Showing total 846 results

51. 内蒙古地区锚矿床特征及成矿规律.

Author

包德军, 李瑞瑞, 谢园宏, 陈方溥, and 翟龙主

Subjects

METALLOGENY, CLASTIC rocks, ANTIMONY, FACIES, PALEOZOIC Era, OROGENY

Abstract

Copyright of Geology & Resources is the property of Geology & Resources Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

52. The Paleontological Heritage of Northern Tocantins State and Southwest Maranhão State, Brazil: a Preliminary Synthesis.

Author

da Frota Lopes, Raylon, Valéria de Lima, Claudia, and Roberto A. Candeiro, Carlos

Subjects

TRACE fossils, MESOZOIC Era, PALEOZOIC Era, SAURISCHIA, FOSSILS, FERNS

Abstract

Copyright of Terr@ Plural is the property of Terr@ Plural and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

53. Structural Reconstruction of the Middle Uralian Part of the Uralian Orogen at the Initial Stage of Its Formation: Evidence from Clay Geochemistry.

Author

Maslov, A. V., Mizens, G. A., Badida, L. V., and Krupenin, M. T.

Subjects

GEOCHEMISTRY, SETTLING basins, CLAY, CLASTIC rocks, PALEOZOIC Era, CARBONIFEROUS Period

Abstract

The Uralian foredeep is a classical marginal structure located on the foreland of the Late Paleozoic Uralian Orogen. It is subdivided into several depressions/sedimentation basins. This paper presents the analysis of the REE and Th distribution in the Middle Carboniferous and Lower Permian clay rocks of the Yuryuzan–Sylva Depression. This structure, like other depressions of the foredeep, is made up of diverse associations of the first sedimentation cycle clastic and clay rocks, which were formed during the orogen erosion. In the (La/Yb)N–Eu/Eu* and (La/Yb)N–Th diagrams, individual and average data points are confined to the field of bottom sediments of mouths of modern rivers draining volcanic provinces. This likely suggests a homogeneous composition of orogen provenance in the Carboniferous and Early Permian. [ABSTRACT FROM AUTHOR]

Published

2021

54. First report of myalinid bivalves in the Lower Carboniferous of the Hakkari Basin, SE Turkey: paleoecologic and paleogeographic implications.

Author

HOŞGÖR, İzzet

Subjects

GONDWANA (Continent), PALEOZOIC Era, PALEOBIOGEOGRAPHY, BIVALVES, INVERTEBRATES, VERTEBRATES, BASEMENTS

Abstract

Knowledge of the Late Paleozoic sedimentary history of the northern Gondwana shelf is advanced by new data from the Şort Dere section (Hakkari Basin). Early Carboniferous myalinid bivalves from the Middle East are reported here for the first time. The pre-Permian basement of the Hakkari Basin consists of a Lower Carboniferous sedimentary sequence including the Köprülü and Belek formations. The Köprülü Formation has yielded rich assemblages of vertebrates and invertebrates. Hitherto myalinid bivalves were unknown from this formation; this paper reports the discovery of small and poorly calcified myaliniform shells from two thin beds in the middle part of the Köprülü Formation of the Şort Dere section in the Zap Valley. The morphological characteristics of the specimens, especially the umbonal region with the numerous rounded wrinkles, suggest that it probably belongs to an undescribed species of Selenimyalina Newell, 1942. Based on this record, the state of the art of warm-water myalinid taxa in the Paleotethyan Realm is shortly discussed with a focus on the pteriomorph bivalve faunas within a global scenario for both paleobiogeography and patterns of Gondwana-Laurussia faunal exchange. The new occurrence is one of the most important pteriomorph bivalve records ever made in Southeast Turkey, helping to assist paleogeographic reconstructions of the Paleotethyan paleocontinents. [ABSTRACT FROM AUTHOR]

Published

2021

55. 鄂尔多斯盆地西南部寒武系风化壳天然气成藏特征.

Author

刘显阳, 魏柳斌, 刘宝宪, 张 雷, 郭 玮, 张建伍, and 郑 杰

Subjects

GAS migration, PETROLEUM prospecting, NATURAL gas pipelines, PETROLEUM industry, PALEOZOIC Era, NATURAL gas prospecting, GAS reservoirs

Abstract

Copyright of Natural Gas Industry is the property of Natural Gas Industry Journal Agency and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

56. THE ANCESTRAL ROCKY MOUNTAIN OROGENY AND EVOLUTION OF THE PERMIAN BASIN.

Author

RUDOLPHX, KURT

Subjects

PALEOZOIC Era, PENNSYLVANIA state history, DEFORMATION of surfaces, PALEOBATHYMETRY

Abstract

The Permian Basin is a mosaic of basins and platforms that formed in the late Paleozoic associated with compressional deformation of the Ancestral Rocky Mountains or "ARM" Orogeny. This event partitions the predecessor broad/shallow early Paleozoic Tobosa Basin. The timing of late Paleozoic basin formation is evaluated using calibrated basin models to analyze total subsidence. Two subsidence phases are interpreted--an initial period of Late Pennsylvanian to early Permian (~305-285 Ma) rapid subsidence of the basins, contrasted with very slow subsidence or uplift of the platforms. The first phase of subsidence is coeval with the flexural foreland basin subsidence in the Val Verde Basin, which is related to the thin-skinned Marathon Orogeny. While this may indicate a kinematic linkage, structural styles are very different. The most important tectonic unconformity occurs near the end of this phase, in the early Permian (Wolfcampian). The lower Wolfcampian Unconformity erodes deeply on the Central Basin Platform, Diablo Platform, and Pedernal Uplift. The interval below the unconformity is commonly significantly deformed, while the interval above is only gently folded. The second phase of subsidence is characterized by rapid and relatively uniform subsidence of the entire area, both platforms and basins, from Leonardian to Ochoan (~285-250 Ma) time. The drivers of the second phase of subsidence are less clear. Also, the timing of the onset in the Permian Basin is younger than other portions of the ARM and Ouachita orogenic belts; this may imply later collisional tectonics in the southwestern part of the system. [ABSTRACT FROM AUTHOR]

Published

2023

57. Petroleum geochemical aspects of the Mandawa Basin, coastal Tanzania: the origin of migrated oil occurring today as partly biodegraded bitumen.

Author

Abay, Tesfamariam Berhane, Fossum, Katrine, Karlsen, Dag Arild, Dypvik, Henning, Narvhus, Lars Jonas Jørgensen, Haid, Muna Hassan Mohamoud, and Hudson, Wellington

Subjects

BITUMEN, GAS fields, ORGANIC compounds, NATURAL gas in submerged lands, MESOZOIC Era, PALEOZOIC Era, PETROLEUM products, PETROLEUM

Abstract

The shallow-marine Upper Jurassic-Lower Cretaceous sedimentary successions of the Mandawa Basin, coastal Tanzania, are located about 80 km away from the offshore gas discoveries of Block 2, Tanzania. In this paper we present petroleum geochemical data, including bitumen extracted from outcrop samples which are relevant to the understanding of the onshore 'Petroleum System' and possibly also to the offshore basin. Despite some biodegradation and weathering, common to all outcrop samples, most bitumen samples analysed contain mature migrated oil. The maturity span of geomarkers (C13-C15 range) covers the entire oil and condensate/wet gas window (Rc = 0.7-2% Rc, where Rc is the calculated vitrinite reflectance), with the biomarkers generally indicating the oil window (Rc = 0.7-1.3% Rc). This suggests that the bitumen extracts represent several phases of migrated oil and condensate, which shows that the samples are part of an active or recently active migration regime or 'Petroleum System'. The source-rock facies inferred for the bitumen is Type II/III kerogen of siliciclastic to carbonate facies. This is oil-prone kerogen, typical for a marine depositional system with an influx of proximal-derived terrigenous material blended in with in situ marine algal organic matter (OM). Application of age-specific biomarkers such as the C28/C29- steranes, extended tricyclic terpane ratio (ETR), nordiacholestanes and the aromatic steroids suggest that more than one source rock have contributed to the bitumen. Possible ages are limited to the Mesozoic (i.e. excluding the Late Paleozoic), with the most likely source rock belonging to the Early Jurassic. More geochemical and geological studies should be undertaken to further develop the general understanding of the petroleum system of the Mandawa Basin and its implications to the 'Petroleum Systems' both offshore and onshore. This paper also presents a reinterpretation of published gas composition and isotope data on the Pande, Temane and Inhassoro gas fields (Mozambique) with implications for possible oil discoveries in the gasdominated region. [ABSTRACT FROM AUTHOR]

Published

2021

58. 阿曼盆地北部古近系碳酸盐岩油藏 成藏特征及主控因素.

Author

陈 杰, 王文训, 牛林林, 童明胜, and 黎 江

Subjects

CARBONATE reservoirs, PETROLEUM, PALEOZOIC Era, CENOZOIC Era, MESOZOIC Era, MARL

Abstract

Copyright of Petroleum Geology & Recovery Efficiency is the property of Petroleum Geology & Recovery Efficiency and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

59. 深层页岩气储层孔隙特征研究进展: ——以四川盆地下古生界海相页岩层系为例.

Author

刘树根, 焦 堃, 张金川, 叶玥豪, 谢国梁, 邓 宾, 冉 波, 李智武, 吴 娟, 李金玺, 刘文平, and 罗 超

Subjects

SHALE gas reservoirs, OIL shales, SHALE, SHALE gas, PALEOZOIC Era, SURFACE area, PORE size distribution

Abstract

Copyright of Natural Gas Industry is the property of Natural Gas Industry Journal Agency and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

60. 黔西南赖子山背斜地区金矿构造控矿规律研究.

Author

赵明峰, 罗建均, 陆建宝, 周克林, and 王 伟

Subjects

*PALEOZOIC Era, *GOLD, *GOLD ores, *ORES, *PROSPECTING, *FLUIDS, *FOLDS (Geology)

Abstract

The Laizishan anticline area is an important part of the Ceheng — Wangmo high gold concentration area in Guizhou province. In the area, a super large gold deposit and many small gold deposits and gold spots are dis-covered. At present, the area still has a good prospecting prospect. This paper systematically summarizes the geological features and tectonic ore control law and points out that Laizishan anticline area has obvious three-stage tectonic ore control characteristics, and that the migration and enrichment of deep-sourced ore-forming fluids are closely related to the three-stage tectonics. The tectonic system composed of hidden syngenetic faults of late Paleozoic + regional Laizishan anticline, interlaminar slip structure + mineral-grade faults and folds has an obvious control effect on gold deposit for-mation. The study established the ore-controlling model of the Laizishan anticline area. [ABSTRACT FROM AUTHOR]

Published

2023

61. Paleopalynology in Colombia: A review.

Author

Plata-Torres, Angelo, Pardo-Trujillo, Andrés, and Gómez-González, Clemencia

Subjects

MARINE sediments, SEDIMENTARY rocks, PALEOZOIC Era, MESOZOIC Era, PALYNOLOGY, NEOGENE Period

Abstract

Copyright of Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales is the property of Academia Colombiana de Ciencias Exactas, Fisicas y Naturales and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

62. 大牛地下古生界气藏天然气原生含硫成因研究.

