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Статті в журналах з теми "Salt pans (Geology) Australia":
Perold, S. M. "Studies in the Sphaerocarpales (Hepaticae) from southern Africa. 1. The genus Monocarpus and its only member, M. sphaerocarpus." Bothalia 29, no. 2 (October 1, 1999): 225–30. http://dx.doi.org/10.4102/abc.v29i2.592.
Lou, Pengcheng, Zhongying Miao, Mianping Zheng, Xuefei Zhang, Zhuang Ruan, and Qihui Xu. "Paleogeographic Characteristics of the Mengyejing Formation in the Simao Basin during Its Depositional Period and Its Indication of Potash Mineralization: A Case Study of MZK-3 Well." Minerals 11, no. 4 (March 24, 2021): 338. http://dx.doi.org/10.3390/min11040338.
Hearon, Thomas E., Mark G. Rowan, Timothy F. Lawton, Patrick T. Hannah, and Katherine A. Giles. "Geology and tectonics of Neoproterozoic salt diapirs and salt sheets in the eastern Willouran Ranges, South Australia." Basin Research 27, no. 2 (May 20, 2014): 183–207. http://dx.doi.org/10.1111/bre.12067.
Bechor, B., D. Sivan, S. Miko, O. Hasan, M. Grisonic, I. Radić Rossi, B. Lorentzen, et al. "Salt pans as a new archaeological sea-level proxy: A test case from Dalmatia, Croatia." Quaternary Science Reviews 250 (December 2020): 106680. http://dx.doi.org/10.1016/j.quascirev.2020.106680.
Pierre, Catherine. "Isotopic evidence for the dynamic redox cycle of dissolved sulphur compounds between free and interstitial solutions in marine salt pans." Chemical Geology 53, no. 3-4 (December 1985): 191–96. http://dx.doi.org/10.1016/0009-2541(85)90068-3.
Gannaway Dalton, C. Evelyn, Katherine A. Giles, Mark G. Rowan, Richard P. Langford, Thomas E. Hearon, and J. Carl Fiduk. "Sedimentologic, stratigraphic, and structural evolution of minibasins and a megaflap formed during passive salt diapirism: The Neoproterozoic Witchelina diapir, Willouran Ranges, South Australia." Journal of Sedimentary Research 90, no. 2 (February 20, 2020): 165–99. http://dx.doi.org/10.2110/jsr.2020.9.
Street, Gregory J., Gabriella Pracilio, and Ann-Marie Anderson-Mayes. "Interpretation of Geophysical Data for Salt Hazard Identification and Catchment Management in Southwest Western Australia." Exploration Geophysics 33, no. 2 (June 2002): 65–72. http://dx.doi.org/10.1071/eg02065.
Vidal‐Royo, Oskar, Mark G. Rowan, Oriol Ferrer, Mark P. Fischer, J. Carl Fiduk, David P. Canova, Thomas E. Hearon, and Katherine A. Giles. "The transition from salt diapir to weld and thrust: Examples from the Northern Flinders Ranges in South Australia." Basin Research 33, no. 5 (June 23, 2021): 2675–705. http://dx.doi.org/10.1111/bre.12579.
Miller, R. McG, C. Krapf, T. Hoey, J. Fitchett, A.-K. Nguno, R. Muyambas, A. Ndeutepo, A. Medialdea, A. Whitehead, and I. Stengel. "A sedimentological record of fluvial-aeolian interactions and climate variability in the hyperarid northern Namib Desert, Namibia." South African Journal of Geology 124, no. 3 (September 1, 2021): 575–610. http://dx.doi.org/10.25131/sajg.124.0008.
Salama, R. B. "Geomorphology, geology and palaeohydrology of the broad alluvial valleys of the Salt River System, Western Australia." Australian Journal of Earth Sciences 44, no. 6 (December 1997): 751–65. http://dx.doi.org/10.1080/08120099708728352.
Дисертації з теми "Salt pans (Geology) Australia":
De, Deckker P. "Australian Quaternary studies : a compilation of papers and documents submitted for the degree of Doctor of Science in the Faculty of Science, University of Adelaide /." Title page, contents and abstract only, 2002. http://web4.library.adelaide.edu.au/theses/09SD/09sdd299.pdf.
