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Dynamical Processes on Desert Pavements and the Healing of Surficial Disturbances

Published online by Cambridge University Press:  20 January 2017

Peter K. Haff  and
B.T. Werner
Peter K. Haff
Affiliation:
Department of Geology, Center for Hydrologic Science, Duke University, Durham, North Carolina, 27708-0230
B.T. Werner
Affiliation:
Institute of Geophysics and Planetary Physics, 0225, University of California, San Diego, La Jolla, California, 92093-0225
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Abstract

Mature desert pavements are traditionally regarded as hallmarks of stability, but their stability is dynamic, not static. In a study aimed at documenting this dynamic stability and its role in healing surface disturbances, experiments were performed over a 5-yr period on small cleared patches, or plats, on pavement surfaces in Panamint Valley, California. These experiments show that stones from plat edges begin to resurface the clearing at rates of about 1% per year on 40-cm-square plats and 10% per year on 10-cm-square plats. Stones contributing to the regenerated pavement have smaller average diameters than stones on the surrounding pavement. Cavities 5–10 cm deep, formed in mature pavement by removal of embedded boulders, fill by ravel and slope failure. After five years, cavity depth has been reduced by as much as 60%. Forty-year-old boulder cavities are nearly completely refilled and have been repaved by smaller than average pavement stones. Gaps caused by removal of small stones (2–3 cm) have completely healed in 5 yr. Displacement of surface stones by small animals is a major component of the healing process.

Type
Research Article
Information
Quaternary Research , Volume 45 , Issue 1 , January 1996 , pp. 38 - 46
Copyright
University of Washington

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References

Bull, W. B. (1991) “Geomorphic Responses to Climate Change.” Oxford Univ. Press, New York.Google Scholar
Cooke, R. V. (1970). Stone pavements in deserts. Annals of the Association of American Geographers 60 , 560577.Google Scholar
Corte, A. E. (1963). Particle sorting by repeated freezing and thawing. Science 142 , 499501.Google Scholar
Ellison, W. D. (1945). Some effects of raindrops and surface flow on soil erosion and infiltration. Transactions of the American Geophysical Union 26 , 415429.Google Scholar
Engel, C. G., and Sharp, R. P. (1958). Chemical data on desert varnish. Bulletin of the Geological Society of America 69 , 487518.Google Scholar
Evenari, M. Yaalon, D. H., and Gutterman, Y. (1974). Notes on soils with vesicular structure in deserts. Zeitschrift fur Geomorphologie 18 , 162172.Google Scholar
Inglis, D. R. (1965). Particle sorting and stone migration by freezing and thawing. Science 148 , 16161617.Google Scholar
Jessup, R. W. (1960). The stony tableland soils of the south-eastern portion of the Australian arid zone and their evolutionary history. Journal of Soil Science 11 , 188197.Google Scholar
McFadden, L. D. Wells, S. G., and Jercinovich, M. J. (1987). Influences of aeolian and pedogenic processes on the origin and evolution of desert pavements. Geology 15 , 504509.Google Scholar
Musick, H. B. (1975). Barrenness of desert pavement in Yuma County, Arizona. Journal of the Arizona-Nevada Academy of Science 10 , 2428.Google Scholar
Péwé, T. L. (1978). Geology field trip log along the Lower Salt River, Arizona. In “Guidebook to the Geology of Central Arizona” (Burt, D. M. and Péwé, T. L., Eds.), Arizona Bureau of Geology and Mineral Technology Special Paper 2 , pp. 1445.Google Scholar
Sharon, D. (1962). On the nature of hamadas in Israel. Zeitschrift fur Geomorphologie 6 , 129147.Google Scholar
Springer, M. E. (1958). Desert pavement and vesicular layer of some soils of the desert of the Lahontan Basin, Nevada. Proceedings of the Soil Science Society of America 22 , 6366.Google Scholar
Symmons, P. M., and Hemming, C. F. (1968). A note on wind-stable stone mantles in the southern Sahara. Geographical Journal 134 , 6064.Google Scholar
Wells, S. G. Dohrenwend, J. C. McFadden, L. D. Turrin, B. D., and Mahrer, K. D. (1985) Late Cenozoic landscape evolution on lava flow surfaces of the Cima volcanic field, Mojave Desert, California. Geological Society of America Bulletin 96 , 15181529.Google Scholar