------------------------------------------------------------------------ The Antarctic Iceberg Tracking Database 1978 & 1992-Present (Brigham Young University) Jarom Ballantyne and David G. Long 26 Feb. 2002 ------------------------------------------------------------------------ Using five different satellite scatterometer instruments, we have produced an iceberg tracking database. The BYU database includes icebergs identified in enhanced resolution scatterometer backscatter images during July-Sept. 1978 (from Seasat) and icebergs from 1992 to the present (ERS-1/2, NSCAT, and QSCAT). Images were obtained from the Scatterometer Climate Record Pathfinder (SCP) project. Data sets from five different spaceborne scatterometer and radiometer instruments are used in the study. For each data set resolution enhancement is performed by BYU's Scatterometer Image reconstruction (SIR) and/or SIR Filtering (SIRF) algorithms. The scatterometer instruments used in this study are the Seasat-A Satellite Scatterometer (SASS), the European Space Agency's Remote Sensing Satellite 1(2) (ERS-1/-2), the NASA Scatterometer (NSCAT), and the QuikSCAT/SeaWinds scatterometer (QSCAT). The Seasat-A scatterometer (SASS) was a dual-polarization Ku-band (14.6 GHz) scatterometer that operated from July to Sept. 1978. Using the SIRF algorithm, Antarctic images are generated every 12 & 48 days (a longer time is required for SASS compared to other instruments due to the sampling characteristics of the nominally 50 km backscatter measurements). The ERS-1/2 spacecraft carried a C-band (5.3 GHz) active microwave instrument (AMI). The scatterometer mode provides nominally 50 km resolution data. Using SIR, Antarctic images are produced every 6 days. The ERS-1/2 scatterometers operated from Jan. 1992 to Jan. 2001. The NSCAT scatterometer is a Ku-band Doppler radar similar to SASS, but with dual-side measurement capability and a dense 25 km resolution sampling. Using SIRF, Antarctic images were produced every 3 days. The NSCAT mission lasted from Sept. 1996 to June 1997. QuikSCAT was launched as a ``quick recovery'' mission to help fill the gap created by loss of NSCAT due a satellite failure. This advanced scatterometer allows daily images of Antarctica to be created. QuikSCAT has opperated from July 1999 to the present. The initial position for each iceberg is located based on either (1) a position reported by the National Ice Center (NIC)'s web page (URL: http://www.natice.noaa.gov/) or (2) by the sighting of a moving iceberg in a time series of scatterometer images. From an initial start point, the iceberg is tracked in the scatterometer image time series. Gaps in the position track result from missing scatterometer data and from the occasional loss of contrast between the iceberg and surrounding area during summer months. For each image a lat/lon position is reported for each iceberg. Iceberg positions are reported in a separate ASCII text file for each iceberg. The file name is the same as that of the iceberg. For example the file "b10a.qscat" contains the position track information for B10A. A few lines from the b10a.datc file are shown below: lat: -73.1882 lon: -35.028 x: 1460 y: 2608 file: qush-Ant-a-20010180044-20010182252.ave lat: -73.2415 lon: -34.984 x: 1462 y: 2606 file: qush-Ant-a-20010190011-20010192339.ave lat: -73.2415 lon: -34.984 x: 1462 y: 2606 file: qush-Ant-a-20010200125-20010202333.ave lat: -73.2780 lon: -35.095 x: 1462 y: 2604 file: qush-Ant-a-20010210053-20010212301.ave Note that latitude and longitude are specified in decimal degrees with positive North and East, respectively. The next two numbers are the x and y BYU SIR-file format pixel coordinates within the scatterometer image where the iceberg position was determined. The last section contains the name of the scatterometer image file used to track the selected position. Two sources of scatterometer data files were used. Long QSCAT file names (such as in the B10A example above) are from the Near-Real-Time (NRT) processing stream. NRT images are somewhat lower grade the the science product images ordinarily used and available from the SCP web site. Science product images have shorter names, e.g. qush-a-Ant01-018-018.ave. The iceberg database can be obtained by visiting the Scatterometer Climate Record Pathfiinder at http://www.scp.byu.edu/. If desired, data can be imported into Microsoft Excel or other spreadsheet programs as "space delimited data". The database contains four directories named after the instument used to track the icebergs. The directories contain text files for each iceberg. The contents of these files are as indicated above. Each text file's extension indicates the instrument used to track the iceberg. For example, a32a.ers is the file for iceberg a32a and was tracked using data from the ERS scatterometer. There is also a gif image showing the path of each iceberg. The top of the image indicates the name of the iceberg. Start and end dates shown at the bottom of the image indicate the time period the iceberg was tracked. However, if the words "As of" instead of "End Date" are shown then the icebergs is currently being tracked in BYU's Antarctic iceberg database. A report further describing this multidecadal database of Antarctic icebergs observed with scatterometer data is available in pdf format from the SCP web site. ---------------------------------------------------------------------------------- For further information contact: Dr. David G. Long long@ee.byu.edu Director, BYU Center for Remote Sensing http://www.cers.byu.edu/ Professor, Electrical and Computer Eng. Dept. http://www.ee.byu.edu/ Brigham Young University http://www.byu.edu/ 459 Clyde Building voice: 801-422-4383 Provo, Utah 84602 fax: 801-422-0201 Microwave Earth Remote Sensing (MERS) Lab: http://www.mers.byu.edu/ Scatterometer Climate Record Pathfinder: http://www.scp.byu.edu/ ---------------------------------------------------------------------------------- Last revised: 26 Feb. 2002