Seeing the seas: live!

Following six months of careful calibration, the Copernicus Sentinel-6 Michael Freilich satellite has been declared operational. This means it can now deliver high-precision measurements of ocean surface topography to give scientists vital insights on climate change indicators.

The satellite is capable of measuring its distance to the ocean surface with an accuracy of a few centimetres and uses this data to map it, repeating the cycle every 10 days. Along with measuring global sea level rise and ocean circulation over a mission lasting up to seven years, the satellite will record vertical profiles of atmospheric temperature and humidity.

'The mission findings will enable governments and institutions to establish effective protection for coastal regions. The data will be invaluable not only for disaster relief organisations, but also for authorities involved in urban planning, securing buildings or commissioning dykes. The data will also help scientists to further improve weather forecasts and hurricane predictions' said Philippe Pham, Head of Earth Observation, Navigation and Science at Airbus.

The satellite is on a 1336 km non-Sun-synchronous orbit with an inclination of 66 degrees so that it passes over locations at different times of the day and night, enabling it to measure changes that may vary throughout 24-hours, like the tides.

Global sea levels are currently rising by an average of 3.3 millimetres a year as a result of global warming; this could potentially have dramatic consequences for countries with densely populated coastal areas.

Developed under Airbus' industrial leadership, the Sentinel-6 mission comprises two satellites, with a second expected to follow in 2025. It is part of the European Union Copernicus Programme for environment. While it is a European mission, Sentinel-6 is a true example of international cooperation: it has been jointly developed by ESA, NASA, EUMETSAT and NOAA, with support from CNES.

Weighing approximately 1.5 tons, each satellite carries a radar altimeter, which works by measuring the time it takes for radar pulses to travel to the surface and back again to the satellite. Combined with precise satellite location data, altimetry measurements yield the height of the sea surface.

The satellites' instrument package also includes an advanced microwave radiometer that accounts for the amount of water vapour in the atmosphere, which affects the speed of the altimeter's radar pulses.

Starting with Sentinel-6 Michael Freilich, the satellites will collect satellite-based measurements of the oceans' surfaces, continuing a task that first began in 1992.

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