌丝体稀疏;两种叠层石类型与超微生物化石种存在着良好的对应关系;主要锰矿物含量变化与叠层石类型密切相关;叠层石柱体内Fe、Mn元素分布比柱间空隙具有明显的规律性,而全球性大气化程度比生殖菌丝强;超微生物的生化作用与沉积粘附作用直接造成了结核中Fe、Mn元素的富集,而全球性大气修与洋底微环境的周期性变化,影响了微生物生长的兴衰,导致了明暗相间纹层的交替出现。我们认为,叠层石纹层显示的韵律性特征,是胶体化学作用与沉积作用难以形成的,只有微生物群体的世代繁衍,才能构筑成几乎固定不变的叠层石柱体形态。上述研究成果,进一步确立了大洋锰结核的生物成因观点。  相似文献   

Variations in Neoarchean microbialite morphologies: clues to controls on microbialite morphologies through time     

MEGAN A. MURPHY  DAWN Y. SUMNER 《Sedimentology》2008,55(5):1189-1202

The Neoarchean Carawine Formation, Hamersley Group, Western Australia is a carbonate ramp that preserves diverse microbial structures which are characteristic of specific depositional environments. These distinctive structures are distributed in five shallow subtidal and two deeper‐water facies in the Oakover area of the Carawine Formation. The shallow subtidal facies are composed of biohermal and bedded stromatolites, centimetre‐scale ridge‐shaped microbialites and wavy‐laminated microbialites. The deeper‐water facies are composed of fenestrate microbialites, planar laminated dolostone and dolostone with rolled‐up microbial laminae. Microbialites in the Carawine Formation lie within a continuum of Archean to Proterozoic microbial facies. Some shallow‐water microbial facies in the Carawine Formation are similar to Proterozoic facies, such as large bioherms internally composed of a variety of stromatolite morphologies. In contrast, fenestrate microbialites grew in quiet subtidal environments and are common in Archean rocks but have not been documented in similar Proterozoic environments. The similarity of shallow‐water facies across the Archean–Proterozoic transition, before and after the oxidation of the atmosphere and surface oceans, indicates that stromatolite growth in shallow subtidal environments was not strongly affected by the chemical changes associated with oxidation of the oceans or by biological responses to those chemical changes. Rather, stromatolite morphology was controlled mostly by the physical environment and the corresponding biological responses to that environment. In contrast, the absence of fenestrate microbialites from Proterozoic deep subtidal environments suggests that the morphology of deep subtidal microbial structures was influenced by chemical or biological changes that occurred in association with oxidation of the surface oceans.  相似文献   

Stromatolites of the lower Missoula Group (Middle Proterozoic), Belt Supergroup,Glacier National Park,Montana     

Robert J. Horodyski 《Precambrian Research》1975,2(3):215-254

The mode of formation and environmental setting of stromatolites from the lower Missoula Group (ca. 1.1·10⁹ years old) in Glacier National Park, Montana, have been determined. The stromatolite-bearing interval in the lower Missoula Group was deposited in a shallow, intermittently exposed setting of very low relief, the stromatolites forming during periods of submergence. In situ carbonate precipitation was the dominant process involved in the formation of encrusting stromatolitic laminae. This precipitate was deposited within, and probably beneath, algal mats, most likely as a result of the photosynthetic removal of carbon dioxide by the mat-building microscopic algae. Calcite also was precipitated in several types of open-space structures occurring within these stromatolites. Other laminae were produced by the organic stabilization of detrital particles; by the solely physical accumulation of terrigenous material; and probably, by bacterially induced precipitation of iron sulfide which was later oxidized to form hematite layers.Three forms of filamentous microfossils, two of which appear to be oscillatoriacean cyanophytes and the third of which is probably either a cyanophyte or filamentous bacterium, have been detected in these structures. In addition, hematitic pillar-shaped microstructures, interpreted to have been produced by filamentous bacteria, are abundant locally.In gross morphology, the lower Missoula Group stromatolites are simple, unbranched, domal structures ranging from several millimeters to several decimeters in both height and diameter. Physical conditions played a major role in determining the macrostructure of these stromatolites. Of particular importance were the shape of the positive sediment-surface irregularities upon which the stromatolites initially formed, the rate of sedimentation between stromatolite colonies, and the deposition of layers of terrigenous material on stromatolite growth surfaces. The effect of biological factors on stromatolite structure is clearly seen in those portions of stromatolites relatively free of terrigenous material; biological activity was apparently greatest on positive irregularities of the growth surface, resulting in preferential enhancement of such irregularities and development of second- and higher-order hemispheroidal structures.  相似文献   

