Pre-Permian uplift and diffuse extensional deformation in the High Zagros Belt (Iran): integration in the geodynamic evolution of the Arabian plate

The High Zagros Belt includes exposures of Lower Palaeozoic rocks in the core of several thrusted anticlines developed during the Cenozoic Zagros orogeny. The structural style and tectonic evolution of this area during the Palaeozoic remain poorly understood due to the complexity of the subsequent deformation. We present the preliminary results of a field study focusing on the structural geology of Palaeozoic rocks in this area. We confirm the existence of an angular unconformity below the Lower Permian Faraghan formation. In the geological literature, this unconformity is reported as the “Hercynian Unconformity” suggesting a relationship with the Hercynian (Variscan) orogeny, which affected Western Europe and westernmost Africa during the Carboniferous. Surprisingly the only observable structures sealed by this unconformity are N to NE trending normal faults and tilted blocks without any evidence of compressional deformation. This pre-Permian extensional deformation, which is general at the scale of the HZB, raises questions about the geodynamic significance of the “Hercynian unconformity” in the study area and, more generally, in the Arabian plate.     

The Devonian history of northeastern Australia

Devonian rocks occur in northeastern Australia within the ‘Tasman Geosyncline’ in three major tectonic divisions—(a) a very broad mobile platform related to the last stages of stabilisation of the Lachlan Geosyncline, marginal to which is found, (b) the volcanic‐rich New England Geosyncline, and (c) a contrasting region in northern Queensland where complex marine to continental sedimentation occurred on cratonic blocks while non‐volcanic flysch‐like sedimentation occurred in the marginal Hodgkinson Basin.

The tectonic setting was governed by differences in the nature of the continental margin, so that the New England Geosyncline and Hodgkinson Basin, which developed along the eastern margin of the continent from the earliest Devonian to the late Palaeozoic, show correspondingly different sedimentation and deformation histories.

An integrated account of the Devonian geology of these regions is given, leading to.an interpretation of the environments of the Devonian in terms of plate‐tectonic movements, generally from the east.

Postulated tectonic zones within the New England Geosyncline region include pre‐Devonian deep ocean deposits with mild high‐pressure low‐temperature meta‐morphism, and Devonian volcanic arc and marginal sea volcanic‐derived deposits. Within the mobile platform to the west, variable marine and continental deposits are associated with volcanicity in the zone transitional to the New England Geosyncline. In the northern region, rifting of the craton and development of an Atlantic‐type margin was followed by subduction with folding and metamorphism at the end of the Devonian.

The Devonian rocks are strongly affected by intense late Palaeozoic tectonic and igneous activity in the eastern marginal regions, but only minor effects are seen to the west.     

Financial statement as at 31 December 1969

The Tasman Line, a much‐discussed concept in the geology and tectonics of eastern Australia, has a long and chequered history of interpretation. This extends to current debates regarding the age and position of the Tasman Line in Gondwana‐Rodinia reconstructions. We present constraints, from mapping, geochemistry and geophysics, on the interpretation of gravity and magnetic lineaments attributed to the Tasman Line in New South Wales, South Australia, Victoria and Tasmania. These pieces of evidence suggest a protracted and complex latest Neoproterozoic to Carboniferous geological history that produces a variety of geophysical responses, rather than a simple ‘Line’. We also find no evidence of Rodinian breakup age activity responsible for any of the anomalies. In light of these findings, our preference is that the Tasman Line concept be abandoned as misleading, especially with regard to models of Rodinia‐Gondwana breakup, which must have occurred elsewhere, possibly well to the east. Instead, the rocks preserved in the westernmost part of the Tasmanides are consistent with previously proposed ‘Southwest Pacific’‐style models for Neoproterozoic continental breakup, margin formation and reaccretion of continental fragments in the Early Palaeozoic.     