Author

罗曦

Subjects

GAS reservoirs, ISOTOPIC analysis, PALEOZOIC Era, MANUFACTURING processes, ORGANIC compounds, SULFUR, THERMOCHEMISTRY

Abstract

Copyright of Chemical Engineering of Oil & Gas / Shi You Yu Tian Ran Qi Hua Gong is the property of PetroChina Southwest Oil & Gas Field Company and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

63. A new trematopid from the lower Permian of Oklahoma and new insights into the genus Acheloma.

Author

Osterling Arias, Adrian F., Mooney, Ethan D., Bevitt, Joseph J., and Reisz, Robert R.

Subjects

TOP predators, ANTHROPOMETRY, ONTOGENY, PALEOZOIC Era, LIMESTONE

Abstract

Modern-day terrestrial amphibians pale in comparison to their monstrous ancient relatives, the Late Carboniferous and Early Permian trematopid temnospondyls. With a skeleton that clearly indicated a terrestrial mode of life and armed with an impressive set of large, recurved marginal dentition and palatal fangs for holding their prey—this group of terrestrial temnospondyls roamed North America and Central Europe as a top predator. Lack of substantial informative fossil material has previously limited our understanding of trematopid diversity and ontogeny. Fortunately, this has improved in the last few decades with the help of exceptional localities like the Early Permian locality Richards Spur. While multiple species of dissorophid temnospondyl have been described from Richards Spur, only one trematopid species has been confidently recognized -Acheloma dunni. Here, we report on the presence of a new large, relatively mature trematopid skull from this famous locality, found encased within a limestone rich block composed mostly of skeletal remains from several other taxa. With the help of neutron computed tomography (nCT), a non-invasive method of analyzing internal and external morphologies, this specimen has revealed several features consistent with the genus, Acheloma, but distinct from Acheloma cumminsi and Acehloma dunni. The identification of these new features, in addition to the characters it shares with other Acheloma species, not only constitute it as a new species of this genus, but also challenges the notion of having synonymized Acheloma dunni with Acheloma cumminsi. In this study, we also unveil new anatomical characters that are potentially independent of ontogeny and could therefore help clarify some of the phylogenetic relationships of this fascinating group of Paleozoic terrestrial predators. [ABSTRACT FROM AUTHOR]

Published

2024

64. Structural and tectonic aspects of the Kuh-e Surmeh Pb-Zn deposit, a rare case of metallic mineralization in the Zagros Fold-Thrust Belt.

Author

Ehteshami-Moinabadi, Mohsen, Masoodi, Mehdi, and Fotoohi, Hamed

Subjects

PLATE tectonics, LEAD-zinc ores, THRUST belts (Geology), PALEOZOIC Era, DISPLACEMENT (Mechanics)

Abstract

The Surmeh deposit is a rare case of metallic mineralization in the Zagros FTBelt. The regional structures with geological conditions from Paleozoic sequences to Late Paleozoic-Early Mesozoic extensional faulting, Cenozoic continental convergence and collision, thrust tectonic, reactivation of inherited and basement faults, basinal-atmospheric fluids interactions and salt diapirism have crucial role in MVT-type Surmeh deposit formation. The Surmeh anticline is double plunging and its southern limb is cut by thrust faults, which formed at the southern termination of the Mengharak segment of the Karehbas fault. New field data highlights three fault trends. The first trend is thrust faults parallel to the Zagros trend cutting the southern limb of Surmeh anticline and pushed the older units over the younger units from NE to SW. The second is normal faults mainly in the Permian and Triassic rocks and their strike varies from NW-SE to N_S. The third trend is ~N-S surface manifestations of the Karehbas basement strike-slip fault. Some of them can be easily mapped in satellite images. Small strike-slip faults have caused displacement and destruction of mineralized zones. Normal faults were important structures in ore-formation process. These findings can be utilized as an exploratory sign for similar ore deposits in the Zagros Range, where the Paleozoic rocks are intensely folded, faulted and uplifted within the cores of anticlines near the intersection of salt domes and basement faults. This case is an interesting metallic mineralization in a foreland area, where is affected by basement and thrust faults, folding and salt tectonics. [ABSTRACT FROM AUTHOR]

Published

2024

65. Sedimentary provenance supports a mid-paleozoic tectonic connection between the Junggar and Altai terranes in central Asia.

Author

Li, Di, Han, Yigui, Zhao, Guochun, Zhou, Mei-Fu, He, Dengfa, Hou, Shuoqin, Zhen, Yu, Fan, Dan, and Yang, Hao

Subjects

SLABS (Structural geology), PALEOZOIC Era, PRECAMBRIAN, DETRITUS, CONTINENTS

Abstract

The provenance of Precambrian detritus in the Junggar and Altai terranes provides crucial constraints on the peri-Siberian accretionary tectonic evolution in the middle Paleozoic. The Precambrian detrital zircons have no coeval magmatic equivalents in the Junggar terrane but show U–Pb age spectra and εHf(t) values comparable to those in the Altai terrane. The correlations suggest that the old detrital materials in the Junggar and Altai terranes were most likely derived from the Siberia craton and adjacent Tuva-Mongolian microcontinent. Paleozoic zircons in the Junggar terrane display a εHf(t) pattern from large spread to dominantly positive values at ca. 420–410 Ma. Such an abrupt change points to an accretionary tectonic transition from an advancing to retreating mode during mid-Paleozoic time, synchronous with similar tectonic switch occurring in the Altai terrane. Taking into account the temporal and spatial relations in sedimentation, tectonism and arc magmatism, we propose that the Junggar terrane had once collided onto the peri-Siberian Altai terrane to receive abundant old detritus from the Siberian continent in the Silurian–early Devonian. They were subsequently separated at ca. 420–410 Ma, possibly due to the slab rollback of the subducting Paleo-Asian Ocean (PAO) plate. These results constrain an Early Paleozoic tectono-paleogeographic boundary of the CAOB along the North Tianshan–Solonker suture zone, and also imply a long-lived PAO subduction was responsible for the Neoproterozoic to Paleozoic accretionary orogenesis at the margins of southern Siberia, eastern Kazakhstan, and northern Gondwana. [ABSTRACT FROM AUTHOR]

Published

2024

66. The Fate of "Immobile" Ti in Hyaloclastites: An Evidence from Silica–Iron-Rich Sedimentary Rocks of the Urals Paleozoic Massive Sulfide Deposits.

Author

Ayupova, Nuriya R., Maslennikov, Valery V., Melekestseva, Irina Yu., Artemyev, Dmitry A., and Belogub, Elena V.

Subjects

SEDIMENTARY rocks, LASER ablation inductively coupled plasma mass spectrometry, TITANIUM dioxide, PALEOZOIC Era, PSEUDOMORPHS, SULFIDE minerals, APATITE

Abstract

The formation of Paleozoic silica–iron-rich sedimentary rocks in the Urals volcanic-hosted massive sulfide (VHMS) deposits is considered a result of seafloor alteration of hyaloclastites mixed with calcareous/organic or sulfide material. These rocks host various Ti mineral phases pointing to the transformation of precursor metacolloidal TiO2 phases to disordered anatase during seafloor alteration of hyaloclastites, which was later converted to globules and clusters and further to diagenetic rutile. The LA-ICP-MS analysis showed that the Ti content of hyaloclasts partly replaced by finely dispersed Si–Fe aggregates increases to 540–2950 ppm and decreases (<5 ppm) in full Si–Fe pseudomorphs after hyaloclasts. LA-ICP-MS element mapping reveals the enrichment in V, U, Cr, W, Nb, Pb, and Th of the anatase globules and the local accumulation of Zr, Y, and REE on their periphery. Corrosive biogenic textures in the outer zones of some hyaloclasts and biomorphic aggregates in rocks contain anatase particles in assemblage with apatite indicating the biophilic properties of Ti. This work fills the knowledge gaps about Ti mobilization during low-temperature seafloor alteration of hyaloclastites in VHMS deposits. [ABSTRACT FROM AUTHOR]

Published

2024

67. Investigating the Orogenic Evolution of the Wushan–Shangdan Ocean in the Qinling–Qilian Conjunction Zone: Insights from the Early Devonian Tailu Pluton.

Author

Lin, Hao, Li, Zuochen, Pei, Xianzhi, Li, Ruibao, Zhou, Hai, Wang, Meng, Zhao, Shaowei, Qin, Li, and Wang, Mao

Subjects

OCEAN zoning, IGNEOUS rocks, IGNEOUS intrusions, PALEOZOIC Era, OCEAN, FELSIC rocks, MAGMATISM

Abstract

The main ocean–continent transformation stage of the Qinling and Qilian conjunction zone happened in the Early Paleozoic with the occurrence of a lot of subduction–collision–related magmatic rocks. However, there is still considerable controversy over the duration of the subduction–collision orogeny process of the Proto-Tethys Ocean, here termed as the Wushan–Shangdan Ocean. We provide geochronological, geochemical, and Lu-Hf isotopic data for typical Early Devonian igneous rocks there, named Tailu pluton. The Tailu pluton at 410 Ma comprised K-rich, calc-alkaline, metaluminous A-type granite with low Y/Nb ratios (0.85 to 1.35) and A/CNK values (0.90 to 1.01); with high SiO2 contents (65.44 to 74.46 wt%), Mg# values (39.2 to 50.7), and zircon saturation temperatures (745 to 846 °C); and with negative εHf (t) values (−8.0 to −1.9); therefore, they resulted from the partial melting of the ancient felsic lower crust accompanied by the incorporation of mantle-derived material during the intraplate magmatism process. Research on Tailu pluton has provided more sufficient evidence for the evolution process of the Qinling–Qilian conjunction zone in the Early Paleozoic, associated with evolution of the Wushan–Shangdan Ocean, the northern part of the Proto-Tethys Ocean. [ABSTRACT FROM AUTHOR]

Published

2024

68. The Ordovician Gabbro–Tonalite–Trondhjemite Complex and Associated Volcanic Rocks in the Paleozoic Suture between the Urals and Kazakhstan.

Author

Ryazantsev, A. V.

