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Requirements for a Coastal Hazards Observing System

Authors :
Jérôme Benveniste
Anny Cazenave
Stefano Vignudelli
Luciana Fenoglio-Marc
Rashmi Shah
Rafael Almar
Ole Andersen
Florence Birol
Pascal Bonnefond
Jérôme Bouffard
Francisco Calafat
Estel Cardellach
Paolo Cipollini
Gonéri Le Cozannet
Claire Dufau
Maria Joana Fernandes
Frédéric Frappart
James Garrison
Christine Gommenginger
Guoqi Han
Jacob L. Høyer
Villy Kourafalou
Eric Leuliette
Zhijin Li
Hubert Loisel
Kristine S. Madsen
Marta Marcos
Angélique Melet
Benoît Meyssignac
Ananda Pascual
Marcello Passaro
Serni Ribó
Remko Scharroo
Y. Tony Song
Sabrina Speich
John Wilkin
Philip Woodworth
Guy Wöppelmann
Source :
Frontiers in Marine Science, Vol 6 (2019)
Publication Year :
2019
Publisher :
Frontiers Media S.A., 2019.

Abstract

Coastal zones are highly dynamical systems affected by a variety of natural and anthropogenic forcing factors that include sea level rise, extreme events, local oceanic and atmospheric processes, ground subsidence, etc. However, so far, they remain poorly monitored on a global scale. To better understand changes affecting world coastal zones and to provide crucial information to decision-makers involved in adaptation to and mitigation of environmental risks, coastal observations of various types need to be collected and analyzed. In this white paper, we first discuss the main forcing agents acting on coastal regions (e.g., sea level, winds, waves and currents, river runoff, sediment supply and transport, vertical land motions, land use) and the induced coastal response (e.g., shoreline position, estuaries morphology, land topography at the land–sea interface and coastal bathymetry). We identify a number of space-based observational needs that have to be addressed in the near future to understand coastal zone evolution. Among these, improved monitoring of coastal sea level by satellite altimetry techniques is recognized as high priority. Classical altimeter data in the coastal zone are adversely affected by land contamination with degraded range and geophysical corrections. However, recent progress in coastal altimetry data processing and multi-sensor data synergy, offers new perspective to measure sea level change very close to the coast. This issue is discussed in much detail in this paper, including the development of a global coastal sea-level and sea state climate record with mission consistent coastal processing and products dedicated to coastal regimes. Finally, we present a new promising technology based on the use of Signals of Opportunity (SoOp), i.e., communication satellite transmissions that are reutilized as illumination sources in a bistatic radar configuration, for measuring coastal sea level. Since SoOp technology requires only receiver technology to be placed in orbit, small satellite platforms could be used, enabling a constellation to achieve high spatio-temporal resolutions of sea level in coastal zones.

Details

Language :
English
ISSN :
22967745
Volume :
6
Database :
Directory of Open Access Journals
Journal :
Frontiers in Marine Science
Publication Type :
Academic Journal
Accession number :
edsdoj.f1c172560f984386afc0b1a2c39d8f16
Document Type :
article
Full Text :
https://doi.org/10.3389/fmars.2019.00348