Geophysical surveys to help map buried igneous intrusions,Snowdonia, North Wales,UK

The geology of the Snowdonia National Park in North Wales comprises a mixture of Lower Palaeozoic shallow marine sediments, acidic igneous rocks and basic intrusions of the Welsh Basin that were subsequently deformed during the Caledonian Orogeny. Thin igneous intrusions are challenging to map due to variable surface exposures, their intrusive origin, structural deformation and burial by glacial sediments. This study used a combination of traditional geological techniques, near‐surface geophysical surveys and remote sensing to detect and map a buried dolerite sheet intrusion. Both simple and mathematical analysis of magnetic anomalies and numerical modelling allowed the dolerite position, depths and target widths to be determined. Results showed that calibrated magnetic surveys can characterize buried igneous bodies in such mountainous environments.     

Central England's journey through time: the geological evolution of Warwickshire

The central English county of Warwickshire has been shaped by a 600 million‐year history of deposition, erosion, tectonism, continental drift, environmental change and biological evolution. The Neoproterozoic and Lower Palaeozoic rocks indicate island arc accretion, marine transgression and subduction‐related intrusive igneous activity. Upper Palaeozoic through to Triassic times witnessed mainly continental environments, as central England drifted north across the equator. Late Triassic marine transgression led to deposition of richly fossiliferous Jurassic sediments. The bedrock geology shows evidence for the influence of deep‐seated structural lineaments within the central English basement. Influenced by these structures, the modern landscape has been shaped largely by Palaeogene and Neogene uplift and erosion, further alteration by Quaternary erosion and weathering, and glacial and fluvial deposition.     

The bluestones of Stonehenge

How and why the bluestones arrived at Stonehenge, the UK's most revered ancient monument, has long held people's imagination. The key to understanding these questions relies heavily on the location of their sources. Following early studies in the late eighteenth and early nineteenth centuries, which proposed various places but in particular south‐west England, H.H. Thomas, in 1923, suggested that they came from the Mynydd Preseli, in north Pembrokeshire, Wales. Thomas proposed a number of key locations for the geographical origin of the stones. However, recent investigations have called those locations into question, identifying different sources albeit from the same broad area in north Pembrokeshire. Identification of these proposed new sites has led to archaeological excavations and important new discoveries including new suggested routes for the transport of the bluestones from the Preseli Hills to Stonehenge some 230 km away.     

The variscan geology of the Pyrenees

The main outlines of the geology of the Variscan part of the Pyrenees are discussed. Rocks involved in this cycle are high-grade basement gneisses, Palaeozoic sediments and their metamorphic equivalents, late intrusive granodiorites and early, pre-Variscan granites. The main features of the stratigraphy of the Palaeozoic are given.Structures fall into two domains: a low-grade suprastructure, essentially with steep folds and cleavages, and a high-grade infrastructure with dominantly low-dipping foliations. An important phase of early, pre-cleavage folding occurs in low-grade rocks mainly along the southern border of the Axial zone. In high-grade rocks most structures and the metamorphism postdate the main cleavage phase in low-grade rocks. The influence of the Alpine orogeny on the Variscan structures consists mainly of faults, steep, reverse faults in the northern, and south-directed thrusts in the southern part of the Pyrenees. Metamorphism took place under high geothermal gradients and low pressures, as indicated by the abundant occurrence of andalusite and cordierite     

The crustal evolution of South America from a zircon Hf‐isotope perspective

Hf‐isotope data of >1100 detrital zircon grains from the Palaeozoic, south‐central Andean Gondwana margin record the complete crustal evolution of South America, which was the predominant source. The oldest grains, with crustal residence ages of 3.8–4.0 Ga, are consistent with complete recycling of existing continental crust around 4 Ga. We confirm three major Archaean, Palaeoproterozoic (Transamazonian) and late Mesoproterozoic to early Neoproterozoic crust‐addition phases as well as six igneous phases during Proterozoic to Palaeozoic time involving mixing of juvenile and crustally reworked material. A late Mesoproterozoic to early Neoproterozoic, Grenville‐age igneous belt can be postulated along the palaeo‐margin of South America. This belt was the basement for later magmatic arcs and accreted allochthonous microcontinents as recorded by similar crustal residence ages. Crustal reworking likely dominated over juvenile addition during the Palaeozoic era, and Proterozoic and Archaean zircon was mainly crustally reworked from the eroding, thickened Ordovician Famatinian arc.     