Subjects

TONALITE, TRONDHJEMITE, VOLCANIC ash, tuff, etc., ORDOVICIAN Period, PALEOZOIC Era

Abstract

This paper reports new data on the Early Ordovician age established for granitoids of the gabbro—tonalite–trondhjemite complex in the Denisovka ophiolite zone (suture) on the boundary between the Paleozoic structures (Paleozoides) of the Urals and Kazakhstan. The ages of 482.6 ± 3.6 Ma and 486.2 ± 6.7 Ma were established by the U/Pb method (SHRIMP II) on the age data for zircon extracted from granitoids. The plutonic complex associates with the Early–Middle Ordovician effusive complex, composed of a series of rocks differentiated from basalts to rhyolites. The volcano-plutonic association was formed in the supra-subduction settings, as is evidenced by the composition of the rocks. [ABSTRACT FROM AUTHOR]

Published

2019

69. Microbially induced sedimentary structures in late Pennsylvanian glacial settings: A case study from the Gondwanan Paraná Basin.

Author

Noll, Samuel Henrique and Netto, Renata Guimarães

Subjects

*SEDIMENTARY structures, *PALEOZOIC Era, *GLACIAL Epoch, PENNSYLVANIAN stratigraphic geology

Abstract

Abstract This paper explores microbially induced sedimentary structures (MISS) preserved in Late Paleozoic Ice Age deposits to evaluate the potential microbe-substrate physical interactions in ancient glacial settings. MISS have been recorded worldwide in different modern and ancient settings, mostly in tidal flats. However, their record in ancient glacial settings is still underrepresented. The reported MISS are preserved in the siltstone-claystone glacigenic rhythmites in Trombudo Central region of the Rio do Sul Formation (Paraná Basin, Pennsylvanian, southern Brazil). The recorded structures in these deposits are composed of wrinkle structures, dome structures, mat fragments, mat microfabrics, sinoidal structures, laminated leveling structures, oriented grains and mat-layer bound small grains, kinneyia structure, discoidal microbial colony, elongated filaments, and drab-haloed filaments. They represent the development of endobenthic and epibenthic microbial mats, as well as microbial earths. Endobenthic mat structures predominate in the siltstone beds, suggesting less time for development of microbial mat during deglaciation events and meltwater input. Epibenthic mat structures preserved in the claystone layers indicate episodic quiescence periods that allowed the mat achieve maturity and that cyanobacteria and sulfate-reducing bacteria composed a significant part of the microbial community. The set of MISS observed in the studied rhythmites have been commonly reported in tidal settings, and the presence of microbial earths structures indicate periods of drainage of the water bodies, at least partially. Thus, the microbial communities played an important role in ancient glacial settings during climatic amelioration periods, opening the colonization window for macroorganisms in outwash plains and marginal marine settings. This paper provides a characterization of different sorts of preserved MISS, and evaluate the physical interactions between microbial mats and the substrate, in the ancient glacigenic deposits from the Itararé Group. Highlights • Preserved MISS in glacigenic rhythmites of Pennsylvanian Paraná Basin in southern Brazil. • Preserved records represent the development of endobenthic and epibenthic microbial mats, as well as microbial earths. • The microbial communities enhancing the colonization window for macroorganisms during climatic amelioration periods. [ABSTRACT FROM AUTHOR]

Published

2018

70. Physicochemical Parameters and Geochemical Features of Fluids of Paleozoic Gold Deposits.

Author

Prokofiev, V. Yu., Naumov, V. B., and Mironova, O. F.

Subjects

GOLD isotopes, PALEOZOIC Era, GEOCHEMISTRY, PARAMETER estimation, MINERALS

Abstract

Abstract: This paper continues the generalization of literature data on physicochemical parameters and chemical features of fluids of endogenous gold deposits. The average values and ranges of temperature, pressure, and salinity of fluids from Paleozoic gold deposits are estimated. Peculiarities of gas composition of ore forming fluids at these deposits are revealed. Parameters of mineral-forming fluids of Paleozoic gold deposits are compared with those of Archean and Proterozoic gold deposits. [ABSTRACT FROM AUTHOR]

Published

2018

71. NEW EVIDENCE CONCERNING TO THE NIGDE FAULT IN THE NEAR EAST AND SOUTH OF THE SETTLEMENT AREA OF THE NIGDE, CENTRAL ANATOLIA, TURKEY.

Author

Sonmez, Mustafa, Balli, Fatih, and Lermi, Abdurrahman

Subjects

GEOLOGIC faults, PALEOZOIC Era, CENOZOIC Era, METAMORPHIC rocks, SEDIMENTS

Abstract

The main purpose of this paper is to investigate of the Niğde Fault zone, which passes through the city of Niğde. The study area located in the south and eastern part of the Niğde Province, and crops out different types of geological units from Paleozoic to Cenozoic in that vicinity. These units are, from old to young, metamorphic rocks, which is known as Niğde Massif composed of Gümüşler, Kaleboynu, Aşıgediği formations, Üçkapılı granodiorite (Paleozoic to Mesozoic), Kızılkaya Ignimbrite (Upper Miocene to Pliocene), Karataş Volcanites (Middle Pleistocene), Quaternary fluvial sediments, talus and alluvium. The tectonics, basin development, volcanism and geomorphology of the Central Anatolia are largely under the control of three dominant faults. These are the NW-SE trending and strike slip Tuzgölü Fault, NNE to SSW trending and left lateral strike-slip Ecemiş Fault and NE to SW trending dip slip Niğde Fault. In order to obtain concrete geological information related to this fault, electric resistivity and self-potential (SP) measurements made 50 m interval on two profile, which was out the fault line vertically. SP and Electrical resistivity measurements made in 76 points along the first profile, 49 points along the second profile where located at SW and NE of the Niğde, separately. High Electrical resistivity and SP values were recorded at 10, 40, 45 points in the first profile and 11, 27 and 47 points in the second profile. These points are evaluated as an important finding of the existence of discontinuities of the Niğde Fault Zone, which is covered by young sediments. It is understood from the Electrical resistivity and SP data that the Niğde Fault Zone consisting of at least three segments (S1, S2, S3). The distance from the segment (S1), which is located in the South, to the NW margin of the Nigde Massif varies from 750 to 2500 m. These segments are parallel to each other extend in NE-SW direction. The NW edge of the massif is the fault scarp, which was retrograde towards to SE direction, in the Middle Miocene-Early Pliocene time. The presence of thick talus on the NW side of this fault zone supports this idea. [ABSTRACT FROM AUTHOR]

Published

2017

72. A multidisciplinary-based conceptual model of a fractured sedimentary bedrock aquitard: improved prediction of aquitard integrity.

Author

Runkel, Anthony C., Tipping, Robert G., Steenberg, Julia R., Retzler, Andrew J., Meyer, Jessica R., Parker, Beth L., Green, Jeff A., Barry, John D., and Jones, Perry M.

Subjects

SEDIMENTATION & deposition, AQUIFERS, PERMEABILITY, PALEOZOIC Era, BOREHOLES

Abstract

A hydrogeologic conceptual model that improves understanding of variability in aquitard integrity is presented for a fractured sedimentary bedrock unit in the Cambrian-Ordovician aquifer system of midcontinent North America. The model is derived from multiple studies on the siliciclastic St. Lawrence Formation and adjacent strata across a range of scales and geologic conditions. These studies employed multidisciplinary techniques including borehole flowmeter logging, high-resolution depth-discrete multilevel well monitoring, fracture stratigraphy, fluorescent dye tracing, and three-dimensional (3D) distribution of anthropogenic tracers regionally. The paper documents a bulk aquitard that is highly anisotropic because of poor connectivity of vertical fractures across matrix with low permeability, but with ubiquitous bed parallel partings. The partings provide high bulk horizontal hydraulic conductivity, analogous to aquifers in the system, while multiple preferential termination horizons of vertical fractures serve as discrete low vertical hydraulic conductivity intervals inhibiting vertical flow. The aquitard has substantial variability in its ability to protect underlying groundwater from contamination. Across widespread areas where the aquitard is deeply buried by younger bedrock, preferential termination horizons provide for high aquitard integrity (i.e. protection). Protection is diminished close to incised valleys where stress release and weathering has enhanced secondary pore development, including better connection of fractures across these horizons. These conditions, along with higher hydraulic head gradients in the same areas and more complex 3D flow where the aquitard is variably incised, allow for more substantial transport to deeper aquifers. The conceptual model likely applies to other fractured sedimentary bedrock aquitards within and outside of this region. [ABSTRACT FROM AUTHOR]

Published

2018

73. Contrasting sources of Late Paleozoic rhyolite magma in the Polish Lowlands: evidence from U-Pb ages and Hf and O isotope composition in zircon.

Author

Słodczyk, Elżbieta, Pietranik, Anna, Glynn, Sarah, Wiedenbeck, Michael, Breitkreuz, Christoph, and Dhuime, Bruno

Subjects

PALEOZOIC Era, RHYOLITE, URANIUM-lead dating, MERCURY isotopes, ZIRCON

Abstract

The Polish Lowlands, located southwest of the Teisseyre-Tornquist Zone, within Trans-European Suture Zone, were affected by bimodal, but dominantly rhyolitic, magmatism during the Late Paleozoic. Thanks to the inherited zircon they contain, these rhyolitic rocks provide a direct source of information about the pre-Permian rocks underlying the Polish Lowland. This paper presents zircon U-Pb geochronology and Hf and O isotopic results from five drill core samples representing four rhyolites and one granite. Based on the ratio of inherited vs. autocrystic zircon, the rhyolites can be divided into two groups: northern rhyolites, where autocrystic zircon is more abundant and southern rhyolites, where inherited zircon dominates. We suggest that the magma sources and the processes responsible for generating high silica magmas differ between the northern and southern rhyolites. Isotopically distinct sources were available during formation of northern rhyolites, as the Hf and O isotopes in magmatic zircon differ between the two analysed localities of northern rhyolites. A mixing between magmas formed from Baltica-derived mudstone-siltstone sediments and Avalonian basement or mantle can explain the diversity between the zircon compositions from the northern localities Daszewo and Wysoka Kamieńska. Conversely, the southern rhyolites from our two localities contain zircon with similar compositions, and these units can be further correlated with results from the North East German Basin, suggesting uniform source rocks over this larger region. Based on the ages of inherited zircon and the isotopic composition of magmatic ones, we suggest that the dominant source of the southern rhyolites is Variscan foreland sediments mixed with Baltica/Avalonia-derived sediments. [ABSTRACT FROM AUTHOR]

Published

2018

74. Fifty-year history of Early/Lower Vertebrates symposia - An overview.

Author

SCHULTZE, HANS-PETER

Subjects

CONFERENCES & conventions, VERTEBRATES, PALEOZOIC Era, MEETINGS, STRATIGRAPHIC geology

