Unified Geomorphological Analysis Workflows with Benthic Terrain Modeler

Unified Geomorphological Analysis Workflows with Benthic Terrain Modeler

High resolution remotely sensed bathymetric data is rapidly increasing in volume, but analyzing this data requires a mastery of a complex toolchain of disparate software, including computing derived measurements of the environment. Bathymetric gradients play a fundamental role in energy transport th...

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Bibliographic Details
Main Authors: Shaun Walbridge, Noah Slocum, Marjean Pobuda, Dawn J. Wright
Format: Article
Language:English
Published: MDPI AG 2018-03-01
Series:Geosciences
Subjects:
geomorphometry
terrain analysis
bathymetry
surface roughness
benthic habitat mapping
python
Online Access:http://www.mdpi.com/2076-3263/8/3/94
Description
Summary:High resolution remotely sensed bathymetric data is rapidly increasing in volume, but analyzing this data requires a mastery of a complex toolchain of disparate software, including computing derived measurements of the environment. Bathymetric gradients play a fundamental role in energy transport through the seascape. Benthic Terrain Modeler (BTM) uses bathymetric data to enable simple characterization of benthic biotic communities and geologic types, and produces a collection of key geomorphological variables known to affect marine ecosystems and processes. BTM has received continual improvements since its 2008 release; here we describe the tools and morphometrics BTM can produce, the research context which this enables, and we conclude with an example application using data from a protected reef in St. Croix, US Virgin Islands.
ISSN:2076-3263

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