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About the GHRSST-PP

Sea surface temperature (SST) measured from Earth Observation Satellites in considerable spatial detail and at high frequency, is increasingly required for use in the context of operational monitoring and forecasting of the ocean, for assimilation into coupled ocean-atmosphere model systems and for applications in short-term numerical weather prediction and longer term climate change detection. Currently there are many different SST data sets available derived from satellite systems. But, scientists and operational agencies alike are presented with a bewidering set of options in terms of SST product content, coverage, spatial resolution, timeliness, format and accuracy. The international GODAE steering committee realised that SST data products were not adequate for GODAE forecast systems and initiated the GODAE High Resolution SST Pilot Project (GHRSST-PP). User Requirements were collected together to define the optimal SST data products that could be developed to suit the widest possible number of applications.

The purpose of the GHRSST-PP is to develop an operational demonstration system that will deliver a new generation of global coverage high-resolution (better than 10 km and ~6 hourly) SST data products. GHRSST-PP data products will be derived by combining readily available but complementary Level-2 (L2) satellite and in situ observations in real time to improve spatial coverage, temporal resolution, cross-sensor calibration stability and SST product accuracy. The GHRSST-PP is an international project that must orchestrate a wide variety of input and output data. The data must be shared, indexed, processed, quality controlled, analysed and documented within an international framework. Large voluemes of data and data services must be harnessed together to deliver the new generation of global coverage high resolution SST data sets.

The GHRSST-PP is based on a distributed system in which the data processing operations that are necessary to operationally generate and distribute high resolution SST data sets having global coverage are shared by Regional Data Assembly Centres (RDAC). RDAC ingest, quality control and merge existing satellite and in situ SST data sources that are then merged together to generate regional coverage SST data products having the same netCDF format specification (called L2P products), in real-time. RDAC data products are then assembled together at Global Data Analysis Centres (GDAC) where they are merged to provide L4 global coverage data products free of gaps. The distributed processing system is referred to as the GHRSST-PP Regional/Global Task Sharing (R/GTS) framework

The GHRSST-PP Data Processing Specification (GDS) is central to the successful implementation and operation of the R/GTS. It provides a common data processing specification that must be implemented at each GHRSST-PP RDAC and GDAC. It defines clearly the input and output data specifications, data processing procedures, algorithms and data product file formats that are used within the GDS and are thus common to each GHRSST-PP RDAC and GDAC. Conforming to the DS specification is a prerequisite if the GHRSST-PP Global/Regional task sharing implementation framework is to function efficiently.

There are great strengths to this approach from a community perspective. For example, a common processing description is necessary to simplify documentation of data, facilitate exchange by sharing a common data format agreed by RDAC, GDAC and users, to avoid significant duplication of effort, to minimise reformatting of different data products derived by RDAC and to ease the integration of RDAC data to provide global coverage data sets at GDAC centres. Operationally produced data products will be improved by using additional data that are only available in a delayed mode together with extensive quality control procedures as part of the GHRSST-PP reanalysis (RAN) project (Casey et al., 2003).

Today the GHRSST-PP is a truly international project with over $10 Million US invested across all of the project activities. A basic 'version-1.0' of the GHRSST-PP Regional/Global Task Sharing (R/GTS) system has been implemented in an internationally distributed manner. Global and regional coverage SST data products are now produced by RDAC in the USA and Europe. Products are passed in near real time to a recently operational GDAC at NASA JPL, USA. Research and development within GHRSST-PP projects continue to tackle the problems of diurnal variability, skin temperature deviations and SST validation. Data management teams continue to refine the GHRSST-PP data management structures to provide a functional system that conforms to federal directives (e.g., ISO, FGDC, INSPIRE). A Long Term Data Stewardship and Reanalysis Facility (LTSRF) is now being implemented at the NOAA National Oceanographic Data Centre in collaboration with the JPL GDAC. The GHRSST-PP International Project Office, jointly funded by the European Space Agency and Met Office, UK, continues to manage the international co-ordination of the project.

Most importantly, an international user community has emerged that is now testing and applying GHRSST-PP data products and services within scientific projects and operational systems - all in real time. Over 20GB of data is exchanged within the international project each day! The challenge for the GHRSST-PP version-1 R/GTS and the Science Team that is responsible for its design and implementation is to deliver sustained production of stable, high-quality, SST data products and services and grow the user community. Only a user community can demonstrate a requirement for sustained operations. Once that point is reached, the GHRSST-PP will have achieved its aim.

The links below provide access to pages describing the GHRSST-PP.

 • A short history of the GHRSST-PP
 • GHRSST-PP Data Products
 • The Regional/Global Task Sharing Implementation Framework
 • The GHRSST-PP International Project Office
 •  Reanalysis and Data Stewardship
 • The GHRSST-PP Science Team
 • The GHRSST-PP Data Processing Specifiaction (GDS)
 • GHRSST-PP Data Management
 • Working with and XML
 • Accounting for the impact of Sea Ice on SST
 • Treating the impact of Diurnal Variability on SST

 • Regional Data Assembly Centre (RDAC) descriptions
 • Global Data Analysis Centre (GDAC) descriptions

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