Geological comparison of precambrian and early palaeozoic terrains between the Southern West Coast of Africa and the South-East Coast of South America

This paper describes a geological comparison of similar lithostratigraphic sequences of Proterozoic and early Palaeozoic ages between the southern west coast of Africa (Namibia and South Africa) and the south-east coast of South America (Brazil and Uruguay). The oldest terrains present within the compared regions are those comprising the Rio de la Plata and the Richtersveld Provinces of ~ 2000 Ma. Both provinces appear to have evolved from earlier Archaean terrains, i.e., the Guapore Craton in South America and the Kalahari Craton in southern Africa, during the Transamazonic and Eburnian orogenic cycles, respectively. Both the Namaqua Province, affected by the Kibaran orogenesis at ~ 1200 Ma, and the Sinclair Group of 1300 Ma seem to have no comparable geological counterparts in southern Brazil and Uruguay.The late Precambrian—early Palaeozoic successions of the Gariep and Ribeira belts investigated here seem to be remarkably similar and it is suggested that they were parts of the same geological unit, i.e., a mobile belt, developed during the Pan-African-Brasil- iano orogenesis. Geological comparisons are particularly good between the Gariep, Porongos and Lavalleja Groups, and stratigraphic correlations can be successfully at- tempted even between geological formations, i.e., Marica, Piedra de Afilar and Stink- fontein Formations.The lack of detailed geological maps for South America makes it difficult to separate different geological formations from broad lithostratigraphic successions and, consequent- ly, comparisons can only be drawn between subgroups and several geological formations, i.e., Vacacai and Minas Subgroups with Grootderm Holgat and Oranjemund Formations. The extensive magmatic activity generated during the Brasiliano orogenesis and only present in the south-east coast of South America has not affected the southern west coast of Africa. However, two post-tectonic complexes, i.e., the Kuboos—Bremen line of intrusives and the Sierra de Animas Complex appear to be geochronologically analogous and petrologically they seem to have certain similarities. It is also suggested that the Camaqua Group in southern Brazil and the Nama Group could perhaps have certain similarities within their lithological successions and their ages may be also com- parable.The late stages of the geological evolution of the basin, represented by molassic sediments, are only present in south-east Brazil. Finally an interpretation is given of the geological evolution of the Proterozoic—early Palaeozoic terrains compared in this work.     

Ordovician‐Silurian accretion tectonics of the Lachlan Fold Belt,southeastern Australia

Palaeolatitude data obtained from palaeomagnetic studies of Australian formations are described and compared with the palaeoclimatic zones inferred from geological observations. The two techniques produce results which agree for most of the Palaeozoic. Only for the Early Cambrian (and late Proterozoic) and Mesozoic do the climatic indicators appear to contradict the palaeolatitude evidence. It is pointed out that each of these geological intervals follows immediately a period of widespread glaciation.     

Quantitative Geoscience and Geological Big Data Development: A Review

After long-term development, mathematical geology has today become an independent discipline. Big Data science, which has become a new scientific paradigm in the 21 st century, gives rise to the geological Big Data, i.e. mathematical geology and quantitative geoscience. Thanks to a robust macro strategy for big data, China’s quantitative geoscience and geological big data’s rapid development meets present requirements and has kept up with international levels. This paper presents China’s decade-long achievements in quantitative prediction and assessment of mineral resources, geoscience information and software systems, geological information platform development, etc., with an emphasis on application of geological big data in informatics, quantitative mineral prediction, geological environment and disaster management, digital land survey, digital city, etc. Looking ahead, mathematical geology is moving towards "Digital Geology", "Digital Land" and "Geological Cloud", eventually realizing China’s grand "Digital China" blueprint, and these valuable results will be showcased on the international academic arena.     