Cloete, Melissa. "Microbial diversity of the Namib Desert salt pans." University of the Western Cape, 2015. http://hdl.handle.net/11394/5230.
Salt pans are a characteristic feature of many dry deserts. The microbial communities inhabiting salt pans are thought to be particularly complex and are generally dominated by halophilic microorganisms. Although saline pools are frequently found within the hyper-arid Namib Desert, the microbial communities of these saline sites have been scarcely investigated. The aim of the present study was to characterise the archaeal, bacterial and cyanobacterial diversity inhabiting these extreme saline pools using three culture independent molecular techniques (DGGE, T-RFLP and 16S rRNA clone libraries). The physiochemical results, mainly the conductivity readings recorded from the sampling sites, indicated that the Gobabeb (103.0mS/cm) region was less saline than the two Swakopmund [(Sps01) (150.0mS/cm) and Sps02 (180.0mS/cm)] sites. Results obtained from DGGE and T-RFLP data were in agreement for both bacterial and cyanobacterial analysis indicating that the Gobabeb site was more diverse than the two Swakopmund sites (Sps01 and Sps02). In comparison, the archaeal community profiles for DGGE and T-RFLP analysis were in agreement illustrating that the archaeal community were more abundant in the two extreme Swakopmund saline sites. Phylogenetic data obtained from 16S rRNA gene clone libraries identified halophilic phylotypes (Rhodothermaceae, Idiomarinaceae Puniceicoccaceae and Cyanobacteria/Chloroplast, Family VII) normally associated with salt rich sites. In addition, a large number of unclassified taxa were identified. To conclude, the study highlighted the presence of a rich microbial diversity present within the salt pans of the Namib Desert and establishes a platform for future investigations.
National Research Foundation
Gragg, Kathryn Elizabeth. "Preservation of microorganisms within halite fluid inclusions from the Salar de Uyuni, Bolivia." Diss., Online access via UMI:, 2008.
Hearon, IV Thomas E. "Analysis of salt-sediment interaction associated with steep diapirs and allochthonous salt| Flinders and willouran ranges, south australia, and the deepwater northern gulf of Mexico." Thesis, Colorado School of Mines, 2014. http://pqdtopen.proquest.com/#viewpdf?dispub=3602617.
The eastern Willouran Ranges and northern Flinders Ranges, South Australia contain Neoproterozoic and Cambrian outcrop exposures of diapiric breccia contained in salt diapirs, salt sheets and associated growth strata that provide a natural laboratory for testing and refining models of salt-sediment interaction, specifically allochthonous salt initiation and emplacement and halokinetic deformation. Allochthonous salt, which is defined as a sheet-like diapir of mobile evaporite emplaced at younger stratigraphic levels above the autochthonous source, is emplaced due to the interplay between the rate of salt supply to the front of the sheet and the sediment-accumulation rate, and may be flanked by low- to high-angle stratal truncations to halokinetic folds. Halokinetic sequences (HS) are localized (<1000 m) unconformity-bound successions of growth strata adjacent to salt diapirs that form as drape folds due to the interplay between salt rise rate (R) and sediment accumulation rate (A). HS stack to form tabular and tapered composite halokinetic sequences (CHS), which have narrow and broad zones of thinning, respectively. The concepts of CHS formation are derived from outcrops in shallow water to subaerial depositional environments in La Popa Basin, Mexico and the Flinders Ranges, South Australia. Current models for allochthonous salt emplacement, including surficial glacial flow, advance above subsalt shear zones and emplacement along tip thrusts, do not address how salt transitions from steep feeders to low-angle sheets and the model for the formation of halokinetic sequences has yet to be fully applied or tested in a deepwater setting. Thus, this study integrates field data from South Australia with subsurface data from the northern Gulf of Mexico to test the following: (1) current models of allochthonous salt advance and subsalt deformation using structural analysis of stratal truncations adjacent to outcropping salt bodies, with a focus on the transition from steep diapirs to shallow salt sheets in South Australia; and (2) the outcrop-based halokinetic sequence model using seismic and well data from the Auger diapir, located in the deepwater northern Gulf of Mexico. Structural analysis of strata flanking steep diapirs and allochthonous salt in South Australia reveals the transition from steep diapirs to shallowly-dipping salt sheets to be abrupt and involves piston-like breakthrough of roof strata, freeing up salt to flow laterally. Two models explain this transition: 1) salt-top breakout, where salt rise occurs inboard of the salt flank, thereby preserving part of the roof beneath the sheet; and 2) salt-edge breakout, where rise occurs at the edge of the diapir with no roof preservation. Shear zones, fractured or mixed `rubble zones' and thrust imbricates are absent in strata beneath allochthonous salt and adjacent to steep diapirs. Rather, halokinetic drape folds, truncated roof strata and low- and high-angle bedding intersections are among the variety of stratal truncations adjacent to salt bodies in South Australia. Interpretation and analysis of subsurface data around the Auger diapir reveals similar CHS geometries, stacking patterns and ratios of salt rise and sediment accumulation rates, all of which generally corroborate the halokinetic sequence model. The results of this study have important implications for salt-sediment interaction, but are also critical to understanding and predicting combined structural-stratigraphic trap geometry, reservoir prediction and hydrocarbon containment in diapir-flank settings.
