Remote Sensing of Water Quality, Demonstrating the Capabilities of Sentinel-2 for the Nile Delta

M.S. Salama, H.A.A.M. Farag, Z. Vekerdy

Research output: Contribution to conferenceAbstractOther research output

57 Downloads (Pure)

Abstract

This paper describes a hydro-optical model for deriving water quality variables from satellite images, hereafter HydroSat. HydroSat corrects images for atmospheric interferences and simultaneously retrieves water quality variables. An application of HydroSat to Landsat Enhanced Thematic Mapper (ETM) observations over the Rosetta Branch of the Nile River demonstrates that reliable estimates of water quality are obtained. For example, the impact of the many water inlets along the Rosetta on the water quality can be very well identified. Quantitatively, the accuracy of the derived products is assessed via comparison with the output of a validated water quality process model for the Rosetta Branch. This matchup between the HydroSat and process model's output results in determination coefficients, R2 s, larger than 0.6 for all derived water quality variables. It should be noted that derivation of water quality variables using Hydro-Sat does not rely on any tuning parameters. Hence, the successful application of HydroSat to Landsat-ETM data could also be seen as a demonstration of the future Sentinel-2 capabilities for mapping water quality over rivers and inland lakes.
Original languageEnglish
Number of pages1
Publication statusPublished - 9 Sept 2013
EventEuropean Space Agency Living Planet Symposium 2013 - Edinburgh international conference centre, Edinburgh, United Kingdom
Duration: 9 Sept 201313 Sept 2013
http://www.livingplanet2013.org/

Conference

ConferenceEuropean Space Agency Living Planet Symposium 2013
Abbreviated titleESA Living Planet Symposium 2013
Country/TerritoryUnited Kingdom
CityEdinburgh
Period9/09/1313/09/13
Internet address

Keywords

  • METIS-303863

Fingerprint

Dive into the research topics of 'Remote Sensing of Water Quality, Demonstrating the Capabilities of Sentinel-2 for the Nile Delta'. Together they form a unique fingerprint.

Cite this