Model output for analyses conducted in de la Vega & Buchanan et al. (2022) Global Change Biology

Model data for: De La Vega & Buchanan et al. (2022) Multi-decadal environmental change in the Barents Sea recorded by seal teeth. Global Change Biology. Each netcdf file (.nc) contains model output from simulations performed with the NEMO-SI3-PISCES global ocean-seaice-biogeochemistry model. The...

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Bibliographic Details
Main Authors: Buchanan, Pearse, de la Vega, Camille, Tagliabue, Alessandro, Mahaffey, Claire, Jeffreys, Rachel
Format: Dataset
Language:English
Published: Zenodo 2022
Subjects:
Barents Sea
Sea ice
Online Access:https://dx.doi.org/10.5281/zenodo.6127523
https://zenodo.org/record/6127523
Description
Summary:Model data for: De La Vega & Buchanan et al. (2022) Multi-decadal environmental change in the Barents Sea recorded by seal teeth. Global Change Biology. Each netcdf file (.nc) contains model output from simulations performed with the NEMO-SI3-PISCES global ocean-seaice-biogeochemistry model. These simulations were forced by the Japanese Atmospheric Reanalysis 55 (Tsujino et al. 2018), which provides "best-guess" atmospheric conditions since 1958 to present day. Simulations for this study were performed from Jan 1958 - Dec 2019. Variables included here are: - zonal velocity (u) m s-1 - meridional velocity (v) m s-1 - potential temperature (thetao) degrees C - salinity (so) psu - sea ice concentraton (siconc) 0-1 - nitrate (NO3) mmol m-3 - nitrate 15 (NO3_15) mmol m-3 - small particulate organics (POC) mmol m-3 - small particulate organics 15 (POC_15) mmol m-3 - large particulate organics (GOC) mmol m-3 - large particulate organics 15 (GOC_15) mmol m-3 - nanophytoplankton NPP (PPPHYN) mol C m-3 s-1 - diatoms NPP (PPPHYD) mol C m-3 s-1 - nanophytoplankton chlorophyll (NCHL) mmol m-3 - diatoms chlorophyll (DCHL) mmol m-3 - atmospheric N deposition (NDEP) kg N m-2 s-1 Files: ETOPO_JRA55_pic_1y_u_1958-2019.nc ETOPO_JRA55_pic_1y_v_1958-2019.nc ETOPO_JRA55_pic_1y_TS_1958-2019.nc ETOPO_JRA55_pic_1y_ice_1958-2019.nc ETOPO_JRA55_pic_1y_isos_1958-2019.nc ETOPO_JRA55_pic_1y_npp_1958-2019.nc ETOPO_JRA55_pic_1y_chl_1958-2019.nc ETOPO_JRA55_ndep_1y_isos_1958-2019.nc ETOPO_JRA55_ndep_1y_npp_1958-2019.nc ETOPO_JRA55_ndep_1y_chl_1958-2019.nc ETOPO_ndep_files_1801-2100.nc --> Atmospheric deposition Naming convention: "ETOPO" refers to being on a regular 1x1 degree horizontal grid "JRA55" refers to forcing by the Japanese atmospheric reanalysis "pic" refers to an experiment WITHOUT the historical increase in atmospheric nitrogne deposition "ndep" refers to an experiment WITH the historical increase in atmospheric nitrogne deposition "1y" refers to the timestep resolution, here all 1 year. Thus, all data presented here is annually averaged values. "u" refers to zonal velocity "v" refers to meridional velocity "TS" refers to temperature and salinity "ice" refers to sea ice "isos" refers to NO3, NO3_15, POC, POC_15, GOC and GOC_15 "npp" refers to PPPHYN and PPPHYD "chl" refers to NCHL and DCHL Atmospheric deposition files are created by linear interpolation using the fields produced by Hauglustaine et al. (2014). Contact: Camille.De-La-Vega@liverpool.ac.uk Pearse.Buchanan@liverpool.ac.uk Refs: Tsujino et al. (2018) JRA-55 based surface dataset for driving ocean–sea-ice models (JRA55-do). Ocean Modelling. doi:10.1016/j.ocemod.2018.07.002 Hauglustaine et al. (2014) A global model simulation of present and future nitrate aerosols and their direct radiative forcing of climate. Atmospheric Chemistry and Physics. doi:10.5194/acp-14-11031-2014.

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