1. Scenario The dramatic changes in sea ice have caught the attention of the nation. You are interested in seeing what all the hoopla is about. You want to look at changes in the polar oceans, both sea ice and variables that influence sea ice, such as ocean temperature, wind speeds, atmospheric pressure, and atmospheric temperature. Things you might also be interested in: How rapid are changes (week to week changes, month to month changes)? Are there any changes to primary production from changing sea ice? How is the land snow / sea ice freeze and thaw cycle changing from season to season? Arctic Ice

2. Strategy Check ISI for publications on this topic Check PO.DAAC web page Check NSIDC web page Priorities Polar sea ice data Sea surface temperatures Surface wind stress

3. Event Log 1.Go to ISI and search for literature relating to sea ice extent. 1.“sea ice extent” 1630 hits, 380 oceanographic Pabi, S., G. L. van Dijken, and K. R. Arrigo (2008), Primary production in the Arctic Ocean, 1998–2006, J. Geophys. Res., 113, C08005, doi:10.1029/2007JC004578 This research was supported by a NASA Earth Systems Science fellowship to S. Pabi (ESSF/04-0000-0293) and NASA grant NNG05GC92G to K. Arrigo. We would like to thank Jean-Eric Tremblay and the SBI investigators who made their data available for algorithm validation. We would like to thank Lindsey Kropuenske for comments on an earlier version of this manuscript. Markus, T., and B. A. Burns (1995), A method to estimate subpixel-scale coastal polynyas with satellite passive microwave data, J. Geophys. Res., 100, 4473–4487, doi:10.1029/94JC02278 The authorsg ratefullya cknowledgTe homasViehoffa ndA ining Li of the Alfred WegenerIn stitutef or providingthe SAR andA VHRR data,B obW hrithnero f ScrippsIn stitutionof Oceanographyfo r the SSM/I andO LS data,J ohnK ing ofBritish Antarctic Survey for the Halley Station data, and NSIDC forthed aily averagedS SM/I datao n CD- ROM. Use primary productivity to assess ice thickness changes. No route to data given.

4. Event Log (cont.) 1.Go to ISI and search for literature relating to sea ice extent (cont.) 2. Next likely “hit” Rintoul, S. R., S. Sokolov, and R. A. Massom (2008), Rapid development and persistence of a massive Antarctic sea ice tongue, J. Geophys. Res., 113, C07045, doi:10.1029/2007JC004541. Information on the detailed structure of the WIST is obtained from enhanced-resolution sigma-0 imagery from the SeaWinds 13.4 GHz (Ku- band) radar scatterometer onboard the QuikSCAT satellite [Early and Long, 2001], distributed by NASA's Scatterometer Climate Record Pathfinder. The nominal pixel dimension is 4.45 km. Sea ice concentration data from the Nimbus-7 Scanning Multichannel Microwave Radiometer (SMMR) and Defense Meteorological Satellite Program (DMSP) Special Sensor Microwave/Imager (SSM/I) were obtained from the National Snow and Ice Data Center (NSIDC) [Cavalieri et al., 2006]. We used daily and monthly averaged data at a grid cell size of 25 × 25 km (the daily data cover the period 1997–2004; monthly data span the period 1978–2004). Daily sea ice motion vector data, computed from NOAA Advanced Very high-Resolution Radiometer (AVHRR), SMMR and SSM/I data, were obtained from the Polar Pathfinder data set at the NSIDC [Fowler, 2003]. We thank Tony Worby, Ian Allison, and two anonymous reviewers for their comments on the manuscript. This work is a contribution to CSIRO's Climate Change Research Program and was supported in part by the Australian Government's Cooperative Research Centres Programme through the Antarctic Climate and Ecosystems Cooperative Research Centre. S. R. and S. S. were supported by the CSIRO Wealth From Oceans National Research Flagship. NCEP/NCAR Reanalysis 2 data were acquired from NOAA http://www.cdc.noaa.gov/cdc/reanalysis/reanalysis.shtml. MOA Antarctic coastline and grounding line data, as well as SMMR and SSM/I ice concentration and ice motion data, were obtained from the NASA Earth Observing System Distributed Active Archive Center at the U.S. National Snow and Ice Data Center, University of Colorado, Boulder (http://www.nsidc.org). QuikSCAT data were obtained from NASA's Scatterometer Climate Record Pathfinder data set at Brigham Young University's Center for Remote Sensing. We also wish to thank the SeaWiFS Project (code 970.2) and the Distributed Active Archive Centre (code 902) at the NASA Goddard Space Flight Centre for the production and distribution of the SeaWiFS data, respectively (http://daac.gsfc.nasa.gov/data/dataset/SEAWIFS).

6. Event Log (cont.) 2. Refine ISI search 2. “polar sea ice extent” 238 hits 3. “recent sea ice changes” 521 hits, 67 oceanographic Comiso, J. C., and F. Nishio (2008), Trends in the sea ice cover using enhanced and compatible AMSR-E, SSM/I, and SMMR data, J. Geophys. Res., 113, C02S07, doi:10.1029/2007JC004257. The authors wish to express gratitude to the excellent programming support provided by Robert Gersten of RSIS/Adnet, Inc. This research was supported by the Cryospheric Sciences Program of NASA Headquarters. Not a single http reference in the entire document. Lots of pretty pictures made from data gotten who knows where.

9. Event Log (cont.) 1.New tactic, search PO.DAAC and/or NSIDC web sites 1.PO.DAAC 1.“recent sea ice changes”, 96 hits, only one four star 2.NSIDC 1.“recent sea ice changes”,

10. NSIDC Results

11. Results Of the topic three, 2008, papers found, only one gave the source of the data None of the JPL search results led to useful data NSIDC search results more profitable Had to use “recent sea ice changes” to avoid many paleo-results Google search results lead to nsidc.org and 2 provocative, contradictatory(?) plots Search for the data behind the plots unsuccessful “Mean SST” search on google, PO.DAAC unfruitful. POET “mean SST” search leads to GHRSST L4, time series request overloads system (as found before) POET “mean SST” search on Reynolds SST produced plot implying no trend GloverCaruso

12. Contradictory? A turn around? Or continued decrease?