Eva Haas scite author profile

Abstract. Soil moisture was recently included in the list of Essential Climate Variables (ECVs) that are deemed essential for IPCC (Intergovernmental Panel on Climate Change) and UNFCCC (United Nations Framework Convention on Climate Change) needs and considered feasible for global observation. ECVs data records should be as long, complete and consistent as possible, and in the case of soil moisture this means that the data record shall be based on multiple data sources, including but not limited to active (scatterometer) and passive (radiometer) microwave observations acquired preferably in the low-frequency microwave range. Among the list of sensors that can be used for this task are the C-band scatterometers on board of the ERS and METOP satellites and the multi-frequency radiometers SMMR, SSM/I, TMI, AMSR-E, and Windsat. Together, these sensors already cover a time period of more than 30 years and the question is how can observations acquired by these sensors be merged to create one consistent data record? This paper discusses on a high-level possible approaches for fusing the individual satellite data. It is argued that the best possible approach for the fusion of the different satellite data sets is to merge Level 2 soil moisture data derived from the individual satellite data records. This approach has already been demonstrated within the WACMOS project (http://wacmos.itc.nl/) funded by European Space Agency (ESA) and will be further improved within the Climate Change Initiative (CCI) programme of ESA (http://www.esa-cci.org/).

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Time series analysis of optical remote sensing data for the mapping of temporary surface water bodies in sub-Saharan western Africa

Haas

Bartholomé

Combal

2009

Journal of Hydrology

106

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Remotely sensed surface water extent as an indicator of short-term changes in ecohydrological processes in sub-Saharan Western Africa

Haas

Bartholomé

Lambin

et al. 2011

Remote Sensing of Environment

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Operational monitoring of water bodies in arid and semiarid regions with SPOT-VEGETATION satellite: Contribution of Eumetcast and recent research projects

Combal¹,

Haas²,

Andigue³

et al. 2009

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The VEGETATION instrument on board SPOT satellites allows the detection of surface water, thanks to its short wave infrared channel, at the resolution of 1 pixel (1 km). The surface water is detected every 10 days for Africa and broadcasted to African users by means of the Eumetcast broadcasting system operated by Eumetsat. The effective detection of water coupled with the dissemination system provides the capacity for operational monitoring of surface water from continental to regional scales. The continuity of surface observation allows the seasonal assessment of water availability.

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Eva Haas

ESA CCI Soil Moisture for improved Earth system understanding: State-of-the art and future directions

Fusion of Active and Passive Microwave Observations to Create an Essential Climate Variable Data Record on Soil Moisture

Time series analysis of optical remote sensing data for the mapping of temporary surface water bodies in sub-Saharan western Africa

Remotely sensed surface water extent as an indicator of short-term changes in ecohydrological processes in sub-Saharan Western Africa

Operational monitoring of water bodies in arid and semiarid regions with SPOT-VEGETATION satellite: Contribution of Eumetcast and recent research projects

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