Combining sediment fingerprinting with age-dating sediment using fallout radionuclides for an agricultural stream, Walnut Creek, Iowa, USA

Purpose The main purpose of this study was to demonstrate the utility of the sediment fingerprinting approach to apportion surface-derived sediment, and then age date that portion using short-lived fallout radionuclides. In systems where a large mass of mobile sediment is in channel storage, age dat...

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Bibliographic Details
Published in:Journal of soils and sediments 2019-09, Vol.19 (9), p.3374-3396
Main Authors: Gellis, Allen C., Fuller, Christopher C., Van Metre, Peter, Filstrup, Christopher T., Tomer, Mark D., Cole, Kevin J., Sabitov, Timur Y.
Format: Article
Language:English
Subjects:
Age
age determination
Agricultural land
Agricultural practices
agricultural soils
Beryllium
Channel storage
Chronology
Coastal inlets
Creeks
cropland
Dating
Earth and Environmental Science
Environment
Environmental Physics
Fallout
Fingerprinting
Geomorphology
Iowa
lead
Pasture
pastures
pollution load
prairies
Radioisotopes
Radionuclide kinetics
radionuclides
riparian areas
River beds
Riverbanks
Rivers
roads
Sediment
Sediment fingerprinting
Sediment Fingerprinting in the Critical Zone
sediment yield
Sediments
Soil
Soil Science & Conservation
Stream banks
streams
suspended sediment
Suspended sediments
Time
Topsoil
Unpaved roads
Walnuts
Watersheds
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Summary:Purpose The main purpose of this study was to demonstrate the utility of the sediment fingerprinting approach to apportion surface-derived sediment, and then age date that portion using short-lived fallout radionuclides. In systems where a large mass of mobile sediment is in channel storage, age dating provides an understanding of the transfer of sediment through the watershed and the time scales over which management actions to reduce sediment loadings may be effective. Materials and methods In the agricultural Walnut Creek watershed, Iowa, the sediment-fingerprinting approach with elemental analysis was used to apportion the sources of fine-grained sediment (croplands, prairie, unpaved roads, and channel banks). Fallout radionuclides ( 7 Be, 210 Pb ex ) were used to age the portion of suspended sediment that was derived from agricultural topsoil. Age dating was performed at two different scales: 210 Pb ex which can date sediment to ~ 85 years and 7 Be to ~ 1 year. Results and discussion Sediment fingerprinting results indicated that the majority of suspended sediment is derived from cropland (62%) with streambanks contributing 36%, and prairie, pasture, and unpaved roads each contributing ≤ 1%. The topsoil–derived portion of sediment (primarily agriculture) dated using 210 Pb ex has ages ranging from 1 to 58 years, and using 7 Be, a component of much younger sediment that yields ages ranging from 44 to 205 days. The occurrence of 7 Be indicates that some portion of the sediment is young, on the order of months, whereas the dating based on 210 Pb ex indicates that some of the surface-derived sediment has been in channel storage for decades. Published studies in Walnut Creek indicate that a large component of sediment is stored in the channel bed. Conclusions We conclude that the 210 Pb ex -based ages are a reasonable estimate for the mean age of the surface-derived fraction and that 7 Be activities are evidence that there is a smaller fraction of very young sediment in the stream. We propose a geomorphic model where agricultural soil is delivered to the channel and conveyed to the watershed outlet at three time scales: a geologic-millennial time scale, decades, and a young time scale (
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-018-2168-z