Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3

Global monthly outputs of orography, surface air temperature and water stable isotopes (d18O) were run by the isotope-enabled atmosphere/ocean coupled model HadCM3 for the last interglacial (128 ka). An ensemble of ten idealised Antarctic Ice Sheet (AIS) simulations were processed, included a pre-in...

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Main Authors: Goursaud, Sentia, Holloway, Max, Sime, Louise, Wolff, Eric, Valdes, Paul, Steig, Eric, Pauling, Andrew
Format: Dataset
Language:English
Published: NERC EDS UK Polar Data Centre 2020
Subjects:
"EARTH SCIENCE","ATMOSPHERE","ATMOSPHERIC TEMPERATURE","SURFACE TEMPERATURE","AIR TEMPERATURE"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER ELEVATION/ICE SHEET ELEVATION"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","PALEOCLIMATE","ICE CORE RECORDS","ISOTOPES"
"EARTH SCIENCE","PALEOCLIMATE","PALEOCLIMATE RECONSTRUCTIONS"
Antarctica
climate modelling
effect of the elevation
last interglacial
water stable isotopes
Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
Dome Fuji
Talos Dome
Taylor Dome
Hercules
Holloway
Dome F
Hercules Dome
Antarc*
EPICA
ice core
Ice Sheet
Sea ice
Online Access:https://dx.doi.org/10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214
https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01429
id ftdatacite:10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic "EARTH SCIENCE","ATMOSPHERE","ATMOSPHERIC TEMPERATURE","SURFACE TEMPERATURE","AIR TEMPERATURE"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER ELEVATION/ICE SHEET ELEVATION"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","PALEOCLIMATE","ICE CORE RECORDS","ISOTOPES"
"EARTH SCIENCE","PALEOCLIMATE","PALEOCLIMATE RECONSTRUCTIONS"
Antarctica
climate modelling
effect of the elevation
last interglacial
water stable isotopes
spellingShingle "EARTH SCIENCE","ATMOSPHERE","ATMOSPHERIC TEMPERATURE","SURFACE TEMPERATURE","AIR TEMPERATURE"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER ELEVATION/ICE SHEET ELEVATION"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","PALEOCLIMATE","ICE CORE RECORDS","ISOTOPES"
"EARTH SCIENCE","PALEOCLIMATE","PALEOCLIMATE RECONSTRUCTIONS"
Antarctica
climate modelling
effect of the elevation
last interglacial
water stable isotopes
Goursaud, Sentia
Holloway, Max
Sime, Louise
Wolff, Eric
Valdes, Paul
Steig, Eric
Pauling, Andrew
Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
topic_facet "EARTH SCIENCE","ATMOSPHERE","ATMOSPHERIC TEMPERATURE","SURFACE TEMPERATURE","AIR TEMPERATURE"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER ELEVATION/ICE SHEET ELEVATION"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","PALEOCLIMATE","ICE CORE RECORDS","ISOTOPES"
"EARTH SCIENCE","PALEOCLIMATE","PALEOCLIMATE RECONSTRUCTIONS"
Antarctica
climate modelling
effect of the elevation
last interglacial
water stable isotopes
description Global monthly outputs of orography, surface air temperature and water stable isotopes (d18O) were run by the isotope-enabled atmosphere/ocean coupled model HadCM3 for the last interglacial (128 ka). An ensemble of ten idealised Antarctic Ice Sheet (AIS) simulations were processed, included a pre-industrial and a last interglacial control simulations. The eight other simulations used changed topography of the AIS relative to Dome C to ensure the preservation of the atmospheric pathways. The simulations were run 100 years and the last 50 years were used for the analyses. This work was funding through the European Research Council under the Horizon 2020 research and innovation programme (grant agreement No 742224, WACSWAIN) and NERC grant NE/P009271/1. : The isotopic response to idealised changes in AIS elevation are simulated using the isotope-enabled coupled ocean--atmosphere--sea-ice General Circulation Model, HadCM3 (Tindall et al., 2009). Two control simulations were used: a pre-industrial (PI) simulation, and a 128 ka simulation centred on the last interglacial (LIG) Antarctic isotope maximum including a modern day AIS configuration (Holloway et al., 2016). Then a suite of eight idealised AIS elevation change simulations were performed using orbital and