@article{fdi:010078173,
  title = {{E}arth observations for monitoring marine coastal hazards and their drivers},
  author = {{M}elet, {A}. and {T}eatini, {P}. and {L}e {C}ozannet, {G}. and {J}amet, {C}. and {C}onversi, {A}. and {B}enveniste, {J}. and {A}lmar, {R}afa{\¨e}l},
  editor = {},
  language = {{ENG}},
  abstract = {{C}oastal zones have large social, economic and environmental values. {T}hey are more densely populated than the hinterland and concentrate large economic assets, critical infrastructures and human activities such as tourism, fisheries, navigation. {F}urthermore, coastal oceans are home to a wealth of living marine resources and very productive ecosystems. {Y}et, coastal zones are exposed to various natural and anthropogenic hazards. {T}o reduce the risks associated with marine hazards, sustained coastal zone monitoring programs, forecasting and early warning systems are increasingly needed. {E}arth observations ({EO}), and in particular satellite remote sensing, provide invaluable information: satellite-borne sensors allow an effective monitoring of the quasi-global ocean, with synoptic views of large areas, good spatial and temporal resolution, and sustained time-series covering several years to decades. {H}owever, satellite observations do not always meet the precision required by users, in particular in dynamic coastal zones, characterized by shorter-scale variability. {A} variety of sensors are used to directly monitor the coastal zone and their observations can also be integrated into numerical models to provide a full 4{D} monitoring of the ocean and forecasts. {H}ere, we review how {EO}, and more particularly satellite observations, can monitor coastal hazards and their drivers. {T}hese include coastal flooding, shoreline changes, maritime security, marine pollution, water quality, and marine ecology shifts on the one hand, and several physical characteristics (bathymetry, topography, vertical land motion) of coastal zones, meteorological and oceanic (metocean) variables that can act as forcing factors for coastal hazards on the other hand.},
  keywords = {{C}oastal zone ; {E}arth observation ; {M}onitoring ; {H}azards ; {W}ater quality ; {F}looding},
  booktitle = {},
  journal = {{S}urveys in {G}eophysics},
  volume = {41},
  numero = {6},
  pages = {1489--1534},
  ISSN = {0169-3298},
  year = {2020},
  DOI = {10.1007/s10712-020-09594-5},
  URL = {https://www.documentation.ird.fr/hor/fdi:010078173},
}