The role of endolithic cyanobacteria in the formation of lithified laminae in Bahamian stromatolites   总被引：5，自引：0，他引：5  

Ian G. Macintyre  Leslie Prufert-Bebout  & R. Pamela Reid 《Sedimentology》2000,47(5):915-921

The microboring activity of endolithic cyanobacteria plays a major role in the formation of the dominant lithified laminae in modern marine stromatolites in the Exuma Cays, Bahamas. These stromatolites are composed primarily of fine-grained carbonate sand that is trapped and bound by the filamentous cyanobacteria Schizothrix sp.. Periodic introduction of coccoid endolithic cyanobacteria Solentia sp. during hiatuses in stromatolite growth associated with very low rates of sedimentation results in the formation of lithified horizons, 200–1000 μm thick. These layers consist of micritized grains that are welded together at point contacts. The micritization is caused by extensive microboring and carbonate precipitation within boreholes concurrent with endolithic activity. Grain welding occurs when boreholes cross from one grain to another at point contacts. Thus, microboring destroys original grain textures but, at the same time, plays a constructional role in stromatolite growth by forming lithified layers of welded grains. These lateral bands of fused carbonate grains help to stabilize and preserve the stromatolite deposits.  相似文献   

Origin of Cretaceous phosphorites from the onshore of Tamil Nadu,India     

V. Purnachandra Rao  Pratima M. Kessarkar  R. Nagendra  E. V. S. S. K. Babu 《Journal of Earth System Science》2007,116(6):525-536

Cretaceous phosphorites from the onshore of Tamil Nadu have been investigated for their origin and compared with those in the offshore. Cretaceous phosphorites occur as light brown to yellowish brown or white nodules in Karai Shale of the Uttatur Group in the onshore Cauvery basin. Nodules exhibit phosphatic nucleus encrusted by a chalky shell of carbonate. The nucleus of the nodules consists of light and dark coloured laminae, phosphate peloids/coated grains and detrital particles interspersed between the laminae. Scanning electron microscope (SEM) studies reveal trapping and binding activity of microbial filaments. A mat structure with linearly arranged microbial filaments and hollow, cell-based coccoid cyanobacterial mat are present. Nodules contain abundant carbonate fluorapatite, followed by minor calcite, quartz and feldspar. The P₂O₅ content of the phosphorites ranges from 18 to 26%. The CaO/P₂O₅, Sr and F contents are higher than that of pure carbonate fluorapatite. Concentrations of Si, Al, K, Fe, and Ti are low. We suggest that the nuclei of the nodules represent phosphate clasts related to phosphate stromatolites formed at intertidal conditions. At high energy levels the microbial mats were disintegrated into phosphate clasts, coated with carbonate and then reworked into Karai Shale. On the other hand, Quaternary phosphorites occur as irregular to rounded, grey coloured phosphate clasts at water depths between 180 and 320m on the continental shelf of Tamil Nadu. They exhibit grain-supported texture. Despite Quaternary in age, they also resemble phosphate stromatolites of intertidal origin and reworked as phosphate clasts onto the shelf margin depressions. Benthic microbial mats probably supplied high phosphorus to the sediments. Availability of excess phosphorus seems to be a pre-requisite for the formation of phosphate stromatolites.  相似文献   

Hydromagnesite replacement of biomineralized aragonite in a new location of Holocene stromatolites, Lake Walyungup, Western Australia   总被引：1，自引：0，他引：1  

