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Linear Dunes: Morphology from Google Earth | ||
| Desert | ||
| مقاله 1، دوره 28، شماره 2، اسفند 2023، صفحه 163-180 اصل مقاله (2.77 M) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22059/jdesert.2023.95482 | ||
| نویسنده | ||
| Andrew Shaw Goudie* | ||
| Oxford University School of Geography and the Environment, South Parks Road, Oxford, OX1 3QY, United Kingdom. | ||
| چکیده | ||
| Linear dunes are widespread in the Earth’s deserts and also in some extraterrestrial locations such as Titan and Mars. They show great variety in their forms, and occur in three main classes: simple, compound and complex. Using Google Earth this paper illustrates this diversity. Among the topics covered are simple dunes, linear dunes with tuning fork junctions, linear dunes with complex crests, linear dunes associated with stars, with domes, with zibars, with barchans and with parabolics, and linear dunes controlled by topography. | ||
| کلیدواژهها | ||
| Linear dunes؛ Tuning forks dunes؛ Star dunes؛ Dome dunes؛ Barchans parabolics؛ Zibars | ||
| مراجع | ||
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References
Allchin, B., A.S. Goudie, K.T.M. Hegde, 1978. The Prehistory and Palaeogeography of the Great Indian Desert. Academic Press, London, p. 389.
Atkinson, O.A., D.S. Thomas, A.S. Goudie, A.G. Parker, 2012. Holocene development of multiple dune generations in the northeast Rub’al-Khali, United Arab Emirates. The Holocene, 22(2); 179-189.
Bagnold, R.A., 1941. The Physics of Blown Sand and Desert Dunes. Methuen, London, p. 265.
Bourke, M.C., 2010. Barchan dune asymmetry: Observations from Mars and Earth. Icarus, 205(1); 183-197.
Breed C.S., T. Grow, 1979. Morphology and distribution of dunes in sand seas observed by remote sensing. USGS Professional Paper, 1072; 253-302.
Bullard, J.E., D.J. Nash, 1998. Linear dune pattern variability in the vicinity of dry valleys in the southwest Kalahari. Geomorphology, 23(1); 35-54.
Bullard, J.E., D.S.G. Thomas, I. Livingstone, G.F.S. Wiggs, 1995. Analysis of linear sand dune morphological variability, southwestern Kalahari Desert. Geomorphology, 11; 189-203.
Dong, Z., Z. Wei, G. Qian, Z. Zhang, W. Luo, G. Hu, 2010. “Raked” linear dunes in the Kumtagh Desert, China. Geomorphology, 123(1-2); 122-128.
Edgell, H.S., 2006, Arabian Deserts. Nature, Origin and Evolution. Springer, Dordrecht, p. 592.
Edgett, K.S., D.G. Blumberg, 1994. Star and linear dunes on Mars. Icarus, 112(2); 448-464.
Fischer, L.M., C. Sommer, K.E. Fitzsimmons, 2023. An open-source GIS approach to understanding dunefield morphologic variability at Kati Thanda (Lake Eyre), central Australia. Frontiers in Earth Science, 11; p.1196244.
Fitzsimmons, K.E., 2007. Morphological variability in the linear dunefields of the Strzelecki and Tirari Deserts, Australia. Geomorphology, 91; 146-160.
Goudie, A.S., 1969. Statistical laws and dune ridges in southern Africa. Geographical Journal, 135; 404-406.
Goudie, A.S., 2011. Parabolic dunes: distribution, form, morphology and change. Annals of the Arid Zone, 50(3&4); 1-7.
Goudie, A.S., 2022. Nebkhas: An essay in aeolian biogeomorphology. Aeolian Research, 54; p.100772.
Goudie, A.S., 2023. Zibars: Distribution, morphology and environmental controls. Aeolian Research, 60; p.100854.
Goudie, A.S., A.M. Goudie, H.A. Viles, 2021a. The distribution and nature of star dunes: A global analysis. Aeolian Research, 50; p.100685.
Goudie, A.S., A.M. Goudie, H.A. Viles, 2021b. Dome dunes: Distribution and morphology. Aeolian Research, 51; p.100713.
Goudie, A.S., A. Warren, D.K.C. Jones, R.U. Cooke, 1987. The character and possible origins of the aeolian sediments of the Wahiba Sand Sea, Oman. Geographical Journal, 153; 231-256.
Grove, A.T., 1958. The ancient erg of Hausaland, and similar formations on the south side of the Sahara. Geographical Journal, 124(4); 528-533.
Grove, A.T., 1969. Landforms and climatic change in the Kalahari and Ngamiland. Geographical Journal, 135(2); 191-212.
Grove, A.T., A. Warren, 1968. Quaternary landforms and climate on the south side of the Sahara. Geographical Journal, 134(2); 194-208
Hesse, P., 2011. Sticky dunes in a wet desert: formation, stabilisation and modification of the Australian desert dunefields. Geomorphology, 134(3-4); 309-325.
Hu, Z., X. Gao, J. Lei, N. Zhou, 2021. Geomorphology of aeolian dunes in the Western Sahara Desert. Geomorphology, 392; p.107916.
Kar, A., 1990. Megabarchanoids of the Thar: their environment, morphology and relationship with longitudinal dunes. Geographical Journal, 156; 51-61.
Kar, A., 1993. Aeolian processes and bedforms in the Thar Desert. Journal of Arid Environments, 25(1); 83-96.
Lancaster, N., 1980. The formation of seif dunes from barchans - supporting evidence for Bagnold’s model from the Namib Desert. Zeitschrift für Geomorphologie, NF 24; 160-167.
