Evolution des reseaux hydrographiques au contact Cevennes-Grands Causses meridionaux; consequences sur l'evaluation de la surrection tectonique

2001 ◽  
Vol 172 (5) ◽  
pp. 549-562 ◽  
Author(s):  
Hubert Camus
Keyword(s):  
Network Evolution ◽  
River Network ◽  
Driving Mechanism ◽  
Sea Level Changes ◽  
Massif Central ◽  
The North ◽  
Vertical Incision ◽  
History Of ◽  
Surrounding Areas ◽  
The Hill

Abstract The Mediterranean catchment of the Cevennes (S. France) presents deep incision of the river network (fig. 1 and 2). Combined geomorphology and analyses of the residual sedimentary formations allows to reconstruct a complex history of river network evolution, including capture of tributaries of the Herault River (fig. 1, 2 and 3). The history of uplift of the upstream drainage area could be estimated from the provenance studies of the fluvial and karstic deposits, however river incision is also controlled sea-level changes and differential erosion, which makes reconstruction more complex. Allochthonous clasts types: Analyses of allochthonous deposits on the Grands Causses surface reveals different origin for sediments from the hill top and the Airoles valley (fig. 4 b), which was previously unrecognised. Facies 1 is found on the highest points of the Grands Causses surface (well sorted rounded quartz pebbles in red shale matrix) it corresponds to a weathered residual sediments (dismantling of an ancient cover). Facies 2 is found on the slope of the Airoles Valley (fig. 7). It consists of alluvial crystalline poorly sorted clasts with outsized clasts (up to 50 cm) of quartz-vein, schists in a matrix of shales and sand (weathered granite). Between the hill tops and the Airoles Valley, karstic network presents a sediment fill with clasts reworked from facies 1 and facies 2 (fig. 6). Airoles valley model; an example of diachronic formation of drainage network: The Airoles dry valley stretches on the Grands Causses from the north (700 m) to the south into the present thalweg line of the Vis canyon (500 m) (fig. 1b & 3). Crystalline deposits witness an ancient catchment in the Cevennes. Presently, the catchment in the crystalline basement is disconnected and captured by the Arre River flowing eastwards (fig. 3 & 4a). The profile of the Airoles abandoned valley connects with the present Vis Canyon, therefore, at the time of capture, incision of the Vis canyon had reached its present altitude (fig. 4a). The geomorphologic evolution of this area took place in three stages (fig. 8). 1) The Grands Causses acted as piedmont for the crystalline highlands of the Massif Central (fig. 8A). A latter karstic evolution (tropical climate) allowed the weathered residual sediments (facies 1) (fig. 8A). 2) Incision of the Vis karstic canyon implies that the Herault incision and terraces (facies 2) (fig. 8B) of the Airoles valley occurred during this stage. 3) The Arre valley head propagates westward by regressive erosion and finally captured the Airoles river crystalline catchment (fig. 8C). Consequence for the Cevennes uplift and hydrographic network development: Although the values of present vertical incision in the Vis canyon and in the Arre valley are similar, but they achieved at different time. In addition, the narrow and deep canyon of the Vis is due to vertical incision from the karstic surface of the Grands Causses, whereas the Arre wide valley results from (a younger) lateral slopes retreat from a low Herault base-level. The Vis karstic canyon developed in a similar way to the major karstic canyons of both Mediterranean and Atlantic catchment (i.e. Tarn). This rules out a Messinian Mediterranean desiccation as incision driving mechanism and suggests tectonic uplift of the Cevennes and surrounding areas. The Tarn being already incised by 13 My [Ambert, 1990], it implies a Miocene age for the incision. Conclusion: The amplitude of the vertical incision cannot therefore be used in a simple way to interpret the uplift history of the basement. Consequently, geomorphologic analysis appears to be a prerequisite to distinguish the part played by each factor, and to select the site of uplift measurement.