L. COSHELL  M. R. ROSEN  & K. J. MCNAMARA 《Sedimentology》1998,45(6):1005-1018

Holocene stromatolites are described from Lake Walyungup, a coastal hyposaline lake in south-western Australia. At summer low water, this groundwater-fed depression comprises two permanent shallow water bodies and an ephemeral southern pool, set within an areally extensive littoral zone of variably cemented carbonate crust. Up to 5 m of organic-rich carbonate mud has been deposited within each of these basins in less than 7000 years. Stromatolites rim the water bodies with individual columns up to 2 m tall. Stromatolite-capped tepee structures in subparallel alignment are widespread in the littoral crust, suggesting a linkage between stromatolite growth and zones of groundwater discharge. Lake Walyungup stromatolites, regardless of external morphology and setting, are coarsely laminated and have aragonitic mesoclot microfabrics. These microfabrics are similar to those from lithified portions of active thrombolitic microbialites from nearby Lake Clifton. Hydromagnesite is a minor to subdominant phase (up to 47 wt%) of the carbonate mineral assemblage in Lake Walyungup. It occurs mainly in the littoral zone as a diagenetic replacement of precursor aragonite, particularly within the mesoclot fabric of stromatolites, but also in sediments (strandline and dune sand, crusts) derived mainly from erosion of stromatolites. In contrast with nonreplaced and impermeable inorganic aragonitic cements, stromatolite mesoclots are microper- meable. Micropermeability is inferred to facilitate hydromagnesite diagenesis. Dolomite is also present in minor amounts as a pore fill in stromatolites, and as a subdominant to dominant (up to 100 wt%) phase in thin, mudcracked micrite layers within the crust package. The layered dolomite may be precipitated directly from the lake water. Major element abundance of the lake water is: Na⁺ > Mg²⁺ » K⁺ > Ca²⁺ for cations, and Cl^? » SO₄^2? ≈ HCO₃^? > CO₃^2? for anions. Compared to other nearby coastal lakes, Lake Walyungup has a high pH (> 9·0), and an extremely high molar Mg/Ca ratio of > 90. Groundwater in the area has a Mg/Ca ratio generally less than 1. The unusual Mg/Ca ratio in Lake Walyungup is partially a result of in-lake processes with additional minor contribution of Mg²⁺ sourced from basal marine sand because no Mg-rich bedrock source has been found in the region.  相似文献   

Discovery of the Jiawengmen Stromatolite Assemblage in the Southern Belt of Eastern Kunlun, NW China and Its Significance     

I. I. POSPELOV  M. A. SEMIKHATOV 《《地质学报》英文版》2005,79(4):471-480

1 Introduction The stromatolites of the Jiawengmen area in the southern belt of the Eastern Kunlun orogen were initially interpreted as vortex structures by the Regional Geological Survey Team, Qinghai Bureau of Geology and Mineral Resources in 1973; these samples were then identified as algal fossils of Sinian age by the Nanjing Institute of Geology and Paleontology (Qinghai Bureau of Geology and Mineral Resources, 1973). In 1994, Chen and Luo (1998) discovered some stromatolites, i…  相似文献   

Pleistocene, multiple-growth, lacustrine oncoids from the Poacher's Point Formation, Etosha Pan, northern Namibia   总被引：2，自引：0，他引：2  

A. M. SMITH  T. R. MASON 《Sedimentology》1991,38(4):591-599

The Poacher's Point Formation is located within the Etosha Pan, northern Namibia. It contains Pleistocene stromatolites, ooids and silica nodules. The stromatolites were constructed by cyanobacteria in very lowenergy lacustrine conditions. The internal structure of the oncoids is complex and subdivided into shells by unconformities. Each unconformity-bounded shell probably represents stromatolite growth during a distinct lacustrine event. Shallower conditions are represented by colloform growth and deeper water by smooth oncoid mat morphology. The unconformities represent hiatuses of unknown duration. At least six stromatolite growth shells are recognized. Silica concretions which may have developed during shallowing lake stages are also present. The lack of clastic material in the carbonate lithologies suggests that the lake waters may have accumulated from collecting rainwater or have been spring fed. The lowest bed of the succession is a saline clay which represents a seasonally flooded salt pan deposited in an arid to semi-arid climate similar to that of today. The overlying carbonates represent sedimentation during a series of transient lacustrine events, representing intermittent wetter periods. Finally, due to progressive aridity, the lacustrine succession was terminated by calcrete development.  相似文献   