greenhouse-gas forcing at 128 ka. Each experiment scaled the AIS and relates the change to elevation at the EPICA Dome C (EDC) ice core site following: beta = ZEDC / (ZEDC + DeltaZ) where ZEDC is the EDC ice core site elevation in the modern day AIS configuration, DeltaZ is the prescribed elevation change which extends to +/- 1000 m, and beta is the scaling coefficient. Elevations across the Antarctic continent are then increased or decreased proportional to beta; ZA' = ZA / beta where ZA is the two-dimensional array of modern AIS elevations and ZA' is a new array of altered AIS elevations. This approach maintains the modern shape of the AIS, thus reducing the influence of changing ice sheet configuration on circulation and climate and isolating the effect of elevation changes alone. We perform experiments with DeltaZ equal to (+/-) 100, 200, 500 and 1000 m. Each of the above elevation change scenarios is integrated for a total of 500-years to ensure that surface and mid-depth climate fields are sufficiently spun-up with the imposed elevation changes. The last 50 years of each simulation are analysed. LIG Antarctic isotope maximum of between +2-4 per mille above PI in d18O are recorded in East Antarctic ice cores. We evaluate our elevation scenarios against LIG d18O maxima from five published ice core records from East Antarctica (Masson Delmotte et al., 2011): Vostok, Dome Fuji, EPICA Dome C, EPICA Dronning Maud Land and Talos Dome Ice Core. The records are processed following the approach outlined in Holloway et al. (2017): The ice core isotope records are synchronised to the EDC3 age scale (Parrenin et al., 2007) and interpolated onto a common 100 year time grid. Any residual temporal misalignment between the ice cores is minimised by applying a 1500 yr low-pass filter to each record before taking the LIG peak (Sime et al., 2009). Fractional isotopic content is expressed for oxygen-18 as: d18O = 1000 x (H218O / H216O) / RVSMOW-1 in per mille, where RVSMOW is the ratio of H218O to H216O for Vienna standard mean ocean water. : Model code developed to analyse the outputs can be found on Github: https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial. To analyse the outputs using the model code, one needs python 2.7 (or 3), with modules likes matplotlib, numpy, iris. The model was run using 128k orbital parameters for 100 years. Data consist of surface outputs (1 level) with global coverage (longitude from 0 to 360 degrees and latitude from -90 to 90 degrees). When analysing the outputs, a focus was made on location of ice cores covering the last interglacial: Vostok (E106.8, S78.5), Dome F (E39.7, S77.3), EDC (E123.4, S75.1), EDML (E0.07, S75.0), Taylor Dome (E158.7, S77.8), TALDICE (E159.2, S72.8), WAIS Divide (E247.9, S79.5), Hercules Dome (E255, S86), Skytrain (E280.3, S78). : No quality control procedures out of the described methodology were processed.
format Dataset
author Goursaud, Sentia
Holloway, Max
Sime, Louise
Wolff, Eric
Valdes, Paul
Steig, Eric
Pauling, Andrew
author_facet Goursaud, Sentia
Holloway, Max
Sime, Louise
Wolff, Eric
Valdes, Paul
Steig, Eric
Pauling, Andrew
author_sort Goursaud, Sentia
title Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
title_short Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
title_full Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
title_fullStr Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
title_full_unstemmed Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3
title_sort global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised antarctic ice sheet simulations run by the isotope-enabled hadcm3
publisher NERC EDS UK Polar Data Centre
publishDate 2020
url https://dx.doi.org/10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214
https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01429
long_lat ENVELOPE(39.700,39.700,-77.317,-77.317)
ENVELOPE(158.000,158.000,-73.000,-73.000)
ENVELOPE(157.667,157.667,-77.667,-77.667)
ENVELOPE(161.450,161.450,-77.483,-77.483)
ENVELOPE(163.600,163.600,-84.750,-84.750)
ENVELOPE(39.700,39.700,-77.317,-77.317)
ENVELOPE(-105.000,-105.000,-86.000,-86.000)
geographic Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
Dome Fuji
