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Dataset

 

HadCM3 simulation data and model inputs supporting the manuscript "Simulated millennial-scale climate variability driven by a convection-advection oscillator"

Update Frequency: Not Planned
Latest Data Update: 2024-09-10
Status: Ongoing
Online Status: ONLINE
Publication State: Published
Publication Date: 2025-08-19
Download Stats: last 12 months
Dataset Size: 115 Files | 8GB
Abstract

This record contains Hadley Centre Coupled Model, version 3 (HadCM3) simulation data produced for the manuscript "Simulated millennial-scale climate variability driven by a convection-advection oscillator" by Y.M. Rome et al, submitted to Climate Dynamics https://doi.org/10.1007/s00382-025-07630-x

This paper introduces the convection-advection oscillator mechanism to explain the millennial-scale oscillations observed in a set of HadCM3 general circulation model simulations forced with snapshots of deglacial meltwater history. The oscillating simulation was compared to different simulations using a different meltwater forcing and model parametrisation to extract the main components at stake in the establishment of the oscillations. This record also includes a rerun of the primary oscillating simulation with additional salinity tendencies diagnostic included.

This results in six HadCM3 simulations of the Last Glacial Maximum (21,000 years ago) integrated over 3,000 to 10,000 years. The model outputs were saved as netcdf files, and the data were cropped to only include the fields relevant to the figures of the paper. This dataset can be used as the input of the companion scripts accessible using the following DOI: 10.5281/zenodo.13710877. The dataset also includes some of the model inputs, namely the land-sea mask, basin files, meltwater forcing and waterfix, necessary for the reproducibility of the results.

Citable as:  University of Leeds; Rome, Y.; Ivanovic, R.; Gregoire, L. (2025): HadCM3 simulation data and model inputs supporting the manuscript "Simulated millennial-scale climate variability driven by a convection-advection oscillator". NERC EDS Centre for Environmental Data Analysis, date of citation. https://catalogue.ceda.ac.uk/uuid/1f4ebb2944ec43a39ce6c69a8f1942fb
Cite this dataset

Abbreviation: Not defined
Keywords: Not defined

Details

Previous Info:
No news update for this record
Previously used record identifiers:
No related previous identifiers.
Access rules:
Public data: access to these data is available to both registered and non-registered users.
Use of these data is covered by the following licence(s):
http://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/
When using these data you must cite them correctly using the citation given on the CEDA Data Catalogue record.
Data lineage:

The main simulations were run for Romé et al. 2022 ( https://doi.org/10.1029/2022PA004451), and adapted for the specificity of the manuscript corresponding to this paper. This dataset also includes a rerun of the previous experiments with additional salinity tendencies outputs (XOUPK) and a sensitivity experiment without the global salinity scripts (XPPBF). The data here have been extracted from the raw outputs of HadCM3.
File Format:
NetCDF and CSV

Related Documents

 Companion scripts
 Supporting paper - Simulated millennial-scale climate variability driven by a convection-advection oscillator Climate Dynamics 63, 150 (2025)

Process overview

This dataset was generated by the computation detailed below.
Title

HadCM3B coupled climate model
Abstract

The Hadley Centre Climate Model 3 Bristol (HadCM3B) is a coupled climate model consisting of a 3D dynamical atmosphere26 and ocean27 component. HadCM3B is a version of the more commonly known HadCM3 that has been developed at the University of Bristol
Input Description

None
Output Description

None
Software Reference

None
  • units: m
  • var_id: mixLyrDpth_mm_uo
  • long_name: MIXED LAYER DEPTH (OCEAN) M
  • standard_name: type 1."
  • var_id: Merid_Atlantic
  • units: Sv
  • long_name: Meridional Overturning Stream Function (Atlantic)
  • units: Sv
  • var_id: Merid_Global
  • long_name: Meridional Overturning Stream Function (Global)
  • units: Sv
  • var_id: Merid_Indian
  • long_name: Meridional Overturning Stream Function (Indian)
  • units: Sv
  • var_id: Merid_Pacific
  • long_name: Meridional Overturning Stream Function (Pacific)
  • units: 0-1
  • long_name: SEA ICE FRACTION AFTER TIMESTEP
  • standard_name: sea_ice_area_fraction
  • var_id: iceconc_mm_srf
  • var_id: adv
  • var_id: advx
  • var_id: advy
  • var_id: advz
  • var_id: arctic
  • var_id: atlantic
  • var_id: conv
  • var_id: density
  • units: m
  • var_id: depth
  • units: m
  • var_id: depth_1
  • var_id: diff
  • var_id: diffx
  • var_id: diffy
  • var_id: diffz
  • var_id: fourier
  • var_id: gm
  • var_id: ice
  • var_id: indian
  • var_id: latitude
  • var_id: longitude
  • var_id: med
  • var_id: ml
  • var_id: mld
  • var_id: pacific
  • var_id: robert
  • var_id: salinity_cluster
  • var_id: salinity_means
  • var_id: sfc
  • var_id: southern
  • var_id: stream
  • units: level
  • var_id: surface
  • var_id: t
  • units: days
  • var_id: temp_ym_dpth
  • long_name: time
  • var_id: t
  • units: days
  • var_id: tot
  • units: unspecified
  • var_id: unspecified
  • var_id: zone

Co-ordinate Variables

Coverage
Temporal Range
Start time:
0001-01-01T00:00:00
End time:
9999-01-01T00:00:00
Geographic Extent

 
90.0000°
  
-180.0000°
  
180.0000°
 
-90.0000°
  
Related parties
Authors (4)
Publishers (1)
Funders (1)
Principal Investigators (1)