Abstract

Fourteen symposia on early/lower vertebrates have taken place over the last 50 years, usually at about four year intervals. An average 60 participants have taken part at these symposia, with over one hundred occasionally. The results of the symposia have been published in proceedings. The symposia started honoring E. A:son Stensiö and E. Jarvik. Honors were taken up at the 11th symposium in Uppsala again. Since the 13th symposium a Stensiö award is also given to young researchers in the field. [ABSTRACT FROM AUTHOR]

Published

2018

75. Origin and tectonic evolution of early Paleozoic arc terranes abutting the northern margin of North China Craton.

Author

Zhou, Hao, Pei, Fu-Ping, Zhang, Ying, Zhou, Zhong-Biao, Xu, Wen-Liang, Wang, Zhi-Wei, Cao, Hua-Hua, and Yang, Chuan

Subjects

STRUCTURAL geology, PALEOZOIC Era, CRATONS, HAFNIUM isotopes, ZIRCON

Abstract

The origin and tectonic evolution of the early Paleozoic arc terranes abutting the northern margin of the North China Craton (NCC) are widely debated. This paper presents detrital zircon U-Pb and Hf isotopic data of early Paleozoic strata in the Zhangjiatun arc terrane of central Jilin Province, northeast (NE) China, and compares them with the Bainaimiao and Jiangyu arc terranes abutting the northern margin of the NCC. Detrital zircons from early Paleozoic strata in three arc terranes exhibit comparable age groupings of 539-430, 1250-577, and 2800-1600 Ma. The Paleoproterozoic to Neoarchean ages and Hf isotopic composition of the detrital zircons imply the existence of the Precambrian fragments beneath the arc terranes. Given the evidences from geology, igneous rocks, and detrital zircons, we proposed that the early Paleozoic arc terranes abutting the northern margin of the NCC are a united arc terrane including the exotic Precambrian fragments, and these fragments shared a common evolutionary history from Neoproterozoic to early-middle Paleozoic. [ABSTRACT FROM AUTHOR]

Published

2018

76. Mantle-Crust Interaction in Petrogenesis of the Gabbro-Granite Association in the Preobrazhenka Intrusion, Eastern Kazakhstan.

Author

Khromykh, S. V., Tsygankov, A. A., Burmakina, G. N., Kotler, P. D., and Sokolova, E. N.

Subjects

MAGMAS, MAFIC rocks, LITHOSPHERE, PALEOZOIC Era

Abstract

The paper reports results of petrological-geochemical, isotope, and geochronological studies of the Preobrazhenka gabbro-granitoid massif located in the Altai collisional system of Hercynides, Eastern Kazakhstan. The massif shows evidence for the interaction of compositionally contrasting magmas during its emplacement. Mineralogical-petrological and geochemical studies indicate that the gabbroid rocks of the massif were formed through differentiation of primary trachybasaltic magma and its interaction with crustal anatectic melts. Origin of the granitoid rocks is related to melting of crustal protoliths under the thermal effect of mafic melts. The mantle-crust interaction occurred in several stages and at different depths. A model proposed here to explain the intrusion formation suggests subsequent emplacement of basite magmas in lithosphere and their cooling, melting of crustal protolith, emplacement at the upper crustal levels and cooling of the granitoid and basite magmas. It was concluded that the formation of gabbro-granitoid intrusive massifs serves as an indicator of active mantle-crust interaction at the late evolutionary stages of accretionary-collisional belts, when strike-slip pull-apart deformations causes the high permeability of lithosphere. [ABSTRACT FROM AUTHOR]

Published

2018

77. Lithospheric thermal evolution and dynamic mechanism of destruction of the North China Craton.

Author

Li, Zian, Zhang, Lu, Lin, Ge, Zhao, Chongbin, and Liang, Yingjie

Subjects

LITHOSPHERE, HEAT flux, CRATONS, PALEOZOIC Era, SUBDUCTION, COMPUTER simulation

Abstract

The dynamic mechanism for destruction of the North China Craton (NCC) has been extensively discussed. Numerical simulation is used in this paper to discuss the effect of mantle upward throughflow (MUT) on the lithospheric heat flux of the NCC. Our results yield a three-stage destruction of the NCC lithosphere as a consequence of MUT variation. (1) In Late Paleozoic, the elevation of MUT, which was probably caused by southward and northward subduction of the paleo-Asian and paleo-Tethyan oceans, respectively, became a prelude to the NCC destruction. The geological consequences include a limited decrease of the lithospheric thickness, an increase of heat flux, and a gradual enhancement of the crustal activity. But the tectonic attribute of the NCC maintained a stable craton. (2) During Late Jurassic-Early Cretaceous, the initial velocity of the MUT became much faster probably in response to subduction of the Pacific Ocean; the conductive heat flux at the base of the NCC lithosphere gradually increased from west to east; and the lithospheric thickness was significantly decreased. During this stage, the heat flux distribution was characterized by zonation and partition, with nearly horizontal layering in the lithosphere and vertical layering in the underlying asthenosphere. Continuous destruction of the NCC lithosphere was associated with the intense tectono-magmatic activity. (3) From Late Cretaceous to Paleogene, the velocity of MUT became slower due to the retreat of the subducting Pacific slab; the conductive heat flux at the base of lithosphere was increased from west to east; the distribution of heat flux was no longer layered. The crust of the western NCC is relatively hotter than the mantle, so-called as a ‘hot crust but cold mantle’ structure. At the eastern NCC, the crust and the mantle characterized by a ‘cold crust but hot mantle.’ The western NCC (e.g., the Ordos Basin) had a tectonically stable crust with low thermal gradients in the lithosphere; whereas the eastern NCC was active with a hot lithosphere. The numerical results show that the MUT is the main driving force for the NCC destruction, whereas the complex interaction of surrounding plates lit a fuse for the lithospheric thinning. [ABSTRACT FROM AUTHOR]

Published

2018

78. Paleozoic Granitoids of the Southern Part of the Voznesenka Terrane (Southern Primorye): Age, Composition, Melt Sources, and Tectonic Settings.

Author

Kruk, N. N., Golozubov, V. V., Kiselev, V. I., Kruk, E. A., Rudnev, S. N., Serov, P. A., Kasatkin, S. A., and Moskalenko, E. Yu.

Subjects

PALEOZOIC Era, MELTING, PLATE tectonics, ISOTOPE geology, VOLCANIC ash, tuff, etc., GEOLOGICAL formations

Abstract

This paper presents data on the geological position, geochemistry, age, and isotopic characteristics of the granitoids of the southern part of the Voznesenka terrane, Southern Primorye (Muraviev-Amursky Peninsula and its vicinities). All of the studied granitoids were formed in three stages: the Ordovician, Silurian, and Permian. The Silurian and Permian ages of the granitoid intrusions have been previously determined (Ostrovorussky Massif, 432-422 Ma, and 250 ± 4 Ma, early and late associations, respectively; Sedanka massif, 261 ± 3 Ma). The granites of the Artem and Nadezhdinsky massifs define an U-Pb zircon age of 481 ± 6 and 452 ± 4 Ma, respectively. The geochemical and isotope data show mainly the crustal nature of the granitoids. Their formation was related to melting of relatively immature rocks of the continental crust (mafic-intermediate volcanic rocks). The Nd isotope composition of the granitods (TNd(DM-2) = 1.3 Ga) indicates the absence of the mature ancient crust at the basement of the southern Voznesenka terrane. The maximum contribution of mantle sources to the granite formation is recorded in the Permian associations. A comparison of the peaks of intrusive magmatism in the southern part of the Voznesenka terrane and adjacent territories suggests that the formation of the granitoids of the Muraviev-Amursky Peninsula and its vicinities was caused by the interaction of continental blocks with two oceanic basins: the Paleoasian (and its fragments) and Paleopacific ones. [ABSTRACT FROM AUTHOR]

Published

2018

79. Subduction and retreating of the western Pacific plate resulted in lithospheric mantle replacement and coupled basin-mountain respond in the North China Craton.

Author

Zheng, Jianping and Dai, Hongkun

Subjects

PACIFIC Plate, PLATE tectonics, SHIELDS (Geology), PALEOZOIC Era, VOLCANISM

Abstract

The North China Craton (NCC) witnessed Mesozoic vigorous tectono-thermal activities and transition in the nature of deep lithosphere. These processes took place in three periods: (1) Late Paleozoic to Early Jurassic (∼170 Ma); (2) Middle Jurassic to Early Cretaceous (160-140 Ma); (3) Early Cretaceous to Cenozoic (140 Ma to present). The last two stages saw the lithospheric mantle replacement and coupled basin-mountain response within the North China Craton due to subduction and retreating of the Paleo-Pacific plate, and is the emphasis in this paper. In the first period, the subduction and closure of the Paleo- Asian Ocean triggered the back-arc extension, syn-collisional compression and then post-collisional extension accompanied by ubiquitous magmatism along the northern margin of the NCC. Similar processes happened in the southern margin of the craton as the subduction of the Paleo-Tethys ocean and collision with the South China Block. These processes had caused the chemical modification and mechanical destruction of the cratonic margins. The margins could serve as conduits for the asthenosphere upwelling and had the priority for magmatism and deformation. The second period saw the closure of the Mongol-Okhotsk ocean and the shear deformation and magmatism induced by the drifting of the Paleo-Pacific slab. The former led to two pulse of N-S trending compression (Episodes A and B of the Yanshan Movement) and thus the pre-existing continental marginal basins were disintegrated into sporadically basin and range province by the Mesozoic magmatic plutons and NE-SW trending faults. With the anticlockwise rotation of the Paleo-Pacific moving direction, the subduction-related magmatism migrated into the inner part of the craton and the Tanlu fault became normal fault from a sinistral one. The NCC thus turned into a back-arc extension setting at the end of this period. In the third period, the refractory subcontinental lithospheric mantle (SCLM) was firstly remarkably eroded and thinned by the subduction-induced asthenospheric upwelling, especially those beneath the weak zones (i.e., cratonic margins and the lithospheric Tanlu fault zone). Then a slightly lithospheric thickening occurred when the upwelled asthenosphere got cool and transformed to be lithospheric mantle accreted (∼125 Ma) beneath the thinned SCLM. Besides, the magmatism continuously moved southeastward and the extensional deformations preferentially developed in weak zones, which include the Early Cenozoic normal fault transformed from the Jurassic thrust in the Trans-North Orogenic Belt, the crustal detachment and the subsidence of Bohai basin caused by the continuous normal strike slip of the Tanlu fault, the Cenozoic graben basins originated from the fault depression in the Trans-North Orogenic Belt, the Bohai Basin and the Sulu Orogenic belt. With small block size, inner lithospheric weak zones and the surrounding subductions/collisions, the Mesozoic NCC was characterized by (1) lithospheric thinning and crustal detachment triggered by the subduction-induced asthenospheric upwelling. Local crustal contraction and orogenesis appeared in the Trans-North Orogenic Belt coupled with the crustal detachment; (2) then upwelled asthenosphere got cool to be newly-accreted lithospheric mantle and crustal grabens and basin subsidence happened, as a result of the subduction zone retreating. Therefore, the subduction and retreating of the western Pacific plate is the outside dynamics which resulted in mantle replacement and coupled basin-mountain respond within the North China Craton. We consider that the Mesozoic decratonization of the North China Craton, or the Yanshan Movement, is a comprehensive consequence of complex geological processes proceeding surrounding and within craton, involving both the deep lithospheric mantle and shallow continental crust. [ABSTRACT FROM AUTHOR]

Published

2018

80. Petrogenesis of late Paleozoic-to-early Mesozoic granitoids and metagabbroic rocks of the Tengchong Block, SW China: implications for the evolution of the eastern Paleo-Tethys.

