Fersiynau electronig

Dogfennau

  • 2019PA003644

    Llawysgrif awdur wedi’i dderbyn, 4 MB, dogfen-PDF

    Embargo yn dod i ben: 1/08/20

Dangosydd eitem ddigidol (DOI)

At present, tides supply approximately half (1 TW) of the energy necessary to sustain the global deep meridional overturning circulation (MOC) through diapycnal mixing. During the Last Glacial Maximum (19,000‐26,500 years BP; LGM) tidal dissipation in the open ocean may have strongly increased due to the 120‐130 m global mean sea‐level drop and changes in ocean basin shape. However, few investigations into LGM climate and ocean circulation consider LGM tidal mixing changes. Here, using an intermediate complexity climate model we present a detailed investigation on how changes in tidal dissipation would affect the global MOC. Present‐day (PD) and LGM tidal constituents M2, S2, K1 and O1 are simulated using a tide model, and accounting for LGM bathymetric. The tide model results suggest that the LGM energy supply to the internal wave field was 1.8‐3 times larger than at present and highly sensitive to Antarctic and Laurentide ice sheet extent. Including realistic LGM tide forcing in the LGM climate simulations leads to large increases in Atlantic diapycnal diffusivities, and strengthens (by 14‐4% at 32°S) and deepens the Atlantic MOC.Present‐day (PD) and LGM tidal constituents M2, S2, K1 and O1 are simulated using a tide model, and accounting for LGM bathymetric. The tide model results suggest that the LGM energy supply to the internal wave field was 1.8‐3 times larger than at present and highly sensitive to Antarctic and Laurentide ice sheet extent. Including realistic LGM tide forcing in the LGM climate simulations leads to large increases in Atlantic diapycnal diffusivities, and strengthens (by 14‐4% at 32°S) and deepens the Atlantic MOC. Increased input of tidal energy leads to a greater draw‐down of North Atlantic Deep Water and mixing with Antarctic Bottom Water altering Atlantic temperature and salinity distributions. Our results imply that changes in tidal dissipation need be accounted for in paleo‐climate simulation setup as they can lead to large differences in ocean mixing, the global MOC, and presumably also ocean carbon and other biogeochemical cycles
Iaith wreiddiolSaesneg
CyfnodolynPaleoceanography
Dyddiad ar-lein cynnar1 Awst 2019
Dynodwyr Gwrthrych Digidol (DOIs)
StatwsE-gyhoeddi cyn argraffu - 1 Awst 2019
Gweld graff cysylltiadau