东天山北部金矿成矿地质环境

概述新疆东天山北部大地构造单元后，着重论述了克拉麦里板块活动及其两侧喀尔力克和库兰卡孜干晚古生代岛弧金矿成矿地质环境、成矿条件，以及区域和主要类型金矿床成矿机制。     

Provenance record of late Maastrichtian–late Palaeocene Andean Mountain building in the Amazonian retroarc foreland basin (Madre de Dios basin,Peru)

Biostratigraphic, sedimentological and provenance analyses suggest that a proto‐Andean Cordillera already existed in southern Peru by late Maastrichtian–late Palaeocene times. A 270‐m‐thick stratigraphic section shows changes in depositional environments from shallow marine (early Maastrichtian) to non‐marine (late Maastrichtian) then back to estuarine (late Palaeocene) conditions. An erosional surface separates lower Maastrichtian from upper Maastrichtian deposits. Above this surface, the late Maastrichtian unit exhibits moderately developed palaeosols and syn‐sedimentary normal faults. The sedimentary evolution is accompanied by a decrease in sedimentation rate and by changes in provenance. Shallow marine lower Maastrichtian deposits have a cratonic provenance as shown by their low εNd(0) values (?15 to ?16) and the presence of Precambrian inherited zircon grains. The upper Maastrichtian deposits have a mixed Andean and cratonic origin with εNd(0) values of ~12.6 and yield the first Cretaceous and Permo‐Triassic zircon grains. Estuarine to shallow marine upper Palaeocene deposits have an Andean dominant source as attested by higher εNd(0) values (?6 to ?10) and by the presence of Palaeozoic and Late Cretaceous zircon grains. The changes in depositional environments and sedimentation rates, as well as the shift in detrital provenance, are consistent with a late Maastrichtian–late Palaeocene period of Andean mountain building. In agreement with recently published studies, our data suggest that an Andean retroarc foreland basin was active by late Maastrichtian–late Palaeocene times.     

莫里青断陷西部双阳组（始新世）的浊积扇沉积特征

莫里青断陷西部在始新世双阳组沉积时期发育ＮＥ，ＳＷ和ＮＷ方向三个浊积扇体，其中ＮＥ向浊积扇体仅发育于湖平面上升初期（双一段沉积时期），ＳＷ向浊积扇体在湖平面上升初期、上升早期和快速上升时期（双一，双二和双三段沉积时期）始终存在，而ＮＷ向浊积扇体形成于湖平面上升早期（双二段沉积时期），并一直持续到湖平面快速上升时期（双三段沉积时期）。目前在区内仅钻遇中扇水道、中扇过渡带和外扇沉积。     

西秦岭温泉钼矿床地质—地球化学 特征与成矿过程探讨

[摘 要]温泉钼矿床的形成与西秦岭造山带印支期碰撞造山事件和岩浆活动密切相关。西秦岭温泉钼矿床成因及成矿过程的研究成为揭示印支期秦岭造山带构造体制转换与大规模成矿关系的关键,对发展秦岭造山带印支期成矿理论和印支期花岗岩的成矿潜力评价以及找矿勘探都具有重要意义。本文在前人对温泉钼矿床区域地质和矿床地质研究的基础上,对该矿床的矿床地质-地球化学特征做了进一步的综合研究,结果表明温泉钼矿床成矿物质来源于花岗岩浆气水热液,成矿与印支晚期花岗质岩浆结晶分异过程中产生的岩浆热液活动密切相关;温泉钼矿床具备岩浆热液型矿床的地质特征,其成矿过程为:晚三叠世秦岭造山带发生由挤压向伸展转变的构造体制转换引起下地壳发生熔融形成富含Mo的花岗质岩浆,岩浆在结晶过程中冷凝分异出的成矿流体经充填和交代作用而使Mo 富集形成矿床     

Considerations regarding the definition of a geochemical baseline of elements in the surficial materials in areas differing in basic geology

The problem of a geochemical baseline in areas differing in basic geology was studied by comparing the results of regional geochemical mapping programmes undertaken in Finland and Lithuania using different sample media and a variety of analytical methods. The authors discuss issues relevant to the definition of a geochemical baseline.Most of the differences in geochemical baselines between Lithuania and Finland are due to the dissimilarities in basic geology, which in Lithuania is controlled by Palaeozoic and Mesozoic sedimentary rocks, but in Finland by Archaean and Proterozoic metamorphic and intrusive rocks. Other important factors are the geological processes that after the last glaciation created the present surficial materials. In Finland, for instance, the abundances of potentially harmful elements derived from crystalline bedrock tend to be higher than in Lithuania. However, in both countries element concentrations are higher in finely-grained marine and lacustrine sediments than in glacial till, and they are also higher in the finer grain size fractions than in the coarser fractions of till samples. Only a small proportion of the total heavy metal concentrations is bioavailable. Thus the baseline concentrations depend not only on the basic geology, but also on sample material collected, its grain size and the extraction method.     

