127 research outputs found
Editorial: The engaged university
Gateways has been a place where university researchers and community members join together to better understand the broad range of issues confronting communities across the globe, including academic communities. It is well positioned to promote a healthy debate among community members, researchers and policy-makers around scores of problems. We will continue to be a resource that is free to the thousands of our readers
Development of the Global Width Database for Large Rivers
River width is a fundamental parameter of river hydrodynamic simulations, but no global-scale river width database based on observed water bodies has yet been developed. Here we present a new algorithm that automatically calculates river width from satellite-based water masks and flow direction maps. The Global Width Database for Large Rivers (GWD-LR) is developed by applying the algorithm to the SRTM Water Body Database and the HydroSHEDS flow direction map. Both bank-to-bank river width and effective river width excluding islands are calculated for river channels between 60S and 60N. The effective river width of GWD-LR is compared with existing river width databases for the Congo and Mississippi Rivers. The effective river width of the GWD-LR is slightly narrower compared to the existing databases, but the relative difference is within ±20% for most river channels. As the river width of the GWD-LR is calculated along the river channels of the HydroSHEDS flow direction map, it is relatively straightforward to apply the GWD-LR to global- and continental-scale river modeling
A multi-sensor approach towards a global vegetation corrected SRTM DEM product
AbstractWe develop the first global ‘Bare-Earth’ Digital Elevation Model (DEM) based on the Shuttle Radar Topography Mission (SRTM) for all landmasses between 60N and 54S. Our new ‘Bare-Earth’ SRTM DEM combines multiple remote sensing datasets, including point-ground elevations from NASA's laser altimeter ICESat, a database of percentage of tree cover from the MODIS satellite as a proxy for penetration depth of SRTM and a global vegetation height map in order to remove the vegetation artefacts present in the original SRTM DEM. We test multiple methods of removing vegetation artefacts and investigate the use of regionalization. Our final ‘Bare-Earth’ SRTM product shows global improvements greater than 10m in the bias over the original SRTM DEM in vegetated areas compared with ground elevations determined from ICESat data with a significant reduction in the root mean square error from over 14m to 6m globally. Therefore, our DEM will be valuable for any global applications, such as large scale flood modelling requiring a ‘Bare-Earth’ DEM
Gateways: Expanding knowledge through broader participation
This new journal, Gateways: International Journal of Community
Research and Engagement, responds to a growing global movement
of university-collaborative research initiatives. It also strives to fill a
gap created by the sparse number of journals which publish
outcomes of community-engaged research and work concerning
community engagement. We seek articles based on research that is
the result of actively engaged research-practitioner collaborative
projects, has the potential of informing community-based activities or
develops understanding of community engagement. Combining
different knowledge bases that have traditionally been separated into
academic and non-academic worlds can dramatically increase
information flowing to scholars, community leaders and activists
seeking to improve the quality of life in local communities around the
world. We also wish to encourage work that contributes to the
scholarship of engagement
Development of the Global Width Database for Large Rivers
River width is a fundamental parameter of river hydrodynamic simulations, but no global-scale river width database based on observed water bodies has yet been developed. Here we present a new algorithm that automatically calculates river width from satellite-based water masks and flow direction maps. The Global Width Database for Large Rivers (GWD-LR) is developed by applying the algorithm to the SRTM Water Body Database and the HydroSHEDS flow direction map. Both bank-to-bank river width and effective river width excluding islands are calculated for river channels between 60S and 60N. The effective river width of GWD-LR is compared with existing river width databases for the Congo and Mississippi Rivers. The effective river width of the GWD-LR is slightly narrower compared to the existing databases, but the relative difference is within ±20% for most river channels. As the river width of the GWD-LR is calculated along the river channels of the HydroSHEDS flow direction map, it is relatively straightforward to apply the GWD-LR to global- and continental-scale river modeling
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