Author

Zhu, Ren-Zhi, Lai, Shao-Cong, Qin, Jiang-Feng, and Zhao, Shao-Wei

Subjects

PETROGENESIS, PALEOZOIC Era, PHANEROZOIC Eon, MESOZOIC Era, OROGENIC belts

Abstract

This paper presents precise zircon U–Pb, bulk-rock geochemical, and Sr–Nd–Pb isotopic data for metagabbro, quartz diorite, and granite units within the Tengchong Block of SW China, which forms the southeastern extension of the Himalayan orogeny and the southwestern section of the Sanjiang orogenic belt, a key region for furthering our understanding of the evolution of the eastern Paleo-Tethys. These data reveal four groups of zircon U–Pb ages that range from the late Paleozoic to the early Mesozoic, including a 263.6 ± 3.6 Ma quartz diorite, a 218.5 ± 5.4 Ma two-mica granite, a 205.7 ± 3.1 Ma metagabbroic unit, and a 195.5 ± 2.2 Ma biotite granite. The quartz diorite in this area contains low concentrations of SiO2 (60.71–64.32 wt%), is sodium-rich, and is metaluminous, indicating formation from magmas generated by a mixed source of metamafic rocks with a significant metapelitic sedimentary material within lower arc crust. The two-mica granites contain high concentrations of SiO2 (73.2–74.3 wt%), are strongly peraluminous, and have evolved Sr–Nd–Pb isotopic compositions, all of which are indicative of a crustal source, most probably from the partial melting of felsic pelite and metagreywacke/psammite material. The metagabbros contain low concentrations of SiO2 (50.17–50.96 wt%), are sodium-rich, contain high concentrations of Fe2O3T (9.79–10.06 wt%) and CaO (6.88–7.12 wt%), and are significantly enriched in the Sr (869–894 ppm) and LREE (198.14–464.60 ppm), indicative of derivation from magmas generated by a metasomatized mantle wedge modified by the sedimentary-derived component. The biotite granites are weakly peraluminous and formed from magmas generated by melting of metasedimentary sources dominated by metagreywacke/psammite material. Combining the petrology and geochemistry of these units with the regional geology of the Indosinian orogenic belt provides evidence for two stages of magmatism: an initial stage that generated magmas during partial melting of mantle-derived material associated with late Permian-to-Early Triassic subduction of the Paleo-Tethys, and a second stage that generated granitoid magmas by the partial melting of crustal-derived sources during the Late Triassic collision between the Lhasa and Tengchong blocks and the northern margin of the Australian continent. These rocks, therefore, provide evidence of a systematic late Permian-to-Late Triassic transition from a pre-collision/volcanic arc setting through a collisional setting to a final within-plate phase of magmatism. The previous research involving bulk-rock Sr–Nd analyses of units from the southern Sanjiang orogenic belt and zircon Hf isotopic analyses of units from the Tengchong Block suggests that these areas may record similar magmatic evolutionary trends from mantle- to crustal-derived sources during the evolution of the eastern Paleo-Tethys. [ABSTRACT FROM AUTHOR]

Published

2018

81. Sedimentary facies and palynoflora of the Andirá and Arari formations in the Autazes region, Amazonas Basin.

Author

Junior, Ziomar Costa e Silva, Soares, Emílio Alberto Amaral, Dino, Rodolfo, and Antonioli, Luzia

Subjects

*FACIES, *ALLUVIAL fans, *ALLUVIUM, *DRILL core analysis, *SEDIMENTARY facies (Geology), *PALEOZOIC Era

Abstract

This paper presents sedimentological, stratigraphic, and palynological data from borehole PBAT-15-43, in which a 230 m long continuous core was sampled in the central portion of the Amazonas Basin, where it was possible to define the contact relationship between Paleozoic deposits of the Andirá and Arari Formations (Tapajós Group). The drilling hole is located in the southern portion of the municipality of Autazes (Amazonas State) and was made available by the Potássio do Brasil Company. Six sedimentary facies were identified in the borehole and grouped into two associations, informally referred to as I and II, representing the Andirá (upper part) and Arari (lower part) formations, respectively. Association I was interpreted as a fluvial environment with channel deposits, flood barriers, and crevasses splay. Association II, on the other hand, represents an alluvial fan environment with predominantly gravitational flow deposits. The facies of association II proved to be sterile for palynomorphs, whereas facies I contain a rich palynoflora, including especially the species Lueckisporites virkkiae , Corisaccites alutas , Hamiapollenites andiraensis , H. karooensis , Vittatina costabilis , V. saccata , V. subsaccata , and Tornopollenites toreutos ; secondarily by species of the genera Punctatisporites , Verrucosisporites , Limitisporites , Cycadopites and Stratopodocarpites , which are considered as belonging to the Permian age. The fact that no marine palynomorphs were detected supports the present interpretations regarding the age and the depositional environments previously predicted for these formations as predominantly fluvial deposits. • Sedimentological, stratigraphic, and palynological data from the central portion of the Amazonas Basin-Tapajós Group. • Six sedimentary facies were identified and grouped into two associations. • Arari Formation - Association I represent a fluvial environment with channel deposits, flood barriers, and crevasses splay. • Andirá Formation - Association II represents an alluvial fan environment with predominantly gravitational flow deposits. • Identification of the Tornopollenites toreutos palynozone Upper Permian in age. [ABSTRACT FROM AUTHOR]

Published

2024

82. Structural styles and chronological sequence of the Mianyuzui ductile strike-slip fault along the Shangdan suture Zone: Implications for the Paleozoic tectonic evolution of the Qinling Orogenic Belt, China.

Author

Sheir, Falak, Li, Wei, Zhang, Le, Baz, Shair, Jiang, Liuqing, Liang, Li, Wang, Chao, Feng, Zhanwei, and Rehman, Adnanul

Subjects

*OROGENIC belts, *SUTURE zones (Structural geology), *PALEOZOIC Era, *LITHOSPHERE, *URANIUM-lead dating, *SHEAR (Mechanics)

Abstract

• Two phases of deformation occured in the south of the Shangdan suture zone across the Mianyuzui ductile strike-slip fault. • The metamorphic temperature of the early stage of shearing deformation is ∼ 600-700℃ and ∼ 300-500℃ for the late stage. • The subduction of the Shangdan Oceanic lithosphere was active till the Early Silurian, and subsequent collisions occurred during the Late Silurian. The Shangdan suture zone (SDSZ) subdivides the Qinling Orogenic Belt into North Qinling and South Qinling belts, marking the main tectonic boundary between the North China and South China Blocks. The Mianyuzi ductile strike-slip fault (MYZF) within the SDSZ separates the North China Block from the South China Block and contains valuable collisional information. This paper integrates the structural and geochronological data of the MYZF to investigate the Paleozoic tectonic evolution of the Qinling Orogenic Belt and the collision between the North China and South China Blocks. Two phases of deformation (D 1 -D 2a-b) are identified along the southern boundary of the SDSZ. The metamorphic temperature of mylonites is ∼ 600–700 ℃ for the early stage and ∼ 300–500 ℃ for the late stage of shearing deformation. U-Pb zircon analysis of the mylonites and diabase dike in the ductile shear reveals that zircons have major younger protolith populations at 480–460 Ma, 450–430 Ma, and 405–425 Ma, which suggests that rocks were probably derived from the North Qinling belt. The metamorphism and deformation cooling age from the MYZF have been constrained to be 339–328 Ma and 259 ± 1.6 Ma using U-Pb and 40Ar/39Ar dating. Combined with previously published data, we concluded that the subduction of the Shangdan Ocean was active until the Early Silurian and subsequent collisions occurred during the Late Silurian. Meanwhile, the shearing might have been related to the intraplate extension-exhumation during the Carboniferous-Late Permian in the Qinling Orogenic Belt. [ABSTRACT FROM AUTHOR]

Published

2024

83. A comprehensive porosity prediction model for the Upper Paleozoic tight sandstone reservoir in the Daniudi gas field, Ordos Basin.

Author

Qiu, Longwei, Yang, Shengchao, Qu, Changsheng, Xu, Ningning, Gao, Qingsong, Zhang, Xiangjin, Liu, Xugang, and Wang, Donghui

Subjects

POROSITY, PREDICTION models, PALEOZOIC Era, GEOLOGICAL basins, GEOLOGICAL formations, GEOCHEMISTRY

Abstract

This paper investigated the porosity controlling factors for tight sandstone reservoir in the Daniudi gas field, Ordos Basin based on an integrated petrographic, petrophysical and geostatistical analyses, and proposed a comprehensive prediction model for reservoir porosity. Compaction was found to be a key factor for causing reservoir densification. The degree of sandstone compaction appears to be affected by grain sizes and sorting. Under normal compaction conditions (e.g., cement content less than 6%, and with no dissolution), the variation in reservoir porosity with burial depth can be well correlated with grain compositions, grain sizes, and sorting. Based on qualitative examination of the controlling factors for reservoir porosities, geostatistics were used to quantify the effects of various geological parameters on reservoir porosities. A statistical model for comprehensive prediction of porosity was then established, on the assumption that the present reservoir porosity directly relates to both normal compaction and diagenesis. This model is easy to use, and has been validated with measured porosity data. The porosity controlling factors and the comprehensive porosity prediction can be used to quantify effects of the main controlling factors and their interaction on reservoir property evolution, and may provide a reference model for log interpretation. [ABSTRACT FROM AUTHOR]