Platforms: Shorikha formation of the Turukhansk uplift, Siberia     

P. Yu. Petrov  M. A. Semikhatov 《Stratigraphy and Geological Correlation》2009,17(5):461-475

the shorikha basin characterized by a thick (>800 m) sequence of carbonate sediments in the upper part of the riphean section in the turukhansk uplift of siberia illustrates the dynamics of taxonomic diversity and abundance of stromatolite buildups related to changes in the structure of a carbonate platform (replacement of the relatively deep ramp by a spacious shallow shelf) and fluctuations of the relative sea level. it is shown that abundance and taxonomic diversity of stromatolite buildups were maximal in deep zones of the outer ramp being reduced to almost zero values in shallow settings of the carbonate shelf. the appearance of columnar stromatolites coincided in this basin only with brief sea-level rises (second-order transgressions). stromatolite-forming microbial communities represented an active producer of carbonate sediments for the entire basin, while the distribution of stromatolites through ramps was determined by geochemical barriers. disappearance of stromatolites from shallow carbonate shelves was controlled by rapid reduction in carbonate-production rates.  相似文献   

Physicochemical and biological influences on sedimentary‐fabric formation in a salinity and oxygen‐restricted semi‐enclosed sea: Gotland Deep,Baltic Sea     

THOMAS LEIPE  MATTHIAS MOROS  AARNO T. KOTILAINEN 《Sedimentology》2011,58(2):352-375

Two ca 8000 year long sediment cores from the Gotland Deep, the central sub‐basin of the Baltic Sea, were studied by means of digital images, X‐radiographs and scanning electron microscopy–energy‐dispersive X‐ray mineralogical analysis to gain understanding of the physicochemical and biological influences on sedimentary‐fabric formation in modern and ancient seas with a high flux of organic carbon, and associated oxygen stress and depauperate ichnofauna. Four lithofacies were recognized: (i) sharply laminated mud; (ii) biodeformed mud; (iii) burrow‐mottled mud; and (iv) sedimentation‐event bed. The sharply laminated and burrow‐mottled facies dominate the cores as alternating long intervals, whereas the biodeformed and sedimentation‐event facies occur as thin interbeds within the sharply laminated intervals. The sharply laminated mud comprises alternating diatom‐rich and lithic laminae, with occasional Mn‐carbonate laminae. Lamination discontinuity horizons within the laminites, where the regular lamination is overlain sharply by gently inclined lamination, challenge the traditional view of mud accumulation by settling from suspension, but indicate localized accumulation by particle‐trapping microbial mats and, potentially, by the rapid lateral accretion of mud from bedload transport. The biodeformed interbeds record brief (few years to few decades) oxic–dysoxic conditions that punctuated the anoxic background conditions and permitted sediment‐surface grazing and feeding by a very immature benthic community restricted to the surface mixed tier. The likely biodeformers were meiofauna and nectobenthic pioneers passively imported with currents. The sedimentation‐event interbeds are distal mud turbidites deposited from turbidity currents probably triggered by severe storms on the adjacent coastal areas. The turbidite preservation was favoured by the anoxic background conditions. The long burrow‐mottled intervals are characterized by intensely bioturbated fabrics with discrete Planolites, rare Arenicolites/Polykladichnus and very rare Lockeia trace fossils, as well as bivalve biodeformational structures which represent shallowly penetrating endobenthic feeding and grazing strategies and permanent dwellings. These burrowed intervals represent longer periods (several years to few centuries) of oxic–dysoxic conditions that permitted maturation in the benthos by means of larval settling of opportunistic worm‐like macrofauna and bivalves, resulting in the development of a transition tier. These observations imply more dynamic and oxic depositional conditions in Gotland Deep than previously thought. Comparison to previous zoobenthic studies in the area allowed discussion of the benthic dynamics, and the identification of probable biodeforming and trace‐producing species. Implications for current biofacies and trace‐fossil models are discussed.  相似文献   

