Temperature and Wind Climate of the Antarctic Peninsula as Simulated by a High-Resolution Regional Atmospheric Climate Model

Jan Melchior van Wessem; Carleen H. Reijmer; Willem Jan van de Berg; Michiel R. van den Broeke; Alison J. Cook; Lambertus H. van Ulft; Erik van Meijgaard

doi:10.1175/JCLI-D-15-0060.1

Temperature and Wind Climate of the Antarctic Peninsula as Simulated by a High-Resolution Regional Atmospheric Climate Model

Jan Melchior van Wessem^*, Carleen H. Reijmer, Willem Jan van de Berg, Michiel R. van den Broeke, Alison J. Cook, Lambertus H. van Ulft, Erik van Meijgaard

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The latest polar version of the Regional Atmospheric Climate Model (RACMO2.3) has been applied to the Antarctic Peninsula (AP). In this study, the authors present results of a climate run at 5.5 km for the period 1979-2013, in which RACMO2.3 is forced by ERA-Interim atmospheric and ocean surface fields, using an updated AP surface topography. The model results are evaluated with near-surface temperature and wind measurements from 12 manned and automatic weather stations and vertical profiles from balloon soundings made at three stations. The seasonal cycle of near-surface temperature and wind is simulated well, with most biases still related to the limited model resolution. High-resolution climate maps of temperature and wind showing that the AP climate exhibits large spatial variability are discussed. Over the steep and high mountains of the northern AP, large west-to-east climate gradients exist, while over the gentle southern AP mountains the near-surface climate is dominated by katabatic winds. Over the flat ice shelves, where katabatic wind forcing is weak, interannual variability in temperature is largest. Finally, decadal trends of temperature and wind are presented, and it is shown that recently there has been distinct warming over the northwestern AP and cooling over the rest of the AP, related to changes in sea ice cover.

Original language	English
Pages (from-to)	7306-7326
Number of pages	21
Journal	Journal of Climate
Volume	28
Issue number	18
DOIs	https://doi.org/10.1175/JCLI-D-15-0060.1
Publication status	Published - 18 Sept 2015

Funding

We are grateful for the financial support of NWO/ALW, Netherlands Polar Programme. We thank the ECMWF for the use of their supercomputing facilities. Graphics and calculations were made using the NCAR Command Language (Version 6.2.1; UCAR/NCAR/CISL/VETS 2014). We thank Peter Kuipers Munneke for providing us with the Larsen C Ice Shelf radiosonde data and Stefan Ligtenberg for providing us with the FDM data for model initialization. We are grateful for data from the SCAR-READER dataset and for Steve Colwell helping us with the usage of these data. We thank three anonymous reviewers for their helpful comments, which have improved the paper.

Keywords

SURFACE MASS-BALANCE
HEMISPHERE ANNULAR MODE
DIGITAL ELEVATION MODEL
SOUTHERN-HEMISPHERE
ICE SHELVES
SUMMER TEMPERATURES
EAST ANTARCTICA
ENERGY BALANCE
WEDDELL SEA
PRECIPITATION

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1175/JCLI-D-15-0060.1

JCLI-D-15-0060Final published version, 9.72 MB

Cite this

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title = "Temperature and Wind Climate of the Antarctic Peninsula as Simulated by a High-Resolution Regional Atmospheric Climate Model",

abstract = "The latest polar version of the Regional Atmospheric Climate Model (RACMO2.3) has been applied to the Antarctic Peninsula (AP). In this study, the authors present results of a climate run at 5.5 km for the period 1979-2013, in which RACMO2.3 is forced by ERA-Interim atmospheric and ocean surface fields, using an updated AP surface topography. The model results are evaluated with near-surface temperature and wind measurements from 12 manned and automatic weather stations and vertical profiles from balloon soundings made at three stations. The seasonal cycle of near-surface temperature and wind is simulated well, with most biases still related to the limited model resolution. High-resolution climate maps of temperature and wind showing that the AP climate exhibits large spatial variability are discussed. Over the steep and high mountains of the northern AP, large west-to-east climate gradients exist, while over the gentle southern AP mountains the near-surface climate is dominated by katabatic winds. Over the flat ice shelves, where katabatic wind forcing is weak, interannual variability in temperature is largest. Finally, decadal trends of temperature and wind are presented, and it is shown that recently there has been distinct warming over the northwestern AP and cooling over the rest of the AP, related to changes in sea ice cover.",