The sequence of geological events and the dynamics of the Milky Way galaxy

Present‐day galactic data permit the construction of a galactic model in which the galactic gravitational field is described by a gravitational function rather than the Newtonian gravitational “constant” G. The concept of this empirical gravitational function, which is based on galactic orbital velocity data, envisages G as a function of time and space. In this model the interaction of this gravitational function, which has rotational symmetry in the galactic plane, and the slightly elliptical galactic orbit of the solar system results in a systematic variation of G. This interaction specifies a simple galactic time‐scale which can be conveniently compared with events of the geological time‐scale. For reasons of galactic evolution and modifying effects due to suspected changes of mass distributions in the universe with the passage of time, which are classed here under the Dirac‐Jordan Effect, such a comparison is initially restricted to the past 1#fr1/4> cosmic years, or 350 million years. The problems in extending such a comparison to 8 cosmic years are discussed, and such an extension seems promising, but it is hampered by the paucity of geological and geophysical data from the lower Palaeozoic and the Precambrian and the present uncertainties in regard to galactic evolution.

“Worldwide” statistical maxima and minima of the following geological criteria disclose an episodic correlation with the variation of G and the rates of change of G during the past 350 million years, as specified by this galactic model. It is possible to interpret this correlation in terms of accepted geological principles and concepts in most cases. The following geological phenomena are considered in this comparison of the galactic and geological time‐scales for the past 350 million years.

Period boundaries of the stratigraphic system     

Geological evolution of the Antongil Craton,NE Madagascar

The Antongil Craton, along with the Masora and Antananarivo cratons, make up the fundamental Archaean building blocks of the island of Madagascar. They were juxtaposed during the late-Neoproterozoic to early Palaeozoic assembly of Gondwana. In this paper we give a synthesis of the geology of the Antongil Craton and present previously published and new geochemical and U–Pb zircon analyses to provide an event history for its evolution.     

Ecological geology,environmental geology,geoecology: Contents and relations

The contents and relationships of environmental geology, ecological geology, and geoecology are discussed. It is shown that they differ in their subjects, directions and objects of investigation, as well as their scientific and practical tasks. Hence, these concepts and the spheres of knowledge they determine can be neither identified with nor substituted for each other because this inevitably causes terminological confusion and hampers the development of ecological problems, and not only in geology. Environmental geology, by its content, is a collection of data obtained by traditional geological sciences and has no specially developed conceptual base. It is an anthropocentrically oriented field of geological knowledge, unlike ecological geology, which is oriented biocentrically and has a wider volume. Geoecology is an interdisciplinary science studying the effect of all abiotic spheres of living matter. Ecologically oriented geological sciences are intended to provide information on only one of these spheres—the lithosphere.     

Detrital zircon geochronology of Palaeozoic Novaya Zemlya – a key to understanding the basement of the Barents Shelf

The Novaya Zemlya fold‐and‐thrust‐belt is the northern continuation of the late Palaeozoic Uralide Orogen. Little is known about its deeper structure and the basement history of the adjacent Barents and Kara shelves. Based on geological evidence and detrital zircon analysis of 28 samples from the northeastern and stratigraphically deepest part of the archipelago, we demonstrate that Cambro‐Ordovician turbidite‐dominated deposition was almost exclusively sourced from rocks consolidated during the Timanian orogeny (Timanian basement). A profound change in provenance occurred near the end of the Ordovician. Over 90% of the zircons from Silurian and about 80% from Devonian strata have ages characteristic of the Sveconorwegian Orogen, implying uplift of these rocks in the vicinity of Novaya Zemlya. The presence of Sveconorwegian and Grenvillian rocks in the high Arctic suggests revision of recent reconstructions of the Rodinia supercontinent, its break‐up and subsequent Caledonian orogeny.