Methane‐related microbial gypsum calcitization in stromatolites of a marine evaporative setting (Münder Formation,Upper Jurassic,Hils Syncline,north Germany)     

GERNOT ARP  CHRISTIAN OSTERTAG‐HENNING  SELÇÜK YÜCEKENT  JOACHIM REITNER  VOLKER THIEL 《Sedimentology》2008,55(5):1227-1251

Fossil stromatolites may reveal information about their hydrochemical palaeoenvironment, provided that assignment to a specific microbial community and a corresponding biogeochemical mechanism of formation can be made. Tithonian stromatolites of the Münder Formation at Thüste, north Germany, have traditionally been considered as formed by intertidal cyanobacterial communities. However, thin sections of the stromatolites show elongated angular traces of former gypsum crystals in a dense arrangement, but no algal or cyanobacterial filament traces. Moreover, high Fe²⁺ and Mn²⁺ contents, oxygen‐isotope and sulphur‐isotope ratios of carbonate‐bound sulphates, and sulphurized hydrocarbon biomarkers of the stromatolitic carbonate indicate that CaCO₃ precipitation occurred near the oxic–anoxic interface as a result of intensive bacterial sulphur cycling rather than photosynthetic activity. Furthermore, anaerobic oxidation of methane by Archaea may have driven CaCO₃ precipitation in deeper parts of the biofilm community, as reflected by high concentrations of squalane with a strongly negative δ¹³C in conjunction with evaporite pseudomorphs showing extremely low δ¹³C_Carb ratios. Consequently, the Thüste stromatolites are now interpreted as having initially formed by gypsum impregnation of biofilms. Subsequently, early Mg‐calcitic calcitization within the biofilms occurred because of combined bacterial iron, manganese and sulphate reduction, with an increasing contribution of anaerobic oxidation of methane with depth. This model plausibly explains the prominent preservation of signals derived from oxygen‐independent metabolic pathways, whereas virtually no geochemical record exists for an aerobic community that may, nevertheless, have prevailed at the stromatolite surface. Photic‐zone stromatolites with a prominent signal of anaerobic oxidation of methane may be common in, and indicative of, oxygen‐depleted sulphate‐bearing environments with high rates of methane production, conditions that possibly were fulfilled at the Archaean to Proterozoic transition.  相似文献   

叠层石中的海绿石化和黄铁矿化:以天津蓟县中元古界铁岭组为例^*          下载免费PDF全文

梅朝佳 《古地理学报》2018,20(3):453-464

作为微生物碳酸盐岩的主要类型之一,叠层石是微生物席的主要建造物已成为共识。天津蓟县中元古界铁岭组二段叠层石生物礁灰岩发育,其中的细粒叠层石被前人解释为微生物席捕获碳酸盐泥的微生物建造物,使得其既不同于现代叠层石,也不同于显生宙尤其是寒武纪的叠层石。更为特殊的是,这些叠层石中的海绿石和黄铁矿代表着2种特殊的矿化作用,其中研究区普遍产出的黄铁矿,作为硫酸盐还原细菌的产物,是了解古代微生物的窗口;而发育在高能浅海的海绿石,产出环境不同于现代海绿石,不能作为慢速沉积环境的指示矿物,亦不具有沉积间断的地质意义。2种矿化作用表明铁岭组叠层石是由沉淀作用而非捕获碳酸盐泥形成,这为了解中元古代叠层石的形成和特征提供了一些有益的线索。  相似文献   

Stromatolitic associations and their palaeo-environmental significance: A re-appraisal of a lower proterozoic locality from the northern cape province,South Africa     