Talos Dome
Taylor Dome
Hercules
Holloway
Dome F
Hercules Dome
geographic_facet Antarctic
The Antarctic
East Antarctica
Dronning Maud Land
Dome Fuji
Talos Dome
Taylor Dome
Hercules
Holloway
Dome F
Hercules Dome
genre Antarc*
Antarctic
Antarctica
Dronning Maud Land
East Antarctica
EPICA
ice core
Ice Sheet
Sea ice
genre_facet Antarc*
Antarctic
Antarctica
Dronning Maud Land
East Antarctica
EPICA
ice core
Ice Sheet
Sea ice
op_relation https://www.esc.cam.ac.uk/research/research-groups/wacswain
https://blog.esc.cam.ac.uk/?tag=wacswain
https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial
https://dx.doi.org/10.1029/2008jd010825
https://dx.doi.org/10.1029/2018gl079647
https://dx.doi.org/10.1038/nature08564
https://dx.doi.org/10.1038/ncomms12293
https://dx.doi.org/10.5194/cp-3-243-2007
https://dx.doi.org/10.5194/cp-7-397-2011
https://www.esc.cam.ac.uk/research/research-groups/wacswain
https://blog.esc.cam.ac.uk/?tag=wacswain
https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial
op_rights Open Government Licence V3.0
http://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/
op_doi https://doi.org/10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214
https://doi.org/10.1029/2008jd010825
https://doi.org/10.1029/2018gl079647
https://doi.org/10.1038/nature08564
https://doi.org/10.1038/ncomms12293
https://doi.org/10.5194/cp-3-243-2007
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spelling ftdatacite:10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214 2023-05-15T13:36:39+02:00 Global monthly outputs of orography, surface air temperature and water stable isotopes for the last interglacial for idealised Antarctic Ice Sheet simulations run by the isotope-enabled HadCM3 Goursaud, Sentia Holloway, Max Sime, Louise Wolff, Eric Valdes, Paul Steig, Eric Pauling, Andrew 2020 application/x-hdf application/netcdf https://dx.doi.org/10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214 https://data.bas.ac.uk/full-record.php?id=GB/NERC/BAS/PDC/01429 en eng NERC EDS UK Polar Data Centre https://www.esc.cam.ac.uk/research/research-groups/wacswain https://blog.esc.cam.ac.uk/?tag=wacswain https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial https://dx.doi.org/10.1029/2008jd010825 https://dx.doi.org/10.1029/2018gl079647 https://dx.doi.org/10.1038/nature08564 https://dx.doi.org/10.1038/ncomms12293 https://dx.doi.org/10.5194/cp-3-243-2007 https://dx.doi.org/10.5194/cp-7-397-2011 https://www.esc.cam.ac.uk/research/research-groups/wacswain https://blog.esc.cam.ac.uk/?tag=wacswain https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial Open Government Licence V3.0 http://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/ "EARTH SCIENCE","ATMOSPHERE","ATMOSPHERIC TEMPERATURE","SURFACE TEMPERATURE","AIR TEMPERATURE" "EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER ELEVATION/ICE SHEET ELEVATION" "EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY" "EARTH SCIENCE","PALEOCLIMATE","ICE CORE RECORDS","ISOTOPES" "EARTH SCIENCE","PALEOCLIMATE","PALEOCLIMATE RECONSTRUCTIONS" Antarctica climate modelling effect of the elevation last interglacial water stable isotopes Antarctica,climate modelling,effect of the elevation,last interglacial,water stable isotopes Dataset dataset 2020 ftdatacite https://doi.org/10.5285/09330d14-7f2d-4c12-ad00-08a9cd1fb214 https://doi.org/10.1029/2008jd010825 https://doi.org/10.1029/2018gl079647 https://doi.org/10.1038/nature08564 https://doi.org/10.1038/ncomms12293 https://doi.org/10.5194/cp-3-243-2007 2022-04-01T18:31:41Z Global monthly outputs of orography, surface air temperature and water stable isotopes (d18O) were run by the isotope-enabled atmosphere/ocean coupled model HadCM3 for the last interglacial (128 ka). An ensemble of ten idealised Antarctic Ice Sheet (AIS) simulations were processed, included a pre-industrial and a last interglacial control simulations. The eight other simulations used changed topography of the AIS relative to Dome C to ensure the preservation of the atmospheric pathways. The simulations were run 100 years and the last 50 years were used for the analyses. This work was funding through the European Research Council under the Horizon 2020 research and innovation