Biomass (satellite)

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Biomassis anEarth observing satelliteplanned for launch by theEuropean Space Agency(ESA) in 2024^[2]on aVegalaunch vehicle.^[1]

The mission will provide the first comprehensive measurements of globalforestbiomass.The mission is meant to last for five years, monitoring at least eight growth cycles in the worlds’ forests.

Background[edit]

First announced in May 2013, when it was selected as ESA's seventhEarth Explorer,the Biomass satellite is part of ESA'sLiving Planet Programme,which consists ofEarth observationmissions.^[3][4]Its initial launch date was set to 2020, but that has since been delayed to 2024.^[2]The entire cost of the mission was placed at around 400 million euros. The main scientific instrument aboard Biomass will be asynthetic aperture radar(SAR) operating at 435 MHz.^[5]The satellite will measure 10 x 12 x 20m, weight around 1.2 tonnes and it is set to orbit the Earth at an altitude of 600 km.^[6][7][8]

The Biomass mission is planned to continue its observation of Earth for five years after launch, during which it will provide detailed information about at least eight growth cycles in the world's forests.^[9]

In 2016, it was announced thatAirbus Defence and SpaceUK will build the satellite under a contract valued at 229 million euros.^[10][11]Biomass will be equipped with a large 12-m deployable antenna, which will be built inFriedrichshafen,Germany.^[11]The instruments of the antennas are being fabricated by Italy and France throughThales Alenia Space.^[12]All devices for assembly of the satellite structure, including vertical transport equipment, assembly and disassembly of satellite panels, assembly and disassembly of the Synthetic Aperture Radar will be done by the Spanish companySENER.^[8]

Scientific objectives[edit]

The main objective of the mission is to measure forest biomass in order to assess terrestrial carbon stocks and fluxes and better understand the planet'scarbon cycle.^[3]The Biomass mission will explore Earth's surface at theP-bandwavelength, the first time this technique is used from orbit. This will allow it to provide accurate maps oftropical,temperateandboreal forestbiomass that are not obtainable by ground measurement techniques.^[11][13][14]The amount of biomass and forest height will be measured at a resolution of 200 m, and forest disturbances such as clear-cutting at a resolution of 50 m.^[15][16]

Its stated objectives are:^[17]

1. Reduce the large uncertainties in the carbon flux due to changes in land use
2. Provide scientific support for international treaties, agreements and programs such as theUN’sREDD(Reducing Emissions from Deforestation and Forest Degradation in Developing Countries) program
3. Improve understanding and predictions of landscape-scale carbon dynamics
4. Provide observations to initialize and test the land element of Earth system models
5. Provide key information for forest resources management andecosystem services.

It is expected that the data sent back from the satellite will also contribute new information to other areas ofclimate science,like measuring the biomass of desert regions to findfossil waterand new water sources in arid regions as well as contributing to observations ofice sheet dynamics,subsurface geologyand foresttopography.^[11]

See also[edit]

• ESA'sLiving Planet Programme
  • GOCE
  • SMOS
  • CryoSat&CryoSat-2
  • Swarm
  • ADM-Aeolus
  • EarthCARE
  • FLEX

References[edit]

External links[edit]

• ESA Biomass homepage on Earth Online