A Model Archive for an Updated Water Column Biogeochemical-Seabed Diagenetic and Sediment Transport Model for the Northern Gulf of Mexico Hypoxic Zone
Yin, Dongxiao Cui, Linlin Harris, Courtney K. Moriarty, Julia M. Beck, Hannah Maiti, Kanchan
Yin, Dongxiao
Cui, Linlin
Harris, Courtney K.
Moriarty, Julia M.
Beck, Hannah
Maiti, Kanchan
Abstract
This dataset includes model input, code, and output used in the manuscript submitted to Journal of Advances in Modeling Earth Systems (Yin et al., 2024). In this work, the authors used a numerical model to understand how the seabed can affect bottom water acidification over the Northern Gulf of Mexico hypoxic zone. The model was built on the previously developed coupled hydrodynamic-sediment transport-biogeochemistry model (Moriarty et al., 2017) and expanded to include DIC and TAlk for ocean acidification. As described in manuscript of Yin et al. (2024), the model can reproduce the seabed-water column exchange of biologically important solutes including DIC and TAlk. This model can be used for quantifying the role of benthic fluxes in driving bottom water acidification over continental shelves.
Access the data by visiting: https://s3.amazonaws.com/swem-scholarly-storage/vims/DataArchive_DongxiaoYin_CourtneyHarris/index.html
Description
Date
2024-04-01
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Keywords
C.K. Harris Data Archive, Benthic-pelagic coupling, Ocean acidification, Northern Gulf of Mexico, HydroBioSed, Regional Ocean Modeling System
Citation
Yin, D., L. Cui, C.K. Harris, J.M. Moriarty, H. Beck, K. Maiti, 2024. “A model archive for an updated water column biogeochemical-seabed diagenetic and sediment transport model for the northern Gulf of Mexico hypoxic zone” Data. William & Mary. DOI: https://www.doi.org/10.25773/ajk6-4b53
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Virginia Institute of Marine Science
DOI
https://doi.org/10.25773/ajk6-4b53