programme (grant agreement No 742224, WACSWAIN) and NERC grant NE/P009271/1. : The isotopic response to idealised changes in AIS elevation are simulated using the isotope-enabled coupled ocean--atmosphere--sea-ice General Circulation Model, HadCM3 (Tindall et al., 2009). Two control simulations were used: a pre-industrial (PI) simulation, and a 128 ka simulation centred on the last interglacial (LIG) Antarctic isotope maximum including a modern day AIS configuration (Holloway et al., 2016). Then a suite of eight idealised AIS elevation change simulations were performed using orbital and greenhouse-gas forcing at 128 ka. Each experiment scaled the AIS and relates the change to elevation at the EPICA Dome C (EDC) ice core site following: beta = ZEDC / (ZEDC + DeltaZ) where ZEDC is the EDC ice core site elevation in the modern day AIS configuration, DeltaZ is the prescribed elevation change which extends to +/- 1000 m, and beta is the scaling coefficient. Elevations across the Antarctic continent are then increased or decreased proportional to beta; ZA' = ZA / beta where ZA is the two-dimensional array of modern AIS elevations and ZA' is a new array of altered AIS elevations. This approach maintains the modern shape of the AIS, thus reducing the influence of changing ice sheet configuration on circulation and climate and isolating the effect of elevation changes alone. We perform experiments with DeltaZ equal to (+/-) 100, 200, 500 and 1000 m. Each of the above elevation change scenarios is integrated for a total of 500-years to ensure that surface and mid-depth climate fields are sufficiently spun-up with the imposed elevation changes. The last 50 years of each simulation are analysed. LIG Antarctic isotope maximum of between +2-4 per mille above PI in d18O are recorded in East Antarctic ice cores. We evaluate our elevation scenarios against LIG d18O maxima from five published ice core records from East Antarctica (Masson Delmotte et al., 2011): Vostok, Dome Fuji, EPICA Dome C, EPICA Dronning Maud Land and Talos Dome Ice Core. The records are processed following the approach outlined in Holloway et al. (2017): The ice core isotope records are synchronised to the EDC3 age scale (Parrenin et al., 2007) and interpolated onto a common 100 year time grid. Any residual temporal misalignment between the ice cores is minimised by applying a 1500 yr low-pass filter to each record before taking the LIG peak (Sime et al., 2009). Fractional isotopic content is expressed for oxygen-18 as: d18O = 1000 x (H218O / H216O) / RVSMOW-1 in per mille, where RVSMOW is the ratio of H218O to H216O for Vienna standard mean ocean water. : Model code developed to analyse the outputs can be found on Github: https://github.com/aitens/Antarctic-Ice-Sheet-elevation-impacts-on-water-isotope-records-during-the-Last-Interglacial. To analyse the outputs using the model code, one needs python 2.7 (or 3), with modules likes matplotlib, numpy, iris. The model was run using 128k orbital parameters for 100 years. Data consist of surface outputs (1 level) with global coverage (longitude from 0 to 360 degrees and latitude from -90 to 90 degrees). When analysing the outputs, a focus was made on location of ice cores covering the last interglacial: Vostok (E106.8, S78.5), Dome F (E39.7, S77.3), EDC (E123.4, S75.1), EDML (E0.07, S75.0), Taylor Dome (E158.7, S77.8), TALDICE (E159.2, S72.8), WAIS Divide (E247.9, S79.5), Hercules Dome (E255, S86), Skytrain (E280.3, S78). : No quality control procedures out of the described methodology were processed. Dataset Antarc* Antarctic Antarctica Dronning Maud Land East Antarctica EPICA ice core Ice Sheet Sea ice DataCite Metadata Store (German National Library of Science and Technology) Antarctic The Antarctic East Antarctica Dronning Maud Land Dome Fuji ENVELOPE(39.700,39.700,-77.317,-77.317) Talos Dome ENVELOPE(158.000,158.000,-73.000,-73.000) Taylor Dome ENVELOPE(157.667,157.667,-77.667,-77.667) Hercules ENVELOPE(161.450,161.450,-77.483,-77.483) Holloway ENVELOPE(163.600,163.600,-84.750,-84.750) Dome F ENVELOPE(39.700,39.700,-77.317,-77.317) Hercules Dome ENVELOPE(-105.000,-105.000,-86.000,-86.000)

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