Code
Code posted here is free for download and subject to the included license files. If you use these products in a publication, please cite the data set (including DOI) and related papers.
AR2-sinuosity: adapts a second-order autogressive model for river channel sinuosity. More information on this code and a download link are listed in the model repository at the Community Surface Dynamics Modeling System (CSDMS) .
- Related paper: Limaye, A. B., Lazarus, E. D., *Li, Y., and Schwenk, J., 2021, River sinuosity describes a continuum between randomness and ordered growth, Geology 49 (12), 1506–1510, doi:10.1130/G49153.1.
Limaye, A. B., Adler, J. B., Moodie, A. J., Whipple, K. X., and Howard, A. D., 2022, Numerical model and geospatial data for fan-shaped deposits at Hypanis Valles, Mars, University of Virginia Dataverse, V2, doi:10.18130/V3/E0EGOC.
- Related paper: Limaye, A. B., Adler, J. B., Moodie, A. J., Whipple, K. X., and Howard, A. D., 2023, Effect of standing water on formation of fan-shaped sedimentary deposits at Hypanis Valles, Mars, Geophysical Research Letters 50(4), doi:10.1029/2022GL102367.
Data
Data sets posted here are free for download and subject to the included license files. If you use these products in a publication, please cite the data set (including DOI) and related papers.
5. Li, Y. and Limaye, A. B., 2022, Geospatial data for natural channel centerlines across the continental US, Univ. of Virginia Dataverse, doi:10.18130/V3/IUMGS7.
- Related paper: Li, Y., and Limaye, A. B., in press, Testing predictions for migration of meandering rivers: Fit for a curvature-based model depends on streamwise location and timescale, Journal of Geophysical Research: Earth Surface, doi:10.1029/2022JF006776.
4. Limaye, A. B., 2021, “Sinuosity data for numerically modeled and natural channels”, https://doi.org/10.18130/V3/TRTTIS, University of Virginia Dataverse, V1.
- Related paper: Limaye, A. B., Lazarus, E. D., *Li, Y., and Schwenk, J., 2021, River sinuosity describes a continuum between randomness and ordered growth, Geology 49 (12), 1506–1510, doi:10.1130/G49153.1.
3. Limaye, A. B., 2020, Geospatial data for experimental and natural channel belts, University of Virginia Dataverse, doi:10.18130/V3/XBYWYO.
- Related paper: Limaye, A. B., accepted, How do braided rivers grow channel belts?, Journal of Geophysical Research: Earth Surface, doi:10.1029/2020JF005570.
2. Limaye, A. B., Grimaud, J.-L., Lai, S. Y. J., Foreman, B. Z., Komatsu, Y., and Paola, C., 2018, Topography, image, and flow model data for experimental density currents, St. Anthony Falls Laboratory, 2015-2017, Data Repository for the University of Minnesota, doi:10.13020/D6R088.
- Related paper: Limaye, A.B., Grimaud, J.-L., Lai, S.Y.J., Foreman, Y., Komatsu, Y., and Paola, C., 2018, Geometry and dynamics of braided channels and bars under experimental density currents, Sedimentology 65(6), 1947-1972, doi:10.1111/sed.12453.
1. Limaye, A. B., 2017, Topography and flow model files for the Platte River, Nebraska, 2016-2017, Data Repository for the University of Minnesota, doi:10.13020/D6Z39J.
- Related paper: Limaye, A. B., 2017, Extraction of multithread channel networks with a reduced-complexity flow model, Journal of Geophysical Research: Earth Surface 122, doi:10.1002/2016JF004175.