Rutherford, Jasmine Lee. "The role of geology, geomorphology, climate and vegetation, in controlling spatial and temporal changes in groundwater discharge from weathered crystalline basement aquifers in southwestern Australia." University of Western Australia. School of Earth and Geographical Sciences, 2006. http://theses.library.uwa.edu.au/adt-WU2006.0006.
De, Deckker P. (Patrick). "Australian Quaternary studies : a compilation of papers and documents submitted for the degree of Doctor of Science in the Faculty of Science, University of Adelaide." 2002. http://web4.library.adelaide.edu.au/theses/09SD/09sdd299.pdf.
Книги з теми "Salt pans (Geology) Australia":
Ericksen, George Edward. Geology and resources of salars in the central Andes. [Denver, Colo.?]: U.S. Dept. of the Interior, Geological Survey, 1987.
Marshall, T. R. The origin of the pans of the western Orange Free State: A morphotectonic study of the palaeo-Kimberley River. Johannesburg: Economic Geology Research Unit, University of the Witwatersrand, 1987.
International Symposium on Athalassic (Inland) Saline Lakes (4th 1988 Banyoles, Spain). Saline lakes: Proceedings of the Fourth International Symposium on Athalassic (Inland) Saline Lakes, held at Banyoles, Spain, May 1988. Dordrecht: Kluwer Academic Publishers, 1990.
Čop, Anja. Light and salt =: Svetloba in sol = luce e sale. Roveredo in Piano: Anja Čop Photography, 2009.
Čop, Anja. Light and salt =: Svetloba in sol = luce e sale. Roveredo in Piano: Anja Čop Photography, 2009.
Barth, Hans-Jörg. Sebkhas als Ausdruck von Landschaftsdegradation im zentralen Küstentiefland der Ostprovinz Saudi-Arabiens. Regensburg: Institut für Geographie an der Universität Regensburg, 1998.
Vsesoi͡uznoe solevoe soveshchanie (3rd 1983 Moscow, Russia?). Fiziko-khimicheskie zakonomernosti osadkonakoplenii͡a v solerodnykh basseĭnakh. Moskva: "Nauka", 1986.
Liot, Catherine. Les salines préhispaniques du bassin de Sayula: Occident du Mexique : milieu et techniques. Oxford, England: Archaeopress, 2000.
Casas, Enrique. Diagenesis of salt halite. 1987.
Burtynsky, Edward. Edward Burtynsky - Salt Pans: Little Rann of Kutch, Gujarat, India. Steidl Druckerei und Verlag, Gerhard, 2016.
Частини книг з теми "Salt pans (Geology) Australia":
Dyson, Ian A., and Mark G. Rowan. "Geology of a Welded Diapir and Flanking Mini-Basins in the Flinders Ranges of South Australia." In Salt Sediment Interactions and Hydrocarbon Prospectivity: Concepts, Applications, and Case Studies for the 21st Century: 24th Annual, 69–89. SOCIETY OF ECONOMIC PALEONTOLOGISTS AND MINERALOGISTS, 2004. http://dx.doi.org/10.5724/gcs.04.24.0069.