Excavations in Caria

1887 ◽  
Vol 8 ◽  
pp. 64-82 ◽  
Author(s):  
W. R. Paton
Keyword(s):  
Great Part ◽  
The West ◽  
The Road ◽  
North East ◽  
The North ◽  
History Of ◽  
The Hill ◽  
To Receive ◽  
The Way

Mr. Newton in his History of Discoveries, p. 583, gives the following account of an excursion to the peninsula which lies to the west of Budrum (Halikarnassus) where he was then excavating:—We next proceeded to examine the hill with the level top. This hill is called Assarlik.Ascending from this gateway we passed several other lines of ancient walls, and on gaining the summit of the hill found a platform artificially levelled. There are not many traces of walls here. The sides of the hill are so steep on the north and east that they do not require walls. The platform terminates on the north-east in a rock rising vertically for many hundred feet from the valley below. The top of the rock is cut into beds to receive a tower. The view from this platform is magnificent.[After brief mention of several tombs passed in the way down, Mr. Newton proceeds:]The acropolis which anciently crowned the rock at Assarlik must have overlooked a great part of the peninsula and commanded the road from Halicarnassus to Myndus and Termera. From the number of tombs here, and their archaic character, it may be inferred that this was a fortress of some importance in very early times.

Tremadocian (Lower Ordovician) sea-level changes and biotas on the Avalon microcontinent

2011 ◽  
Vol 85 (4) ◽  
pp. 678-694 ◽  
Author(s):  
ED Landing ◽  
Richard A. Fortey
Keyword(s):  
Sea Level ◽  
Sea Level Changes ◽  
Low Oxygen ◽  
Cape Breton Island ◽  
Lower Upper ◽  
The North ◽  
Cape Breton ◽  
Lower Ordovician ◽  
Bottom Waters ◽  
History Of

The Chesley Drive Group, an Upper Cambrian-Lower Ordovician mudstone-dominated unit, is part of the Ediacaran–Ordovician cover sequence on the North American part of the Avalon microcontinent. The upper Chesley Drive Group on McLeod Brook, Cape Breton Island (previously “McLeod Brook Formation”), has two lithofacies-specific Tremadocian biotas. An older low-diversity benthic assemblage (shallow burrowers, Bathysiphon, phosphatic brachiopods, asaphid trilobites) is in lower upper Tremadocian green-gray mudstone. This wave-influenced, slightly dysoxic facies has Bathysiphon–brachiopod shell lags in ripple troughs. The upper fauna (ca. 483 +/- 1 Ma) is in dysoxic-anoxic (d-a), unburrowed, dark gray-black, upper upper (but not uppermost) Tremadocian mudstone with a “mass kill” of the olenid Peltocare rotundifrons (Matthew)—a provincial trilobite in Avalonian North America that likely tolerated low oxygen bottom waters. Scandodus avalonensis Landing n. sp. and Lagenochitina aff. conifundus (Poumot), probable nektic elements and the first upper Tremadocian conodont and chitinozoan reported from Avalon, occur in diagenetic calcareous nodules in the dark gray-black mudstone. An upper Tremadocian transition from lower greenish to upper black mudstone is not exposed on McLeod Brook, but is comparable to a coeval green-black mudstone transition in Avalonian England. The successions suggest that late late Tremadocian (probable Baltic Hunnebergian Age) sea level was higher in Avalon than is suggested from successions on other paleocontinents. The Tremadocian sea-level history of Avalon was a shoaling-deepening-shoaling sequence from d-a black mudstone (lower Tremadocian), to dysoxic green mudstone (lower upper Tremadocian), and back to black mudstone (upper upper Tremadocian).Scandodus Lindström is emended, with the early species S. avalonensis Landing n. sp. assigned to the emended Family Protopanderodontidae. Triangulodus Van Wamel is considered a junior synonym of Scandodus. Peltocare rotundifrons is emended on the basis of complete specimens.