Lancaster, N., 1988. Development of linear dunes in the southwestern Kalahari, southern Africa. Journal of Arid Environments, 14(3); 233-244.
Lancaster, N., G. Kocurek, A. Singhvi, V. Pandey, M. Deynoux, J.F. Ghienne, K. Lô, 2002. Late Pleistocene and Holocene dune activity and wind regimes in the Western Sahara Desert of Mauritania. Geology, 30(11): 991-994.
Lancaster, N., 2006. Linear dunes on Titan. Science, 312; 702-703.
Lv, P., Z. Dong, C. Narteau, O. Rozier, 2016. Morphodynamic mechanisms for the formation of asymmetric barchans: improvement of the Bagnold and Tsoar models. Environmental Earth Sciences, 75; 1-9.
Mainguet, M., 1984. A classification of dunes based on aeolian dynamics and the sand budget. In: F. El Baz (ed.) Deserts and Arid Lands, Martinus Nijhoff, The Hague, pp. 31-58.
McFarlane, M.J., F.D. Eckardt, S. Ringrose, S.H. Coetzee, S.H., J.R. Kuhn, 2005. Degradation of linear dunes in northwest Ngamiland, Botswana and the implications for luminescence dating of periods of aridity. Quaternary International, 135(1); 83-90.
McKee, E. (ed), 1979. Global sand seas. United States Geological Survey Professional Paper 1052, p. 429.
Nielson, J.G. Kocurek, 1986. Climbing zibars of the Algodones. Sedimentary Geology, 48(1-2); 1-15.
Pye, K., H. Tsoar, 1990. Aeolian Sand and Sand Dunes. Unwin Hyman, London, p. 396.
Qian, G., Z. Yang, W. Luo, Z. Dong, J. Lu, M. Tian, 2020. Morphological and sedimentary characteristics of dome dunes in the northeastern Qaidam Basin, China. Geomorphology, 350; p.106923.
Radebaugh, J., R. Lorenz, T. Farr, P. Paillou, C. Savage, C. Spencer, 2010. Linear dunes on Titan and earth: Initial remote sensing comparisons. Geomorphology, 121(1-2); 122-132.
Rubin, D.M., P.A. Hesp, 2009. Multiple origins of linear dunes on Earth and Titan. Nature Geoscience, 2(9); 653-658.
Scuderi, L., 2019. The fingerprint of linear dunes. Aeolian Research, 39; 1-12.
Shaw, A.I., A.S. Goudie, 2002. Geomorphological evidence for the extension of the Mega-Kalahari into south-central Angola. South African Geographical Journal, 84(2); 182-194.
Srivastava, A., D.S.G. Thomas, J.A. Durcan, 2019. Holocene dune activity in the Thar Desert, India. Earth Surface Processes and Landforms, 44(7); 1407-1418.
Telfer, M.W., J. Radebaugh, B. Cornford, C. Lewis, 2019. Long‐wavelength sinuosity of linear dunes on Earth and Titan and the effect of underlying topography. Journal of Geophysical Research: Planets, 124(9); 2369-2381.
Tsoar, H., 1983. Dynamic processes acting on a longitudinal (seif) sand dune. Sedimentology, 30(4); 567-578.
Tsoar H., J.T. Møller, 1986. The role of vegetation in the formation of sand dunes. In W.G. Nickling (ed.) Aeolian Geomorphology. Allken and Unwin, Boston, pp.75-95.
Tsoar, H., E.J. Parteli, 2016. Bidirectional winds, barchan dune asymmetry and formation of seif dunes from barchans: a discussion. Environmental Earth Sciences, 75: 1-10.
Tsoar, H., D.H. Yaalon, 1983. Deflection of sand movement on a sinuous longitudinal (seif) dune: use of fluorescent dye as tracer. Sedimentary Geology, 36(1); 25-39.
Tsoar, H., D.G. Blumberg, Y. Stoler, 2004. Elongation and migration of sand dunes. Geomorphology, 57; 293-302.
Verstappen, H.T., 1970. Aeolian geomorphology of the Thar Desert and palaeoclimates. Zeitschrift für Geomorphologie, NF12; 200-220.
Vimpere, L., S.E. Watkins, S. Castelltort, 2021. Continental interior parabolic dunes as a potential proxy for past climates. Global and Planetary Change 206:p.103622.
Wang, Z.T., Q.F. Sun, X.Z. Ren, T. Wang, F.H. Chen, 2009. Pseudo-feathery dunes in the Kumtagh desert reclassified as linear dunes and zibars. Aeolian Research, 1(1-2); 87-89.
Wasson, R.J., K. Fitchett, B. Mackey, B., R. Hyde, 1988. Large‐scale patterns of dune type, spacing and orientation in the Australian continental dunefield. Australian Geographer, 19(1); 89-104.
Wiggs, G., 2019. Desert dunes: Form and process. In: A. Warren, I. Livingstone, (eds.) Aeolian Geomorphology: A New Introduction. Wiley, Chichester, pp 133-155.
Xiao, J., X. Xie, H. Zhao, C. Chen, X. Ma, J. Qu, Z. Yao, 2021. Seasonal changes and migration of longitudinal dunes in the northeastern Rub'al Khali Desert. Aeolian Research, 51; p.100710.
Zhang, H., Z. Wu, J. Hu, Z. Zhang, B. Xiao, J. Ma, 2021. Numerical simulation of wind field and sand flux in crescentic sand dunes. Science Reports, 11(1); 1-18.
Zheng, Z., S. Du, H. Taubenböck, H., X. Zhang, 2022. Remote sensing techniques in the investigation of aeolian sand dunes: A review of recent advances. Remote Sensing of Environment, 271; p.112913. | ||
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