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Quantifying Postfire Aeolian Sediment Transport Using Rare Earth Element Tracers
Dukes, David Gonzales, Howell B. Van Pelt, R. Scott Li, Junran Wang, Guan Sankey, Joel B.
Dukes, David
Gonzales, Howell B.
Van Pelt, R. Scott
Li, Junran
Wang, Guan
Sankey, Joel B.
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Journal article
Date
2018-01-15
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Earth and Environmental Science
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https://doi.org/10.1002/2017JG004284
Abstract
Grasslands, which provide fundamental ecosystem services in many arid and semiarid regions of the world, are undergoing rapid increases in fire activity and are highly susceptible to postfire-accelerated soil erosion by wind. A quantitative assessment of physical processes that integrates fire-wind erosion feedbacks is therefore needed relative to vegetation change, soil biogeochemical cycling, air quality, and landscape evolution. We investigated the applicability of a novel tracer technique—the use of multiple rare earth elements (REE)—to quantify soil transport by wind and to identify sources and sinks of wind-blown sediments in both burned and unburned shrub-grass transition zone in the Chihuahuan Desert, NM, USA. Results indicate that the horizontal mass flux of wind-borne sediment increased approximately threefold following the fire. The REE tracer analysis of wind-borne sediments shows that the source of the horizontal mass flux in the unburned site was derived from bare microsites (88.5%), while in the burned site it was primarily sourced from shrub (42.3%) and bare (39.1%) microsites. Vegetated microsites which were predominantly sinks of aeolian sediments in the unburned areas became sediment sources following the fire. The burned areas showed a spatial homogenization of sediment tracers, highlighting a potential negative feedback on landscape heterogeneity induced by shrub encroachment into grasslands. Though fires are known to increase aeolian sediment transport, accompanying changes in the sources and sinks of wind-borne sediments may influence biogeochemical cycling and land degradation dynamics. Furthermore, our experiment demonstrated that REEs can be used as reliable tracers for field-scale aeolian studies.
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Dukes, D., Gonzales, H. B., Ravi, S., Grandstaff, D. E., Van Pelt, R. S., Li, J., … Sankey, J. B. (2018). Quantifying postfire aeolian sediment transport using rare earth element tracers. Journal of Geophysical Research: Biogeosciences, 123, 288– 299. https://doi.org/10.1002/2017JG004284
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Wiley
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Journal of Geophysical Research: Biogeosciences, Vol. 123, No. 1
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