Published

2017

84. Surface Uplift Due To Time‐Varying Elastic Thickness in Continental Interiors.

Author

Ruetenik, Gregory A., Jansen, John D., and Sandiford, Mike

Subjects

ENDORHEIC lakes, WATERSHEDS, PLATE tectonics, PALEOZOIC Era, TOPOGRAPHY

Abstract

If, as previously hypothesized, the effective elastic response of the lithosphere is sensitive to the imposed stress regime, then it may vary in time and produce distinctive geomorphic responses. Such effects will be at their most crucial in landscapes of low relief. Motivated by the existence of numerous small endorheic (internally‐drained) basins in central Australia, we examine the influence of changing elastic response in the presence of large embedded loads in the lithosphere underlying stable continental interiors. Focusing on the western Lake Eyre Basin and adjoining Lake Lewis basin—an area with a close correlation between drainage pattern and extreme Bouguer gravity anomalies—we devise a set of numerical simulations that incorporate the flexural response to time‐transient horizontal stresses. The simulations demonstrate that transient changes in the effective elastic thickness can drive topographic changes in low‐relief landscapes, including drainage capture and the development of endorheic basins, consistent with field observations. Plain Language Summary: Extreme density anomalies in central Australia suggest the presence of significant stress within the lithosphere, even though the region lies far from any tectonic plate boundaries. This in situ stress probably dates back to a mountain‐building period in the Paleozoic. The density anomalies correlate closely with drainage patterns and a set of internally‐drained catchments, suggesting an important relationship exists between the deep‐earth and landscape‐forming processes. We propose the driving mechanism is the result of changes in the rigidity of the lithosphere, which in the presence of in situ stress lead to surface uplift or subsidence. We use a landscape evolution model to show that topography similar to field observations can be simulated by imposing cycles of uplift and subsidence brought about by these changes in lithospheric rigidity over tens of millions of years. In consequence, the lithosphere must have fairly low rigidity counter to previously held ideas about continental interiors. Key Points: Loads embedded within the central Australian lithosphere produce large flexural responses that may evolve cyclically over timeSurface deflections induced by transient lithospheric rigidity can explain endorheic basins formed at wavelengths of order 100 kmCyclical behavior in lithospheric rigidity is consistent with the observed geomorphic record of erosion and deposition [ABSTRACT FROM AUTHOR]

Published

2024

85. U–Pb (ID-TIMS) Age of Perovskite from Kimberlites of the Manchary Pipe (Khompu-Maya Kimberlite Field, Central Yakutia).

Author

Oleinikov, O. B., Stifeeva, M. V., Oparin, N. A., Kotov, A. B., Salnikova, E. B., and Oshchepkova, M. G.

Subjects

KIMBERLITE, PEROVSKITE, URANIUM-lead dating, ISOTOPE dilution analysis, MASS spectrometry, PALEOZOIC Era

Abstract

The results of U–Pb Isotope Dilution Thermal Ionization Mass Spectrometry (ID-TIMS) geochronological studies of perovskite from kimberlite rocks of the Manchary pipe (Khompu-Maya kimberlite field, Central Yakutia) are reported. The obtained U–Pb age (472 ± 1 Ma) indicates the Early Paleozoic age of the formation of the Khompu-Maya field kimberlites and allows us to identify a new Aldan kimberlite subprovince within the Aldan anteclise. [ABSTRACT FROM AUTHOR]

Published

2024

86. Unraveling the Lhasa‐Qiangtang Collision in Western Tibet: Insights From Geochronological and Paleomagnetic Analyses.

Author

Song, Peiping, Ding, Lin, Li, Jinxiang, Yue, Yahui, and Xie, Jing

Subjects

CONTINENTAL crust, PLATEAUS, VOLCANOLOGY, PALEOZOIC Era, CENOZOIC Era

Abstract

The Lhasa‐Qiangtang collision closed the Meso‐Tethys Ocean, but the exact timing of this event remains hotly debated. Here, we present geochronological and paleomagnetic analyses conducted on Cretaceous volcanics from western Qiangtang to constrain the Lhasa‐Qiangtang collision in western Tibet. Our investigations yield a paleolatitude of ∼30.5 ± 5.0°N for western Qiangtang during ca. 110–100 Ma. A reanalysis of previously acquired Mesozoic‐Cenozoic paleomagnetic data from western Qiangtang suggests a stationary position during ca. 136–34 Ma. Examination of paleomagnetic data from western Lhasa reveals a significant reduction in northward paleolatitudinal motion during the Early Cretaceous, dropping from ∼12.3 cm/yr to nearly zero. Integration of our paleomagnetic findings with available geological records has led to conclude that the Lhasa‐Qiangtang collision in western Tibet occurred at ca. 132 Ma. Additionally, we infer that crustal shortening on the order of ∼1,000 km happened between Lhasa and Qiangtang during the Early Cenozoic. Plain Language Summary: The Tibetan Plateau comprises multiple different blocks, which originated from the Gondwana in the southern hemisphere. Their convergence histories toward Euraisa have changed the global land‐sea distributions since the Late Paleozoic. The time at which the Lhasa block, one of the Tibetan blocks, accreted to the Qiangtang block to the north remains poorly constrained. In this work, we provide robust data suggesting a latitude of ∼30.5 ± 5.0°N for western Qiangtang during the Early Cretaceous (ca. 110–100 Ma). We also compiled the available latitudinal data from western Tibet in combination with geological observations. We suggest Lhasa collided with Qiangtang during 132 million years ago in western Tibet. Significant shortening of the continental crust by ∼1,000 km between the Lhasa and Qiangtang blocks occurred after their collision. Key Points: Western Qiangtang had a paleolatitude of ∼30.5 ± 5.0°N at ca. 110–100 MaA substantial decrease in the paleolatitudinal motion of western Lhasa occurred in the Early CretaceousThe Lhasa‐Qiangtang collision in western Tibet occurred at ca. 132 Ma [ABSTRACT FROM AUTHOR]

Published

2024

87. Paleozoic Episodic Magmatism in Western Tianshan: Insight Into Assembling the Northeastern Pangea.

Author

Wang, Kai, Cai, Keda, Sun, Min, Lai, Chun‐Kit, Xia, Xiao‐Ping, Wang, Xiangsong, and Bao, Zihe

Subjects

PALEOZOIC Era, MESOZOIC Era, ZIRCON, MAGMATISM, WELDING, OROGENIC belts, PALEOGEOGRAPHY

Abstract

The late‐stage union of Pangea was associated with the convergence of Siberia with Laurussia, but the exact timing remains unclear. The orogenic duration of the Kazakhstan block can provide geochronological constraints as it connects Siberia, Baltica, and Tarim. Zircon petrochronology offers a reliable approach for ascertaining the lifespan of an ancient orogen. In this study, we explore three phases of magmatism recorded in detrital zircons from late Paleozoic and Mesozoic sandstone‐siltstones in Western Tianshan, that is, 400–470 Ma, 320–380 Ma, and 280–320 Ma. Based on their age‐propagated Hf isotopes, melt SiO2 contents, and crustal thicknesses, our findings suggest that the southern limb of Kazakhstan underwent the early Paleozoic amalgamation of microcontinents with arcs, the late Paleozoic maturation of an Andean‐like continental arc, and the late Carboniferous collision of Kazakhstan with the Junggar oceanic basin and the Tarim craton. Such characteristics manifest the long‐term orogenic progression of Kazakhstan. Combining published timelines and paleolatitudes of major orogens and blocks, we propose that the Kazakhstan block welded northeastern Pangea along with the cessation of these orogenic activities around it. Consequently, by docking Kazakhstan with surrounding cratons, the fundamental configuration of Pangea could have been established in the late Carboniferous. Plain Language Summary: Pangea was suggested to have assembled at ca. 250 Ma upon paleogeographic reconstructions. However, the assembling time remains a matter of debate due to low‐quality Permo‐Carboniferous paleomagnetic data on the northeast of Pangea; thus, other geochronological records need to be determined. Here, we employ the method of zircon petrochronology to trace the orogenic processes of Kazakhstan because it serves as a pivot in welding peripheral Siberia, Baltica, and Tarim blocks. Our results demonstrate that episodic variations in melt compositions, crustal thicknesses, and Hf isotopes reveal the long‐lived orogenic progression of the southern limb of Kazakhstan and constrain its incorporation into Pangea to the late Carboniferous. Such an event was almost contemporaneous with the assembly of Baltica and Siberia with the northern limb of Kazakhstan but occurred slightly later than the collision of Laurussia with Gondwana. As such, the fundamental configuration of Pangea could have been established in the late Carboniferous rather than the Permian, as previous paleogeographic reconstructions postulated. Key Points: Detrital zircons in Western Tianshan record three phases of Paleozoic magmatismZircon petrochronology can trace orogenic processes of the southern limb of KazakhstanDocking Kazakhstan with surrounding cratons in the late Carboniferous marked the major assembly of the northeastern Pangea [ABSTRACT FROM AUTHOR]

Published

2024

88. REVISITING THE CRETACEOUS LUNGFISH ATLANTOCERATODUS IHERINGI (AMEGHINO, 1898) FROM THE MATA AMARILLA FORMATION (ARGENTINA) WITH COMMENTS ON TOOTH PLATES HISTOLOGY.

Author

PANZERI, KAREN M.

Subjects

MESOZOIC Era, DENTIN, TEETH, PALEOZOIC Era, CENOZOIC Era

Abstract

Atlantoceratodus iheringi (Ameghino, 1898) from Argentine territory is restudied based on its known tooth plates and newly discovered material, which includes previously unknown skull roof bones and vomerine tooth plates. The latter represent the first records of such elements from the Mesozoic era in South America. The comparative morphological analysis reveals its distinctiveness from other dipnoans, and offers valuable data for future systematic and phylogenetic research. The pterygopalatine tooth plates display narrow-based first denticulations and lack anterior wear facets, with the inner angle positioned at the level of the second denticulation. Similarly, the prearticular tooth plates feature straight mediolingual edges, and a wide-based first denticulation without sinuosities at the tip. Histological sections are performed and analyzed in detail for the first time. A. iheringi presents in this aspect distinctive features such as: large-lumen denteons tending to cluster together, circumdenteonal dentine arranged in a double band (an inner birefringent and an outer monorefringent), and a disordered interdenteonal dentine, with birefringence surrounding denteons and areas with monorefringence. A. iheringi exhibits histological structure closer to Mesozoic and Cenozoic dipnoans than Paleozoic, especially resembling the disposition observed in the Upper Cretaceous Patagonian species Metaceratodus baibianorum. The wide distribution of features designated as diagnostic for Atlantoceratodus is discussed. [ABSTRACT FROM AUTHOR]

Published

2024

89. Formation mechanism of the small-angle X-type strike-slip faults in deep basin and its controlling on hydrocarbon accumulation: a case study from the Tabei Uplift, Tarim Basin, NW China.

