2019 CSDMS meeting-018: Difference between revisions
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{{CSDMS meeting abstract template 2019 | {{CSDMS meeting abstract template 2019 | ||
|CSDMS meeting abstract=The WBMsed model offers a unique framework for studying river flux dynamics, ranging from basin to global scales. When it was first published in 2013, WBMsed included a spatially and temporally explicit suspended sediment flux module, developed within the WBMplus (FrAMES) hydrological framework. Since then the model has been used for a range of studies and been extended to include a bedload, water density, and particulete nutrients modules. The model's hydrological and geomorphic processes were improved to better represent riverine and landscape dynamics. These include the introduction of a flooding mechanism, spatially-explicit river slope, and land use inputs. Here we will outline these model development and its use for river and coastal studies. | |CSDMS meeting abstract=The WBMsed model offers a unique framework for studying river flux dynamics, ranging from basin to global scales. When it was first published in 2013, WBMsed included a spatially and temporally explicit suspended sediment flux module, developed within the WBMplus (FrAMES) hydrological framework. Since then the model has been used for a range of studies and been extended to include a bedload, water density, and particulete nutrients modules. The model's hydrological and geomorphic processes were improved to better represent riverine and landscape dynamics. These include the introduction of a flooding mechanism, spatially-explicit river slope, and land use inputs. Here we will outline these model development and its use for river and coastal studies. | ||
|CSDMS meeting posterPDF= Sagy_Cohen_CSDMS_Conference_Poster_final.pdf | |||
|CSDMS meeting posterPNG= Sagy_Cohen_CSDMS_Conference_Poster_final.png | |||
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Latest revision as of 12:56, 28 May 2019
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Recent advances in global-scale hydro-geomorphic riverine modeling
The WBMsed model offers a unique framework for studying river flux dynamics, ranging from basin to global scales. When it was first published in 2013, WBMsed included a spatially and temporally explicit suspended sediment flux module, developed within the WBMplus (FrAMES) hydrological framework. Since then the model has been used for a range of studies and been extended to include a bedload, water density, and particulete nutrients modules. The model's hydrological and geomorphic processes were improved to better represent riverine and landscape dynamics. These include the introduction of a flooding mechanism, spatially-explicit river slope, and land use inputs. Here we will outline these model development and its use for river and coastal studies.