See more from this Session: Symposium--Climate, Management and Topography Impacts On Vegetation, Soil Carbon Sequestration and Soil Erosion: A Tribute to Dr. Jerry Ritchie
Storage and lateral redistribution of soil nitrogen in a naturally eroding zero-order watershed
Asmeret Asefaw Berhe
Margaret S. Torn
Jennifer W. Harden
John Harte
In recent years, the role of soil erosion on terrestrial carbon sequestration has been a focus of growing number of studies. Comparatively, little attention has been paid to the role of soil erosion on the dynamics of soil nitrogen. We know very little about the amount of nitrogen transported by soil erosion, and stock of nitrogen in different erosional and depositional landform positions. Here we present findings from four landform positions, two eroding (summit and backslope) and two depositional (hollow and plain), at a recently anthropogenically-undisturbed, zero-order watershed in northern California. We found that the depositional positions contain up to 3-times more N in their soil profiles than the eroding positions. Our findings show that 1.1-1.8 gN m-2 yr-1 is transported from the upper eroding positions, and about 2/3rd of it enters the lower-lying depositional settings. After density fractionation at 1.8g cm-3, we found that 92-92 percent of all soil nitrogen was found associated with the dense fraction in the four landform positions, compared to 2 to 4 percent each that was found in the free light and occluded light fractions. More N is associated with the free light fraction in the 2-25 cm soil depth, possibly rending it more susceptible to loss by soil erosion. By comparison, more N is associated with the aggregate protected, occluded light fractions and the mineral-associated heavy fraction in the depositional positions rendering N in these depositional positions less susceptible by soil erosion and other mechanisms.
See more from this Session: Symposium--Climate, Management and Topography Impacts On Vegetation, Soil Carbon Sequestration and Soil Erosion: A Tribute to Dr. Jerry Ritchie