The stratigraphy of the Supai formation in the Chino Valley area, Yavapai county, Arizona

Hughes, Paul Warren, 1919-

January 1950

No description available.

Geology, Stratigraphic.

Geology -- Arizona -- Yavapai County.

Detrital mineral studies of some Cenozoic sediments, Safford Valley, Arizona

Mathias, William Francis, 1934-

January 1959

No description available.

Geology -- Arizona -- Graham County.

Geology, Stratigraphic -- Cenozoic.

Late Cenozoic stratigraphy in the Dry Mountain area, Graham County, Arizona

Clay, Donald Wayne, 1933-

January 1960

No description available.

Geology -- Arizona -- Graham County.

Geology, Stratigraphic -- Cenozoic.

Pre-Devonian unconformity, Gila County, Arizona

Conrad, Robert Dale, 1924-

January 1964

No description available.

Geology -- Arizona -- Gila County.

Geology, Stratigraphic.

Stratigraphy, structure and composition of cement materials in north central California

Faick, John N.

January 1959

No description available.

Cement -- California.

Geology, Stratigraphic.

Minerals -- California.

Stratigraphic and tectonic evolution of the Jurassic Hazelton trough—Bowser basin, northwest British Columbia, Canada

Gagnon, Jean-Francois

Unknown Date

No description available.

Plate tectonics -- British Columbia

Geology, Stratigraphic -- Jurassic

Petrochemistry of a layered Archean magma chamber and its relation to models of basalt evolution

Rivard, Benoit.

January 1985

No description available.

Petrogenesis

Basalt

Rocks, Igneous

Geology, Stratigraphic -- Archaean

The stratigraphy of the Natal Group.

Marshall, C. G. A.

January 1994

Research for this project involved the first systematic field and laboratory investigation over the entire known portion of the Natal Group depositional basin, from just north of Hlabisa in the north, to Hibberdene in the south, and, on a reconnaissance basis, as far south as the Mtamvuna River near Port Edward. The development of a stratigraphy for the Natal Group is traced through the work of previous researchers, who worked in specific areas. The SACS compilation was inadequate, and this unsatisfactory situation was addressed in presenting the first workable stratigraphic subdivision of the Natal Group for the whole of the basin. There are two proposed formations, each representing a cycle of sedimentation - a lower Durban Formation and an upper Mariannhill Formation. These are subdivided into the Ulundi, Eshowe, Kranskloof, Situndu and Dassenhoek Members, and the Tulini, Newspaper and Westville Members, respectively. They are generally greyish red in colour, and consist of conglomerates, sandstones, siltstones and shales. The generally accepted correlation between the Natal Group in KwaZulu-Natal and what was hitherto considered as its time-equivalent in Pondoland has been disproved. Consequently, the supposed interdigitation/transition between these two assemblages, along with the hypothesis that the Kranskloof and Dassenhoek quartz-arenite Members were littoral deposits formed during a marine transgression/regression cycle, is no longer accepted. A provenance to the northeast is proposed, based on palaeocurrent data. Pan-African mountain-building in what is now Mozambique provided molasse sediments which were laid down in an elongate (NE - SW) foreland graben basin. The age of this was determined as 490 Ma, from 4°Ar;J9Ar step-heating on micas extracted from argillaceous samples. Contemporaneous volcanism, as reflected in the presence of volcanic glass (sericitised) shards, is reported. The Natal Group is a molasse deposit, derived some 490 Ma ago from a Pan African orogenic event in southern Mozambique, and deposited in a foreland graben, the Natal Trough, during continued subsidence. Activity of this trough is seen to have continued from Pan African to Permian times. This assemblage rests on the basement, and is overlain by the Dwyka Group. Only part of the basin survives on the African continent, the unknown portion being removed during the fragmentation of Gondwana. The southern limit of the Natal Group is at the Dweshula High, near Port Shepstone, which, together with basin tilting, is seen to have been instrumental in causing the deposition of this assemblage. It is suggested that fluvial activity and debris flow processes led to the deposition of the conglomerates of the Ulundi, Tulini and Westville Members, whereas braided rivers of the Platte and Bijou Creek types deposited the arenaceous and argillaceous sediments which now constitute the other members. The climate was probably semi arid, with ephemeral streams. Shape parameters of the conglomerate clasts point to a fluvial environment. The dividing-line between monomict (quartz) Facies A to the south, and polymict Facies B to the north, of the Tulini Member, was found to coincide with the edge of the craton in this area. The common occurrence of pressure solution phenomena is described. The tensile strength of fractured quartzite clasts in the Ulundi Member is used to estimate a minimum thickness for the Natal Group of 1300 to 2600 m - considerably greater than the present thickness. This estimate supports the hypothesis that much of the Natal Group was removed by erosion during the 200 million year period between the cessation of Natal Group deposition and the onset of Dwyka glaciation, and indeed, by the glaciation itself. The Westville. Member is thus seen as the basal unit of a third cycle of sedimentation, all of which, except the remnants of the Westville Member, have been eroded away. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 1994.

Theses--Geology.

Geology, stratigraphic.

Geology--Natal.

Stratigraphy, sedimentation and basin evolution of the Pictou group (Pennsylvanian), Oromocto sub-basin, New Brunswick, Canada

Le Gallais, Christopher J. (Christopher John)

January 1983

No description available.

Geology, Stratigraphic -- Pennsylvanian.

Geology -- New Brunswick.

A high-resolution record of environmental and climatic change in a lacustrine sequence from the Devonian Orcadian Basin, Scotland

Wilson, Abby Othman

January 2012

This study has specifically developed and applied new methodologies and successfully captured very high‐resolution palaeoenvironmental and palaeoclimatic data over a period ≤55 years in the Mid‐Devonian Orcadian Basin, Scotland. Analysis of 110 successive discrete laminae (55 varve sets) in a lacustrine sequence has produced the most detailed archive of environmental and climatic change through time ever from ancient sediments. Geological and geochemical data sets have captured intra‐annual (seasonal) variation in palaeoclimate and palaeoenvironment as well as short‐term cyclical change. Varve compositions (carbonate/clastic pairs) indicate a climate with substantial intra‐annual variation in rainfall. Cycles with an average periodicity of 12 years which have previously been attributed to sunspot solar forcing also show a shift in compositional dominance from allochthonous clastic material to authochthnonous carbonate precipitate over 12 years. This indicates that climatic wetness also varied cyclically. The abundance of specific biomarker compounds – particularly β,β‐carotane but also squalane and pristine/phytane coupled with elemental data (C/S) indicate that lake waters were hypersaline. Changes in the abundance and ratios of these salinity dependant proxies show that salinity varied seasonally as well as cyclically. Stable isotope data (δ13Ccarb / δ18Ocarb) show that temperature and primary productivity also varied on a seasonal and cyclical scale, while δ13Corg and the n‐alkane skew confirm that the organic carbon present was sourced predominantly from within‐lake algal sources at all timescales observed. The rate of carbon burial (MARcarbon) also exhibits cyclical variation. An antithetic relationship between δ18O–derived palaeotemperatures and a carbon burial efficiency parameter (forganic) at cycle scale shows that the fraction of organic carbon buried decreased as temperature increased.

551.609012