Dataset
Radiosonde data from the Orographic Flows and the Climate of the Antarctic Peninsula (OFCAP) project (January 2011)
Abstract
Radiosonde data measured using balloon-borne radiosondes released from the Larsen Ice Shelf Camp and Rothera Base on the Antarctic Peninsula during the NERC-funded Orographic Flows and the Climate of the Antarctic Peninsula (OFCAP) project in January 2011.
Details
Previous Info: |
No news update for this record
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Previously used record identifiers: |
http://badc.nerc.ac.uk/view/badc.nerc.ac.uk__ATOM__ACTIVITY_1a01d6f2-3ff5-11e4-be56-00163e251233
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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: |
Not defined. |
File Format: |
Data availability and file format
Radiosonde data supplied to the BADC by the OFCAP project are stored in the OFCAP radiosonde data archive at the BADC. Data are publicly available but users of the data are requested to acknowledge the data providers and use the citation below Files are available in a standard radiosonde text format (.tsv), standard radiosonde binary format (.edt) and NASA Ames ASCII format. |
More Information (under review)
Radiosonde data were collected on and around the Antarctic Peninsula during the NERC-funded Orographic Flows and the Climate of the Antarctic Peninsula (OFCAP) project. The Antarctic Peninsula is currently one of the most rapidly warming regions on Earth. Large environmental changes have occurred as a result of this warming, most notably the retreat and rapid disintegration of some of the floating ice shelves that fringe the Peninsula. Subsequent to the loss of ice shelves, glaciers draining the Peninsula ice sheet have accelerated, contributing to global sea level rise. The forces driving this rapid regional warming are not fully understood, but analysis of limited climatiological data from the region suggests a link between rapid summer warming on the eastern side of the Peninsula and an increase in the strength of the prevailing westerly winds. The strengthening of the westerlies has already been attributed, with some degree of confidence, to atmospheric circulation changes associated with anthropogenic forcing, particularly stratospheric ozone depletion and increases in greenhouse gases. It is thus highly probable that anthropogenic forcing is contributing to the rapid warming of the Peninsula. The OFCAP project conducted an integrated programme of field observations, analysis and modelling aimed at understanding of how the westerly winds interact with the mountains of the Antarctic Peninsula and how those interactions control the climate of the eastern side of the Peninsula. This dataset comprises of data from the month-long intensive field campaign which took place in January 2011.
During this period, atmospheric flow along a transect across the Antarctic Peninsula mountains around 67 degrees south was observed using the British Antarctic Survey (BAS) MASIN- Twin-otter instrumented aircraft and automatic weather stations at Avery Plateau, Cole Peninsula and North Adelaide Island along the line of the transect. Atmospheric conditions on the upwind (western) and downwind (eastern) sides of the mountains were measured using balloon-borne radiosondes released from the Larsen Ice shelf camp and Rothera base. These observations were then analysed in conjunction with the results of high-resolution atmospheric model simulations in order to obtain a more complete picture of the flow across the Peninsula.
OFCAP was funded by the Natural Environment Research Council (NERC) for three years from Sept 2009 (NERC Reference: NE/G014124/1).
Radiosonde data supplied to the BADC by the OFCAP project are stored in the OFCAP radiosonde data archive at the BADC. Data are publicly available but users of the data are requested to acknowledge the data providers and use the citation below
Files are available in a standard radiosonde text format (.tsv), standard radiosonde binary format (.edt) and NASA Ames ASCII format.
Detailed metadata is normally incorporated fully into the header section of data files, but may be stored separately if this is not practical. The BADC promotes the use of the NetCDF Climate and Forecast (CF) Metadata Convention. This is a standard dealing mainly with vocabulary rules for parameter names and units. Although this standard was developed with the NetCDF format in mind, it can be applied to any set of geophysical data, and probably extended to cover a much broader range of disciplines as well. The BADC requests that all metadata (especially that contained in file headers) be as close to CF compliance as practicable.
Documentation on filenaming convention is available from the BADC.
Radiosonde data supplied to the BADC by the OFCAP project are stored in the OFCAP radiosonde data archive at the BADC. Data are publicly available but users of the data are requested to acknowledge the data providers and use the citation below
Files are available in a standard radiosonde text format (.tsv), standard radiosonde binary format (.edt) and NASA Ames ASCII format.
Related Documents
Dataset catalogue record for OFCAP data |
Process overview
Instrument/Platform pairings
Radiosonde | Deployed on: British Antarctic Survey's Rothera Station |
Radiosonde | Deployed on: Larsen Ice Shelf Camp |
Output Description | None |
- units: hPa
- names: Pressure
- units: %
- names: Relative Humidity
- units: deg C
- names: Temperature
- units: None
- names: Zonal wind u mean [ms-1]
- units: ms-1
- names: ascent rate
- units: m
- names: height above sea level
- units: None
- names: minutes
- units: None
- names: seconds
- units: deg
- names: wind direction
- units: ms-1
- names: wind speed
Co-ordinate Variables
Temporal Range
2011-01-01T00:00:00
2011-02-06T00:00:00
Geographic Extent
-67.0100° |
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-68.1300° |
-61.4800° |
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-67.5700° |