J.F. Truswell  K.A. Eriksson 《Sedimentary Geology》1973,10(1):1-23

A basal section of the Lower Proterozoic Transvaal Dolomite from the northern Cape has been re-examined. Numerous associations of stromatolites and other structures have been distinguished in it. Forms of domical stromatolite dominate the structures, but columns, and associations built around spheroidal forms, are also represented. This material accumulated in a telescoped range of environments through the intertidal to a high-energy agitated zone and out into the subtidal.Columnar forms and flat domes from the intertidal zone appear to be remarkably similar to features described from Hamelin Pool at Shark Bay, Western Australia. The subtidal elongate domes and mounds increase in size with depth to reach dimensions of 40 by 10 m, heights of 13 m and relief of 2.5 m. Minor structures on these subtidal forms reflect decreasing energy outwards; included within them are columnar forms in the shallow subtidal zone.It is suggested that deposition within an epeiric sea was away from a headland on a relatively steeply shelving floor affected by currents at right angles to the shore. There are indications that an arid to semi-arid climate existed at that time.  相似文献   

Megaripples, ridges and runnels on intertidal flats of the Wash, England     

I. N. MCCAVE  A. C. GEISER 《Sedimentology》1979,26(3):353-369

Observations have been made of parts of the channels and the outer portions of the sand banks in the Wash using 1 : 10 000 air photographs and brief ground surveys at low spring tides. Two principal structures are found. In the channels megaripples 0.3–0.6 m high and of 10–15 m modal spacing are dominantly flood orientated. They do not reverse during ebb tide. On the outer parts of banks low ridges of 0.5 m height and 50-100 m spacing are interpreted as wave-formed ridge and runnel structure. They contain wave-rippled mud patches in the runnels and although they have shorewards asymmetry do not appear to migrate to any great extent. It is suggested that only in sheltered areas do the Wash intertidal flats show a lower mudflat subfacies; the norm is outer bank sand flats with ridge and runnel structure eventually overlain by Arenicola sand-flats during progradation.  相似文献   

The Origin and Features of Late Sinian Phosphatic Stromatolites in Fuquan, Guizhou Province     

Xia Wenjie  Yin Jicheng  Li Xiuhua 《《地质学报》英文版》1987,61(1):95-104

The phosphatic stromatolite discussed in this paper is a columnar type, comprised chiefly of collophane and subordinately of microcrystalline apatite. The column is composed of alternations of dark, cryptocrystalline laminae formed by the biological processes of algae and bacteria, and light, microcrystalline laminae formed by chemical precipitation. The intercolumnar filler, showing a concave anti-stromatolitic structure, is composed of alternations of loose laminae formed by mechanical deposition, and dense, crypto-, microerystalline laminae formed by chemical precipitation and algal bacterial organic process.Under the SEM, the column differs clearly from the intercolumnar filler in ultramicro-fabric. The three basic types of ultramicro-laminae that can be distinguished in the column are: prismatic apatite laminae of chemical origin, elastic apatite laminae of mechanical origin and branched-tubular apatite laminae of algal-bacterial origin, of which the first and second categories constitute light laminae and the third, dark laminae. The dark and light laminae were formed during the alternation of flourishing and dormant periods of algae and bacteria.Under the SEM. the clastic texture is obvious in the loose laminae of the intercolumnar filler. Andfour types of ultramicro-apatite assemblages can be distinguished in the dense laminae, i. e., the framboidal and the tubular apatite of algal-bacterial origin, the framboidal-prismatic and the framboidaltubular-prismatic apatite of chemical organic origin. The alternation of the loose and the dense laminae depends upon the changes of the energy in the water.In the stromatolites, no replacement phenomena have been found and there exists abundant prismatic apatite kept in the initial form of upward-crystallization, and especially, in the forms of algae and bacteria(framboidal, tubular and branched). All these undoubtedly indicate that the stromatolites were originally formed by algae and bacteria.The ultramicro-fabric features indicate that the collophane is not a simple mineral, but a disorderly arranged aggregateof ultramicro-granular apatite.  相似文献