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Landscape evolution

On a larger scale, landscape development reflects those mechanisms that expose bedrock, weather it, and transport the weathering products away. Present and past tectonism, geology, climate, soils, and vegetation are all important to landscape evolution. These factors often operate in tandem to produce characteristic landforms that presumably integrate the effects of both episodic and continuous processes over considerable periods of time. [Pg.206]

Atkinson TC, Rowe PJ (1992) Applications of dating to denudation chronology and landscape evolution. In Uranium-series disequilibriiun Applications to Earth, Marine and Enviromnental Sciences, Ivanovich M, Harmon RS (eds) Oxford University Press, Oxford, p 669-703 Auler AS, Smart PL (2001) Late Quaternary paleoclimate in semiarid Northeastern Brazil from U-series dating of travertines and water table speleothems. Quat Res 55 159-167 Ayliffe LK, Marianelh PC, Moriarty KC, Wells RT, McCulloch MT, Mortimer GE, Hellstrom JC (1998) 500 ka precipitation record from southeastern Australia Evidence for interglacial relative aridity. Geology 26 147-150... [Pg.451]

French, C. A. I. and Ch. French (2002), Geoarchaeology in Action Studies in Soil Micromorphology and Landscape Evolution, Routledge, London. [Pg.576]

Smith, M L. 2006. Towards a geochronology for long-term landscape evolution of northwestern New South Wales, Australia. Ph D thesis, Australian National University. [Pg.312]

Simon, M. Sanchez, S. Garcia, 1. (2000) Soil-landscape evolution on a Mediterranean high mountain. Catena 39 211-231... [Pg.629]

Davis SJ, Mulch A, Carroll AR, Chamberlain CP (2007) Paleogene landscape evolution of the central North American Cordillera Developing topography and hydrology in the Laramide foreland. GSA Bull (in review)... [Pg.114]

Bierman PR (1994) Using in situ produced cosmogenic isotopes to estimate rates of landscape evolution A review from the geomorphic perspective. J Geophys Res 99 13885-13896... [Pg.277]

Wells, S. G., McFadden, L. D., Poths, J., Olinger, C. T. (1995) Cosmogenic 3He surface exposure dating of stone pavement Implications for landscape evolution in deserts. Geology 23, 613-16. [Pg.278]

Braun J. and Sambridge M. (1997) Modelling landscape evolution on geological time scales a new method based on irregular spatial discretization. Basin Res. 9, 27-52. [Pg.1548]

Bestland E. A., Retallack G. J., Rice A. E., and Mindszenty A. (1996) Late Eocene detrital laterites in central Oregon mass balance geochemistry, depositional setting and landscape evolution. Geol. Soc. Am. Bull. 108, 285-302. [Pg.2852]

The present study indicates clearly the principle of "karst immunity" (Jennings 1985), whereby caves often contain information that is lacking or less clearly expressed in non-limestone terrains. This conforms the utility of the study of caves and their contents to studies of landscape evolution and palaeoclimatology. [Pg.66]

Atkinson, T.C. and Rowe, P.J., 1992, Application of dating to denudation chronology and landscape evolution, in Uranium-Series Disequilibrium, (2" ed.) M. Ivanovich and R.S. Harmon, eds.. Clarendon Press, Oxford, pp.670-703. [Pg.169]

Craig, M.A. (2005) Regolith-landform mapping, the path to best practice. In Anand, R.R. de Broekert, P. (Eds) Regolith Landscape Evolution Across Australia. Bentley, Western Australia Cooperative Research Centre for Landscape Environments and Mineral Exploration, pp. 53-61. [Pg.7]

Hill, S.M., Eggleton, R.A. Taylor, G. (2003) Neotectonic disruption of silicified palaeovalley systems in an intraplate, cratonic landscape regolith and landscape evolution of the Mulculca range-front, Broken Hill Domain, New South Wales. Australian Journal of Earth Sciences 50, 691-707. [Pg.8]

Pain, C.F. Ollier, C.D. (1995) Inversion of relief - a component of landscape evolution. Geomorphology 12, 151-165. [Pg.9]

King, L.C. (1953) Canons of landscape evolution. Bulletin of the Geological Society of America 64, 721-752. [Pg.89]

Ollier, C.D. (1991) Laterite profiles, ferricrete and landscape evolution. Zeitschrift fiir Geomorphologie N.F. 35, 165-173. [Pg.91]

Tait, M. (1998) Geology and landscape evolution of the Mt Wood Hills area, near Tibooburra, northwestern New South Wales. Unpublished Honours Thesis, Department of Earth Sciences, La Trobe University, Australia. [Pg.140]

Vasconcelos, P.M. Conroy, M. (2003) Geochronology of weathering and landscape evolution, Dugald River valley, NW Queensland, Australia. Geochimica et... [Pg.142]

Tsvetinskaya EA, Vainberg BI et al. (2002) An integrated assessment of landscape evolution, long-term climate variability, and land-use in the Amudarya Prisarykamysh delta. J Arid Environ 51 363-381... [Pg.302]

See other pages where Landscape evolution is mentioned: [Pg.226]    [Pg.407]    [Pg.437]    [Pg.432]    [Pg.12]    [Pg.195]    [Pg.50]    [Pg.117]    [Pg.251]    [Pg.265]    [Pg.266]    [Pg.266]    [Pg.1526]    [Pg.1544]    [Pg.1545]    [Pg.3682]    [Pg.47]    [Pg.151]    [Pg.560]    [Pg.1]    [Pg.105]    [Pg.129]    [Pg.200]    [Pg.491]   


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