Streambed Median Grain Size (D50) across the Contiguous U.S.

Jha, M. K.; Asamen, Dawit M.; Allen, Peter M.; Arnold, Jeffrey G.; White, Michael J.; Bieger, Katrin

doi:10.3390/w14213378

Cited by 2 publications

(2 citation statements)

References 40 publications

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“…These data are available for a very limited number of NHDPlus channel segments, however, Asamen et al. (2022) summarized and analyzed 2,208 observations of D50 collected across five different surveys. These data were used to develop relationships between D50, drainage area, and channel slope for five regions (Northeast, Midwest, Southeast, Southwest, and Pacific).…”

Section: Methodsmentioning

confidence: 99%

Development of a Field Scale SWAT+ Modeling Framework for the Contiguous U.S.

White

Arnold

Bieger

et al. 2022

J American Water Resour Assoc

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The Soil and Water Assessment Tool (SWAT) model is commonly used to predict the impacts of agricultural practices on water quality and quantity. Although widely applied, the data framework used to drive SWAT in the United States (U.S.) is fragmented and inconsistent, varying by user and model interface. This research describes the development of the National Agroecosystems Model (NAM), which provides a unified field to national scale modeling computational framework for research and decision support by using the latest SWAT platform, dubbed SWAT+. NAM has sufficient detail to capture field‐level processes and management actions and spans the full extent of the contiguous U.S. NAM contains 7 million computational units, 4 million of which represent specific cultivated fields. It contains 3 million individually identifiable stream segments and more than 5,000 reservoirs. NAM is intended to serve as a reasonable base framework to be refined for specific applications. This work describes the individual data sources, assumptions, and the processing steps for their inclusion. NAM is constructed with 2,121 individual SWAT+ models which can be executed in a parallel hierarchical structure to dramatically improve runtime. This framework was tested in a case study of the Little River Watershed, Tifton, GA. NAM is developed using only publicly available data sources such that subsets of it can be shared to support research with other government agencies, universities, and others in the public domain.

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Section: Methodsmentioning

confidence: 99%

Development of a Field Scale SWAT+ Modeling Framework for the Contiguous U.S.

White

Arnold

Bieger

et al. 2022

J American Water Resour Assoc

Self Cite

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“…A D50 dataset containing 2453 data points across the contiguous U.S. from five different sources was used in this study. A detailed description of the data variables, data sources, and data preparation can be found in Jha et al [30]. Table 1 provides information on the number of data points, from each of the sources, for which D50 and other data were available including bankfull discharge (Q), width (W), depth (D), channel slope (S), and drainage area (DA).…”

Section: Sources Of D50 and Hydrological Datamentioning

confidence: 99%

Assessing Streambed Stability Using D50-Based Stream Power Across Contiguous U.S.

Jha

Asamen

Allen

et al. 2022

Water

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Streambed aggradation and degradation are ways in which a stream will respond to changes in the incoming flow and sediment loads. Several environmental and societal problems are attributed to these channel bed adjustments. Prior studies have extensively used stream power to discern dominant channel processes and establish threshold limits required to trigger channel modifications. However, these studies were constrained by limited datasets and the scope of the applications. The current study used a large dataset of streambed median grain size (D50) across the contiguous U.S. in conjunction with a screening tool to assess the streambed stability for channel erosion and deposition potential. Analysis at the Physiographic Province level indicated major geomorphic changes are highly likely to occur in the Blue Ridge and Pacific Border provinces. Deposition-dominated streams are prominent in the Central Lowland, Great Plains, and Coastal Plain, whereas the Colorado Plateaus and Wyoming Basin have the highest percentage of stable channels. Smoothed spatial maps of stream power indicated the prevalence of high stream power in the Northeast and Pacific Northwest regions of the U.S. Comparison of channel erosion and deposition predictions using the stream power map with actual field calculated aggradation and degradation results yielded a 55% prediction accuracy. Further analysis based on the stream order revealed the association of higher stream power with lower stream orders.

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Streambed Median Grain Size (D50) across the Contiguous U.S.

Cited by 2 publications

References 40 publications

Development of a Field Scale SWAT+ Modeling Framework for the Contiguous U.S.

Development of a Field Scale SWAT+ Modeling Framework for the Contiguous U.S.

Assessing Streambed Stability Using D50-Based Stream Power Across Contiguous U.S.

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