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Nicole M. Gasparini
Researcher at Tulane University
Publications - 55
Citations - 2419
Nicole M. Gasparini is an academic researcher from Tulane University. The author has contributed to research in topics: Landscape evolution model & Bedrock. The author has an hindex of 21, co-authored 50 publications receiving 2047 citations. Previous affiliations of Nicole M. Gasparini include Massachusetts Institute of Technology & Arizona State University.
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Book ChapterDOI
The Channel-Hillslope Integrated Landscape Development Model (CHILD)
TL;DR: By providing the much-needed connection between measurable processes and the dynamics of long-term landscape evolution that these processes drive, mathematical landscape models have posed challenging new hypotheses and have provided the guiding impetus behind new quantitative field studies and Digital Elevation Model -based analyses of terrain.
Journal ArticleDOI
An object-oriented framework for distributed hydrologic and geomorphic modeling using triangulated irregular networks
TL;DR: The framework provides an efficient method for storing, accessing, and updating a Delaunay triangulation and its associated Voronoi diagram and develops a set of algorithms for defining drainage networks and identifying closed depressions for hydrologic and geomorphic modeling applications.
Journal ArticleDOI
Creative computing with Landlab: an open-source toolkit for building, coupling, and exploring two-dimensional numerical models of Earth-surface dynamics
Daniel E. J. Hobley,Daniel E. J. Hobley,Daniel E. J. Hobley,J. M. Adams,Sai Siddhartha Nudurupati,Eric W. H. Hutton,Nicole M. Gasparini,Erkan Istanbulluoglu,Gregory E. Tucker,Gregory E. Tucker +9 more
TL;DR: Landlab exposes a standardized model interoperability interface, and is able to couple to third-party models and software, and offers tools to allow the creation of cellular automata, and allows native coupling of such models to more traditional continuous differential equation-based modules.
Journal ArticleDOI
Timescales of landscape response to divide migration and drainage capture: Implications for the role of divide mobility in landscape evolution
TL;DR: In this article, a non-dimensional divide migration number, NDm, is defined as the ratio of the timescale of channel profile response to a change in drainage area (TdA) to the timescales of divide migration (TDm).
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A quantitative evaluation of Playfair's law and its use in testing long‐term stream erosion models
TL;DR: In this paper, Playfair's law and associated m/n estimates are evaluated for simulated basins with constant and temporally varying uplift rates (or baselevel lowering rates), and it is shown that estimates may be biased for basins having upward-concave stream profiles because the local slope must be approximated with an average upstream slope.