scholarly journals North Carolina Books

2011 ◽  
Vol 68 (1) ◽  
pp. 23
Author(s):  
Eileen McGrath
Keyword(s):  
North Carolina ◽  
Jim Crow ◽  
Jewish Life ◽  
Red Clay ◽  
Race Riot ◽  
The North ◽  
Race Identity ◽  
History Of ◽  
The Hill ◽  
Jim Crow South

Compiled by Eileen McGrath, the following books are included: The North Carolina Gazetter: A Dictionary of Tar Heel Places and Their History; Becoming Elizabeth Lawrence: Discovered Letters of a Southern Gardener; The Southern Mind under Union Rule: The Diary of James Rumley; A Day of Blood: The 1898 Wilmington Race Riot; Kay Kyser: The Ol' Professor of Sing! America's Forgotten Superstar; Haven on the Hill: A History of North Carolina's Dorothea Dix Hospital; Middle of the Air; Lumbee Indians in the Jim Crow South: Race, Identity, and the Making of a Nation; Cow across America; Real NASCAR: White Lightning, Red Clay, and Big Bill France; 27 Views of Hillsborough: A Southern Town in Prose & Poetry; Twelve by Twelve: A One Room Cabin off the Grid and beyond the American Dream; and Down Home: Jewish Life in North Carolina.

scholarly journals Depositional environment of the Branch Sandstone and correlative sequences: Late Cretaceous changes in relative sea level in the East Coast Basin of New Zealand

2021 ◽  
Author(s):  
◽  
Lisa McCarthy
Keyword(s):  
Sea Level ◽  
East Coast ◽  
Depositional Environments ◽  
Passive Margin ◽  
Sea Level Changes ◽  
Relative Sea Level ◽  
Sea Level Fluctuations ◽  
The North ◽  
Tasman Sea ◽  
History Of

<p>The Branch Sandstone is located within an overall transgressive, marine sedimentary succession in Marlborough, on the East Coast of New Zealand’s South Island. It has previously been interpreted as an anomalous sedimentary unit that was inferred to indicate abrupt and dramatic shallowing. The development of a presumed short-lived regressive deposit was thought to reflect a change in relative sea level, which had significant implications for the geological history of the Marlborough region, and regionally for the East Coast Basin.  The distribution and lithology of Branch Sandstone is described in detail from outcrop studies at Branch Stream, and through the compilation of existing regional data. Two approximately correlative sections from the East Coast of the North Island (Tangaruhe Stream and Angora Stream) are also examined to provide regional context. Depositional environments were interpreted using sedimentology and palynology, and age control was developed from dinoflagellate biostratigraphy. Data derived from these methods were combined with the work of previous authors to establish depositional models for each section which were then interpreted in the context of relative sea level fluctuations.  At Branch Stream, Branch Sandstone is interpreted as a shelfal marine sandstone, that disconformably overlies Herring Formation. The Branch Sandstone is interpreted as a more distal deposit than uppermost Herring Formation, whilst the disconformity is suggested to have developed during a fall in relative sea level. At Branch Stream, higher frequency tectonic or eustatic sea-level changes can therefore be distinguished within a passive margin sedimentary sequence, where sedimentation broadly reflects subsidence following rifting of the Tasman Sea. Development of a long-lived disconformity at Tangaruhe Stream and deposition of sediment gravity flow deposits at Angora Stream occurred at similar times to the fall in relative sea level documented at the top of the Herring Formation at Branch Stream. These features may reflect a basin-wide relative sea-level event, that coincides with global records of eustatic sea level fall.</p>

scholarly journals Mantle plumes and sequence stratigraphy; Late Maastrichtian- Early Paleocene of West Greenland

2001 ◽  
Vol 48 ◽  
pp. 189-207
Author(s):  
Gregers Dam
Keyword(s):  
Rapid Development ◽  
Flood Basalt ◽  
Mantle Plumes ◽  
Sea Level Changes ◽  
West Greenland ◽  
Sedimentary Sequences ◽  
The North ◽  
Early Paleocene ◽  
History Of ◽  
Sequence Boundaries