Author

Song, Xingguo, Chen, Shi, Zhang, Yintao, Xie, Zhou, Liang, Xinxin, Yang, Minghui, Zheng, Mingjun, Shi, Xukai, Qiu, Liang, and Li, Hu

Subjects

STRIKE-slip faults (Geology), OROGENIC belts, SALT tectonics, HYDROCARBONS, GAS migration, SAPROPEL, RIFTS (Geology), PALEOZOIC Era

Abstract

In the central Tarim Basin, numerous hydrocarbon deposits were found along ultra-deep strike-slip faults, and its evolving progress and formation mechanism are research hotspots. The Paleozoic small-angle X-type strike-slip fault in the Tabei Uplift is the research subject in this article. Based on high-precision three-dimensional seismic data, three structural deformation layers were revealed: the rift system, weak strike-slip deformation and salt tectonics in the deep structural layer (Sinian-Middle Cambrian), the strong strike-slip deformation and karst-dissolution structure in the middle structural layer (Upper Cambrian-Middle Ordovician), and echelon normal faults in the shallow structural layer (Upper Ordovician-Carboniferous). The formation and evolution of strike-slip faults is jointly controlled by the distribution pattern of basement rift and the activities of surrounding orogenic belts, which can be divided into three stages. In the Middle to Late Cambrian, the initial subduction of the Paleo-Asian and Proto-Tethyan oceans precipitated the emergence of two sets of small-angle X-type strike-slip faults, striking NW and NE above the grooves of Precambrian rifts, influenced by local weak compressive stress. Affected by the closure of peripheral paleo-ocean, strike-slip faults deformed considerably in the Middle-Late Ordovician and were reactivated in the Silurian-Carboniferous, forming en-echelon normal faults in the shallow layer. The layered deformation structure of the strike-slip faults significantly affects the accumulation of hydrocarbons. The differential hydrocarbon enrichment of faults in the Tabei Uplift is collectively influenced by the distribution of source rocks and the migration of oil and gas. The topographical features of the Tabei Uplift, along with the distribution of strike-slip faults across tectonic units, have rendered the NE direction the preferential pathway for hydrocarbon migration. Additionally, impacted by the development of en echelon faults, the NE-trending faults offer superior conditions for hydrocarbon preservation and charging condition, compared to the NW-trending faults. [ABSTRACT FROM AUTHOR]

Published

2024

90. Mapping geochemical anomalies by accounting for the uncertainty of mineralization-related elemental associations.

Author

Wang, Jian, Zuo, Renguang, and Liu, Qinghai

Subjects

PALEOZOIC Era

Abstract

Geochemical mapping is a fundamental tool for elucidating the distribution and behaviour of economically significant elements and providing valuable insights into geological processes. Nevertheless, the quantification of uncertainty associated with geochemical mapping has only recently become a subject of widespread concern. This study presents a procedure that primarily consists of the determination of homogeneous clusters, the recognition of elemental associations for each cluster, and the identification of geochemical anomalies, with the aim of accounting for the uncertainty of elemental association in geochemical mapping. To illustrate and validate the procedure, a case study was conducted wherein geochemical stream-sediment samples from the northwestern region of the province of Sichuan, China, were processed to map anomalies associated with disseminated gold mineralization. The results indicate that (1) the representativeness of elemental association for the underlying geological process is an important source of uncertainty for geochemical mapping; (2) the procedure presented here is effective in addressing the uncertainty of elemental associations in geochemical mapping; and (3) the study area can be classified into two clusters, each characterized by unique elemental associations that align well with the distribution of Paleozoic and Triassic lithological units, respectively. Furthermore, the region still holds great potential for the discovery of gold deposits, particularly in areas proximal to known mineralization sites. [ABSTRACT FROM AUTHOR]

Published

2024

91. Taxonomy, Zonation and Correlation of the Graptolite Fauna across the Lower/Middle Ordovician Boundary Interval in the Yangtze Gorges Area, South China.

Author

Chuanshang, WANG, Xiaofeng, WANG, Xiaohong, CHEN, and Zhihong, LI

Subjects

GRAPTOLITES, ANIMAL classification, ORDOVICIAN Period, STATISTICAL correlation, PALEOZOIC Era, FOSSIL hemichordata

Abstract

The graptolite fauna across the Lower and Middle Ordovician boundary at the Huanghuachang GSSP section, Yichang and the Jianyangping section, Xingshan County is described. The taxonomy of the pendent didymograptids, the graptolite zonations across the base of Middle Ordovician and their correlations are discussed in this paper. The two revised graptolite zones, the Didymograptellus bifidus Zone and the Azygograptus suecicus Zone, can be well correlated to their equivalents elsewhere in the world. [ABSTRACT FROM AUTHOR]

Published

2013

92. Dataset of antiarch placoderms (the most basal jawed vertebrates) throughout Middle Paleozoic.

Author

Pan, Zhaohui, Niu, Zhibin, Xian, Zumin, and Zhu, Min

Subjects

*PALEOZOIC Era, *VERTEBRATES, *DISTRIBUTION (Probability theory), *QUANTITATIVE research, *BIOGEOGRAPHY, *BIODIVERSITY

Abstract

Antiarch placoderms, the most basal jawed vertebrates, have the potential to enlighten the origin of the last common ancestor of jawed vertebrates. Quantitative study based on credible data is more convincing than qualitative study. To reveal the antiarch distribution in space and time, we created a comprehensive structured dataset of antiarchs comprising 64 genera and 6025 records. This dataset, which includes associated chronological and geographic information, has been digitalized from academic publications manually into the DeepBone database as a dateset. We implemented the paleogeographic map marker to visualize the biogeography of antiarchs. The comprehensive data of Antiarcha allow us to generate its biodiversity and variation rate changes throughout its duration. Structured data of antiarchs has tremendous research potential, including testing hypotheses in the fields of the biodiversity changes, distribution, differentiation,population and community composition. Also, it will be easily accessible by the other tools to generate new understanding on the evolution of early vertebrates. The data file described in this paper is available on https://doi.org/10.5281/zenodo.5639529 (Pan and Zhu, 2021). [ABSTRACT FROM AUTHOR]

Published

2022

93. A NEW APPROACH TO STRATIGRAPHIC INTERPRETATION - RAHOVECI REGION.

Author

Suka, Qamil

Subjects

STRATIGRAPHIC geology, SURFACE area, LIMESTONE, METAMORPHIC rocks, PALEOZOIC Era, GEOLOGICAL formations

Abstract

The Mesozoic deposits are widespread in the Rahoveci region and cover an area of approximately 35-40% of the 1600 km2 total surface area. The Triassic deposits crop out in southeast and central part of the region. They are represented by metamorphosed limestones, schists, intracontinental basalts etc. Their relationship with the underlying Paleozoic formations is tectonic. Middle Triassic limestones are dated based on the following conodont fauna: Enantignatus ziegleri, Prioniodina latidentata, Spathognathodus kockeli, Gondolella sp. cf. G. navicula. The Jurassic deposits crop out in westerns part of the Rahoveci region, along the River "Drini i Bardhe". The oldest Jurassic formation is the "blocks in matrix" - type mélange. It consists of blocks of different lithology in a shaly matrix. The predominant lithology of the mélange-blocks is sandstone. The sandstone blocks consist of fine to very coarse-grained, dark gray to yellow arenites. The age of the mélange, according to the stratigraphic position, is related to middle - late Jurassic. Limestones include abundant charophyta, lying above the ultrabasic rocks, crop out in a limited area of this region. Their presence indicates a rapid shallowing of the basin. The age of the limestones with charophyta can be related to Late Jurassic. Both the ultrabasic rocks and the mélange "blocks in matrix" are unconformably overlain by ophiolitic breccias. The presence of ophiolitic breccias marks disruption of the underlying oceanic crust. The radiolarian cherts, found at the top of the ophiolitic breccias, are being referred to here as Çupeva cherts. They show a thickness of about 40 m and crop out on the right bank of the River Drini i Bardhe. The presence of radiolarian cherts indicates the homogenization of the deep water. The Çupeva cherts consist of beds of radiolarites 5- 30cm thick alternating with few mm of siliceous shales; thick levels of tuffs and, rarely tuffitic sands, are also present. The samples from the Guri i Zi section and the Çupeva e Nalte section contain radiolarian assemblages which indicate middle-late Oxfordian to Kimmeridgian-early Tithonian. The Çupeva cherts are subsequently covered by the Volljaku Flysch, which represents a siliceous-clastic turbiditic deposit, dated as late Kimmeridgian-early Tithonian by foraminifera and calcareous algae. The following microfossils are recognized: Clypeina jurassica Favre, Parurgonina caelinensis Cuvillier, Codiacean algae, Tubiphytes sp., Textularida sp., Ostracods, Sacoccomatype fragment etc. The flysch shows a 450m thick sequence and can be subdivided in two members: the lower member is mainly composed of clast and matrix supported pebbly sandstones and mudstones; the upper member is mainly composed of arenites with minor siltstone beds. The ophiolitic breccias, the Çupeva cherts and the Volljaku Flysch represent the oldest depositions lying above the ophiolite; they marked the ocean-basin closure. The Cretaceous deposits are widespread in this region. They crop out in east of the ophiolitic unit of Rahoveci. The Cretaceous deposits are mainly made up by basal conglomerates, platform and pelagic limestones and flyschoidal deposits. In previous studies, two lithostratigraphic units were individuated. For the first time, in this paper, the following three lithostratigraphic units have been individuated: Grebniku Unit, Ponorci Unit and Dresniku Unit. [ABSTRACT FROM AUTHOR]

Published

2016

94. Late Paleozoic low-angle southward-dipping thrust in the Züünharaa area, Mongolia: tectonic implications for the geological structures in the Sayan-Baikal and Hangai-Daur belts.