keywords = "SURFACE MASS-BALANCE, HEMISPHERE ANNULAR MODE, DIGITAL ELEVATION MODEL, SOUTHERN-HEMISPHERE, ICE SHELVES, SUMMER TEMPERATURES, EAST ANTARCTICA, ENERGY BALANCE, WEDDELL SEA, PRECIPITATION",

author = "\{van Wessem\}, \{Jan Melchior\} and Reijmer, \{Carleen H.\} and \{van de Berg\}, \{Willem Jan\} and \{van den Broeke\}, \{Michiel R.\} and Cook, \{Alison J.\} and \{van Ulft\}, \{Lambertus H.\} and \{van Meijgaard\}, Erik",

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doi = "10.1175/JCLI-D-15-0060.1",

language = "English",

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pages = "7306--7326",

journal = "Journal of Climate",

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T1 - Temperature and Wind Climate of the Antarctic Peninsula as Simulated by a High-Resolution Regional Atmospheric Climate Model

AU - van Wessem, Jan Melchior

AU - Reijmer, Carleen H.

AU - van de Berg, Willem Jan

AU - van den Broeke, Michiel R.

AU - Cook, Alison J.

AU - van Ulft, Lambertus H.

AU - van Meijgaard, Erik

PY - 2015/9/18

Y1 - 2015/9/18

N2 - The latest polar version of the Regional Atmospheric Climate Model (RACMO2.3) has been applied to the Antarctic Peninsula (AP). In this study, the authors present results of a climate run at 5.5 km for the period 1979-2013, in which RACMO2.3 is forced by ERA-Interim atmospheric and ocean surface fields, using an updated AP surface topography. The model results are evaluated with near-surface temperature and wind measurements from 12 manned and automatic weather stations and vertical profiles from balloon soundings made at three stations. The seasonal cycle of near-surface temperature and wind is simulated well, with most biases still related to the limited model resolution. High-resolution climate maps of temperature and wind showing that the AP climate exhibits large spatial variability are discussed. Over the steep and high mountains of the northern AP, large west-to-east climate gradients exist, while over the gentle southern AP mountains the near-surface climate is dominated by katabatic winds. Over the flat ice shelves, where katabatic wind forcing is weak, interannual variability in temperature is largest. Finally, decadal trends of temperature and wind are presented, and it is shown that recently there has been distinct warming over the northwestern AP and cooling over the rest of the AP, related to changes in sea ice cover.

AB - The latest polar version of the Regional Atmospheric Climate Model (RACMO2.3) has been applied to the Antarctic Peninsula (AP). In this study, the authors present results of a climate run at 5.5 km for the period 1979-2013, in which RACMO2.3 is forced by ERA-Interim atmospheric and ocean surface fields, using an updated AP surface topography. The model results are evaluated with near-surface temperature and wind measurements from 12 manned and automatic weather stations and vertical profiles from balloon soundings made at three stations. The seasonal cycle of near-surface temperature and wind is simulated well, with most biases still related to the limited model resolution. High-resolution climate maps of temperature and wind showing that the AP climate exhibits large spatial variability are discussed. Over the steep and high mountains of the northern AP, large west-to-east climate gradients exist, while over the gentle southern AP mountains the near-surface climate is dominated by katabatic winds. Over the flat ice shelves, where katabatic wind forcing is weak, interannual variability in temperature is largest. Finally, decadal trends of temperature and wind are presented, and it is shown that recently there has been distinct warming over the northwestern AP and cooling over the rest of the AP, related to changes in sea ice cover.

KW - SURFACE MASS-BALANCE

KW - HEMISPHERE ANNULAR MODE

KW - DIGITAL ELEVATION MODEL

KW - SOUTHERN-HEMISPHERE

KW - ICE SHELVES

KW - SUMMER TEMPERATURES

KW - EAST ANTARCTICA

KW - ENERGY BALANCE

KW - WEDDELL SEA

KW - PRECIPITATION

U2 - 10.1175/JCLI-D-15-0060.1

DO - 10.1175/JCLI-D-15-0060.1

M3 - Article

SN - 0894-8755

VL - 28

SP - 7306

EP - 7326

JO - Journal of Climate

JF - Journal of Climate

IS - 18

ER -

Temperature and Wind Climate of the Antarctic Peninsula as Simulated by a High-Resolution Regional Atmospheric Climate Model

Abstract

Funding

Keywords

UN SDGs

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