The sedimentary history of the upper Maastrichtian–Paleocene succession underneath the extensive Paleocene flood basalts in central West Greenland supports models for the generation of flood basalt provinces in response to rising, hot mantle plumes. The rise of the North Atlantic mantle plume was associated with deposition of at least three sedimentary sequences; each associated with incision of submarine canyons and valleys. Relative sea-level changes were caused by plumerelated tectonics and generation of sequence boundaries was in general associated with catastrophic sedimentation and very rapid development of sequences. As such the late Maastrichtian–early Paleocene sequences record a spectacular and significant but rare geological event.

scholarly journals Mainland versus Island Adaptation: Paleobiogeography of Sunda Shelf Primates Revisited

2020 ◽  
Author(s):  
Halmi Insani ◽  
Masanaru Takai
Keyword(s):  
Homo Erectus ◽  
Sea Level Changes ◽  
Sunda Shelf ◽  
The North ◽  
Biogeographical Distribution ◽  
Paleoclimatic Changes ◽  
Wide Range ◽  
History Of ◽  
Dispersal Events ◽  
Human Primate

Southeast Asian primates appear to be one of the most successful mammals in the dynamic paleoclimatic changes since at least 1 mya. Human and non-human primates reflect the complex history of a wide range of ecological and geographic variation, which presents to be the source of different systematics and biogeographic models. The past combinative effects of geographic factors (latitude, bathymetric barrier, and duration of island isolation), periodic sea level changes, and the contribution of human and/or non-human primate interaction are crucial subjects in studying the north-to-south, which is from continental to archipelago of Sunda Shelf, dispersal events and phylogeographic analysis of human and non-human primates. Cranial size and shape difference between Homo erectus in mainland and island displays peculiarity on the effect of insularity. Data analyses on cranial landmarks of three non-human primate genera provide more clear resolution to reconstruct the complete scenario, whereby insular primates are dispersed and adapted to their present biogeographical distribution.

scholarly journals Fibula-Brooch with Pendants from the Barrow Studied in the Northern Surrounding Areas of Cherkessk

2019 ◽  
pp. 19-33
Author(s):  
Yury Prokopenko ◽  
Svetlana Kravtsova
Keyword(s):  
North Caucasus ◽  
State Farm ◽  
The North ◽  
First Case ◽  
History Of ◽  
Production Technologies ◽  
The Republic ◽  
Surrounding Areas ◽  
Simplified Modeling ◽  
Western Ciscaucasia

Introduction. The article is devoted to characterizing the decorative features of the fibulabrooch discovered during the study of the mound in the northern surrounding areas of Cherkessk (territory of the Republic of Karachay-Cherkessia) and stored in the collection of the Stavropol State Museum. The aim of the publication is to introduce the poorly known scientific material into scientific use. A full set of illustrations and accurate measurements will further avoid confusion with the description of the specific artifact (in existing publications there are no drawings; conclusions are based only on photos). Explanations relate to the history of the brooch and details of its decoration. Methods. The comparative typological method is used as a working one. It is based on the classification by material, processing method, form, ornamentation, as well as identifying and studying types of brooches with pendants. The comparative analysis of the decor of the brooch from the Stavropol museum and similar brooches with pendants found in the western part of the North Caucasus shows the variety of polychrome decoration production technologies in the region in the 3rd – 1st centuries BC: preserving the traditions of Bosporan jewelry art; distribution of the elements of Colchian toreutics. Analysis. The paper considers design features of brooches from the Stavropol museum and monuments of the Western Ciscaucasia: details of zoomorphic figurines; characteristics of caste design; wire inlay; form and features of enamel inserts; character of pendant weaving and features of the design of suspended discs. Results. In the production of hollow zoomorphic images of the 3rd – 1st century BC there were two lines of development: 1) simplified modeling of figurines modeled on the pattern of Colchian products of the 5th – 4th centuries BC (Psenafa and others); 2) continuation of the tradition of producing jewelry with enamel (brooch from the mound in the land of Rodina state farm). In the first case, the simplicity and negligence of execution evidence established local production of imitations of Colchian images. In the second case, elegance of images and refinement of execution emphasize the creation of brooches of Karachay-Cherkessia in one of the centers of Bosporus toreutics which was under the influence of Colchian jewelry.