Author

Onon, Gantumur and Tsukada, Kazuhiro

Subjects

PALEOZOIC Era, THRUST faults (Geology), STRUCTURAL geology, OROGENIC belts, GEODYNAMICS

Abstract

The Central Asian Orogenic Belt (CAOB) is key to understanding the Paleozoic-Mesozoic geodynamics of Eurasian continent. The geological structure of the Middle-to-Late Paleozoic rock units in the North Mongolia-West Transbaikal region is critical in revealing development process of CAOB. The region is largely comprised of rocks from the continental affinity and accretionary complexes which form the Sayan-Baikal (SB) and Hangai-Daur (HD) belts. This paper describes the lithology, stratigraphy, geological structure, and U-Pb age of the rocks in the Züünharaa area, which is located within the Haraa terrane of the HD belt in Mongolia. We identified a regional low-angle southward-dipping thrust in this area. The tectonic implication of the low-angle south-dipping thrust is discussed within the North Mongolia-West Transbaikal region. The study area exposes metamorphosed clastic rocks of the Haraa Group intruded by Ordovician-Silurian granitic rocks, Devonian felsic volcanic rocks of the Ulaan Öndör Formation, and Visean clastic rocks of the Örmögtei Formation in ascending order. The Haraa Group, granitic rock, and Ulaan Öndör Formation are cut by the low-angle southward-dipping thrust throughout this area. The rocks along the thrust are fractured to form cataclasite zone up to ~40 m wide. The thrust includes granite-rhyolite clast of ~450-420 Ma, and is unconformably covered by Visean Örmögtei Formation. Therefore, thrusting occurred after Ordovician-Silurian and before Visean. Late Paleozoic low-angle southward-dipping thrusts, similar to the present study, are widely distributed in the Haraa terrane of the Hangai-Daur belt and in terranes of the Sayan-Baikal belt. Whereas, the contemporaneous southeast-verging composite folds and northward-dipping thrusts are developed in the accretionary complexes, which are exposed at south of the Haraa terrane. These contrasting structures suggest a couple of 'landward-verging' and 'oceanward-verging' structures and may correspond to the 'doubly vergent asymmetric structure' of Alpine-type compressional orogen. [ABSTRACT FROM AUTHOR]

Published

2017

95. ASTER Mineral Classification for Regolith Mapping in Tick Hill Mount Isa, Northwest Queensland.

Author

AGUSTIN, FITRIANI

Subjects

REGOLITH, PETROLOGY, DIGITAL image processing, MESOZOIC Era, PALEOZOIC Era

Abstract

This paper analyzed the mineral maps of AlOH bearing minerals and iron oxide using ASTER imagery in Tick Hill, Mount Isa, northwestern part of Queensland, as a guide for mapping the regolith unit within the area. Tick Hill is part of the Proterozoic Eastern and Western Fold Belt Province (Mount Isa Inlier Complex) covered by Mesozoic and Paleozoic lithologies and dominated by medium to coarse hornblende-biotite granite and gneiss; both of which intruded during 1760 - 1720 Ma. Highly weathered landforms cover the whole area. The Mesozoic sediments have experienced deep weathering, and currently present in the form of mesas. The weathering profiles are dominated by kaolinite, smectite, and pedogenic carbonates with some secondary silicification. Part of the landform is covered by colluvium varying in thickness from less than 1 m up to 12 m in certain places. Digital image processing has been done to ASTER imagery, i.e: calibrating, mosaicing, and band ratioing and false colour RGB. Within these methods, iron oxide, kaolinite, AlOH, and MgOH group mineral maps have successfully been created through the ASTER imagery. Later, these mineral maps were applied to interpret the surface regolith mapping unit. In addition, field samples have been taken in regolith covered areas to validate the ASTER mineral information. [ABSTRACT FROM AUTHOR]

Published

2017

96. Paracamelus (Mammalia, Camelidae) remains from the late Messinian of Italy: insights into the last camels of western Europe.

Author

Colombero, Simone, Bonelli, Edmondo, Pavia, Marco, Repetto, Giovanni, and Carnevale, Giorgio

Subjects

FOSSIL collection, CAMELS, PALEOZOIC paleobiogeography, PALEOZOIC Era, HISTORY

Abstract

In this paper we describe fossil remains of an indeterminate species of the genusParacamelus(Artiodactyla, Camelidae) from the Messinian post-evaporitic deposits (5.55–5.40 Ma) of Verduno (Piedmont, NW Italy). Camelins dispersed into Eurasia from North America in the late Miocene and almost instantaneously spread in western Europe and Africa. The size and morphology of the fossils found at Verduno are consistent in with those ofParacamelus,the earliest Old World camelin. Up to now, the only fossil camels recovered in the Neogene of Western Europe have been found at Venta del Moro and Librilla in Spain at 6.2 Ma. The remains from Verduno represent the first evidence of a camelin in the Neogene of Italy and they considerably expand the paleobiogeographic range of the Old World early camelins. The presence of a camelid at Verduno reinforces and confirms the importance of the fossiliferous deposits of NW Italy in defining the complex paleobiogeographic patterns of Europe during the Messinian, at the end of the Messinian salinity crisis. [ABSTRACT FROM PUBLISHER]

Published

2017

97. Permian-Triassic highly-fractionated I-type granites from the southwestern Qaidam Basin (NW China): Implications for the evolution of the paleo-tethys in the eastern Kunlun orogenic belt.

Author

Ju, Yinjuan, Zhang, Xiaoli, Lai, Shaocong, and Qin, Jiangfeng

Subjects

COASTAL processes (Physical geology), PALEOZOIC Era, PHYSICAL geology, GRANITE, CRYSTALLIZATION

Abstract

Late Paleozoic to Early Mesozoic granites are widespread in the southern Qaidam Basin, northern margin of the eastern Kunlun orogenic belt. Their petrogenesis can provide us insights into the tectonic evolution and crustal growth process in the Qaidam Basin. This paper reports Permian-Triassic granites from the Kunbei area, southwestern Qaidam Basin. Detailed zircon LA-ICP MS U-Pb dating reveals that the granites from the four drilling cores (q404, q406, q1612-8, q1613-8) have identical ages of 251±3, 256±4, 247±2, and 251±6 Ma, respectively, these ages are identical with the Permian-Triassic granites from the eastern Qaidam Basin. Detailed geochemical analyses indicate that these granites display typical affinities of highly-fractionated I-type granites: (1) they have high SiO (up to 76.5 wt.%), NaO+KO (7.91 wt.% to 9.48 wt.%) contents and high FeO/MgO values of 4.7 to 9.3, suggesting significant fractional crystallization; (2) their low A/CNK values of 0.54 to 1.03, no normative Al-rich minerals, inconsistent with the per-aluminous S-type granites; (3) their low Ga (14.5 ppm to 20.7 ppm) and 10 000×Ga/Al (2.23 to 3.03, most of them <2.6) values are inconsistent with the A-type granites; (4) the high Rb (191 ppm to 406 ppm) contents and Rb/Sr (2.1 to 13.4) ratios, as well as the significant negative Eu anomalies (0.10 to 0.42) also indicate significant fractional crystallization of feldspars; (5) their low PO contents (0.02 wt.% to 0.10 wt.%) suggest the limited solubility of phosphorus in primitive metaluminous melts. In combination with the geological background, we propose that the Permian-Triassic highly-fractionated I-type granites resulted from partial melting of intra-crustal mafic rocks, and the primitive I-type granitic melts underwent significant fractional crystallization of feldspars. The occurrence of highly-fractionated I-type granites in the southwestern Qaidam Basin suggests a Permian-Triassic active continental margin in the northern margin of the East Kunlun orogenic belt. [ABSTRACT FROM AUTHOR]

Published

2017

98. Boris Choubert: The forgotten fit of the circum-Atlantic continents.

Author

Kornprobst, Jacques

Subjects

*CONTINENTAL drift, *COASTS, *PRECAMBRIAN, *PALEOZOIC Era, *GEOLOGICAL research

Abstract

Boris Choubert was a strong supporter of Wegener's continental drift theory. In 1935, he published a very accurate fit of the circum-Atlantic continents, which was based on continental edges instead of coastlines; in the same paper, he interpreted the Palaeozoic belts as the result of horizontal movements of the Precambrian blocks; so, he greatly expanded the role of continental drift through time. This original and very prophetic work was almost completely ignored by his contemporaries. Thirty years later (1965), Bullard, Everett and Smith published in turn a similar but more sophisticated fit; they did not acknowledge Choubert's initial work. Bullard's fit was met with immediate and tremendous success. The present paper analyses the reasons why Boris Choubert was frustrated of his pioneering role. This lack of recognition is related to: (1) a great evolution in the geological concepts between 1935 and 1965, and (2) a poor choice of Choubert, regarding the title of his 1935 article. [ABSTRACT FROM AUTHOR]

Published

2017

99. Epithermal mineralization in the Kedon Paleozoic volcano-plutonic belt, Northeast Russia: Geochemical studies of Au-Ag mineralization.

Author

Volkov, A., Sidorov, A., Savva, N., Prokof'ev, V., Kolova, E., Murashov, K., and Zemskova, M.

Subjects

GEOCHEMISTRY, IGNEOUS intrusions, MINERALIZATION, PALEOZOIC Era, OROGENIC belts, VOLCANOES

Abstract

This paper is concerned with the geochemical features and conditions of generation for Paleozoic Au-Ag mineralization in the pre-accretionary Kedon (D) volcano-plutonic belt (KVB), which is situated within the Omolon cratonic terrane (Northeast Russia). We present new data on the compositions and concentrations of trace elements and rare-earth elements (REEs) in the host rocks and volcanogenic ores of epithermal Au-Ag fields. The ores are found to be enriched in a wide range of trace elements. The general features of the ores under study include a low level of REE concentrations, an obvious enrichment in light REEs, and considerable variations in europium anomalies, ranging from low negative to low- and strongly positive. Fluid inclusions were studied to show that the ore-forming solutions were hydrocarbonate potassium in composition. The mineral content of the fluid increases toward later, low-temperature phases of the mineralization. We found a tendency of potassium increasing from the earlier oreless quartz to productive quartz going to great depth, as well as a slow decrease in the concentrations of Na, Ca, and Cl. The productive quartz shows direct correlation in Ag-K and a reverse correlation in Ag-Na. The results indicate andesite magmas and meteoric water as the most likely sources of the fluids that have formed epithermal Au-Ag ores in the KVB deposits. [ABSTRACT FROM AUTHOR]

Published

2017

100. SILURIAN AND DEVONIAN HETEROCONCHIA CARDIOMORPHI BIVALVES FROM BOLIVIA.

Author

DALENZ FARJAT, ALEJANDRA, SUÁREZ RIGLOS, MARIO, and ORTIZ, JOSÉ L.

Subjects

*WATERSHEDS, *PALEOZOIC Era, *OUTCROPS (Geology), *BASALT outcrops, GONDWANA (Continent)

Abstract

Heteroconchia Cardiomorphi bivalves from Silurian and Devonian beds of the Central Andean Basin of Western Gondwana are herein presented. This paper is not only a systematic updated revision of three Heteroconchia Cardiomorphi genera, but it also includes the description of new findings and first reports of some taxa in the basin. They were collected in nine scattered outcrops in the Interandean and Subandean regions of Bolivia. A total of 22 specimens, well- to regularly-preserved was studied. The genus Pleurodapis, is reported for the first time from Ludlow-pridoli successions of Alarache, southern Subandean as Pleurodapis sp. A. The cosmopolitan genus Paracyclas is reported in the Central Andean Basin for the first time, from the Middle Devonian of Subandean as Paracyclas? sp. The species Pleurodapis multicincta and Cardiomorpha oblonga, are described from the central Subandean and the Interandean regions for the first time in the basin. This research is also a contribution to understand the distribution and the richness of Silurian and Devonian bivalves in Central Andean Basin and their relations with the surrounding basins of Gondwana. [ABSTRACT FROM AUTHOR]

Published

2021