The sea as a dynamic and hybrid landscape

2011 ◽  
Author(s):  
Robert Van de Noort
Keyword(s):  
North Sea ◽  
Late Glacial ◽  
Sea Level Changes ◽  
The North ◽  
History Of Research ◽  
Research Activities ◽  
Dynamic Landscape ◽  
History Of ◽  
The North Sea ◽  
The 19Th Century

Since the last glacial maximum, some 22,000 years ago, the North Sea basin has undergone many transformational changes. Largely covered by ice at the beginning of the period, it became successively an arctic-like tundra, a ‘park-like’ landscape of extended grassland with shrubs and trees, a tundra again, and a plain with light woodland cover that was submerged eventually by the expanding North Sea (Coles 1998: 69–75). As the North Sea rose, over the last 5,000 years, to within a few metres of its current level, the interior of the sea did not alter significantly apart from changes in tidal patterns and depth. But on the periphery of the North Sea basin, the slighter sea-level changes added to the effects of marine and alluvial sedimentation and erosion and produced, regionally, periods of marine transgression—when the influence of the sea moved landwards—and marine regression, resulting in the opposite effect. The North Sea, throughout its history, has been the dynamic landscape par excellence. The history of research into the North Sea basin goes back to the 19th century, and will be discussed further below, but it was Bryony Coles’ article ‘Doggerland: a speculative survey’ (1998), which first raised the profile of the Late-glacial and early Holocene archaeology of the North Sea and inspired many of the current research activities, especially those relating to the southern North Sea basin. The renewed interest in the Mesolithic and Neolithic archaeology of the North Sea has made some significant advances, and holds the promise of even greater returns once the high-resolution reconstructions of the North Sea Plain are integrated with the archaeological finds. A series of publications has recently presented new archaeological sites. New finds from trawler fishing along the various banks in the North Sea, and from the margins (e.g. Flemming 2004; Waddington and Pedersen 2007), as well as the use of SCUBA technology (e.g. in Fisher 1995), will be discussed below. This chapter offers brief overviews of the history of North Sea research, the creation of the North Sea, and the archaeological evidence of human activity in the period from about 10,000 to 2000 cal bc.

Early Greek Vases from Knossos

1928 ◽  
Vol 29 ◽  
pp. 224-298 ◽  
Author(s):  
H. G. G. Payne
Keyword(s):  
Empty Space ◽  
Western Slope ◽  
The North ◽  
Straight Line ◽  
Greek Vases ◽  
History Of ◽  
The Right ◽  
The Hill

The vases to be discussed in this paper come from two separate excavations at Knossos: the greater number from two tombs excavated by Sir Arthur Evans in 1907, the rest from one of several tombs which I excavated three years ago. The three tombs in question lie a little less than a mile to the north of the Palace, at the foot of the western slope of the hill known as Zafer Papoura (cf. Fig. 1); they are cut into a low bank, immediately to the right of the footpath as one goes from Makry Teichos to Isopata, and are marked in Fig. 1 by a black bar. A glance at the map will shew that this group of tombs is in the same straight line as the group which was excavated by Hogarth in 1899. Hogarth's tombs are at the foot of a rather higher bank which is obviously part of the same formation. There is, however, a break between the two banks, and as the greater part of it is covered by a vineyard it is impossible to tell precisely how closely the two groups of tombs are connected. But even if there is an empty space between them, it is certain the history of the two groups of tombs is the same.

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