About
Introduction
The ESA river discharge Climate Change Initiative project is a precursor study. It aims to derive long term climate data records (at least over 20-years) of river discharge for some selected river basins (and some locations in the river network) using satellite remote sensing observations (altimetry and multispectral images) and ancillary data. It aims to provide a proof-of-concept for the feasibility for a potential River Discharge ECV product to meet the requirements for the Global Climate Observing System.
Objectives
This project covers precursor activities towards the production of data products that address the GCOS-defined requirements for the River Discharge ECV.
River discharge is defined as “the volume of water flowing through a river (or channel) cross section per unit of time” in the WMO international glossary of hydrology and is usually provided at a measuring point or gauging station in the river network. Discharge data could be used both at short-term time scale (e.g., for water management and flood protection) and at longer-term time scale (e.g., to monitor the flow of freshwater from rivers into the oceans and how this reduces ocean salinity and possibly changes the thermohaline circulation).
If “only” 0.0002% of water on earth is stored in the river network (Gleick, 1996), it corresponds to the main water exchange from land to the ocean with 36,000 km3/y (Milliman and Farnsworth, 2013). In addition, climate change (CC) is affecting the whole water cycle (Trenberth, 2011) and therefore river discharge. So, long-time series of river discharge are needed to better assess its impact on continents and for adaptation of human societies.
In the last few decades, satellite data has increasingly been used to complement in situ observation networks, whose availability is very heterogeneous and scarce in some regions. Yet, there is currently no satellite instrument measuring river discharge. Satellite measurements whose observations are linked with river discharge can be used indirectly to estimate it. Satellite radar nadir altimeters observes water surface elevation (not to be confused with water depth) along the satellite ground track, with multiple missions launched since the 90’s. Despite they do not all have the same orbit tracks, with different sensors characteristics, this wealth of data should allow long-term observations of water level variations for rivers. Besides, multispectral sensors, specifically in the near infrared (NIR) band, are also able to detect the variability of the dynamic of the river. The ratio between the reflectance of a dry pixel and a wet pixel is expected to represent the river flow variation. The large advantage of the multispectral sensors is the subdaily temporal resolution. However, because of the optical nature of the sensors, they cannot penetrate clouds and therefore they are less reliable during floods events.
Many studies have investigated the possibility to derive discharge using these satellite data or/and combining them with in situ or modelled discharge. However, no long time series over multidecadal time-period combining multiple sensors exist over different continents.
Over 15 river basins, the River Discharge CCI project will derive long term (at least 20 years) river discharge time series, using remote sensing observations and ancillary data, as a proof-of-concept of the feasibility of a CCI River Discharge ECV product.
Project delivery
The project is divided into 5 main tasks / work packages as follows:
Work package | Description |
---|---|
WP 1 - User engagement | Collect user requirements by interviewing key research scientists and provide a User Requirement Document on long river discharge time series. |
WP 2 - Selection of test sites | A list of 18 basins have been selected in order to respond to all the issues and interests identified by users. These basins represent a wide diversity in terms of: land use, land cover, urbanisation, river width, basin’s area, climate etc. with available satellite observations and ancillary data (especially in-situ discharge time series) |
WP 3 - Aglorithms development | Generation of long time series of : |
o Water level from altimetry (ERS-1/-2, Envisat, Saral, Topex-Poseidon, Jason-1/-2/-3, Sentinel-6A, Sentinel-3A/B) | |
o River discharge derived from altimetry and ancillary data (use of rating curves) | |
o River discharge derived from multispectral and ancillary images (MODIS/Aqua, MODIS/Terra, MSI/Sentinel-2, OLCI/Sentinel-3, Landsat 7, Landsat 8) |
|
o River discharge derived from multisatellite data (altimetry and muti-spectral) | |
WP 4 - Validation | Validation of the river discharge products and round-robin to check and understand the consistency of the different methodologies |
WP 5 - Climate Assessment | o Assessment of the quality of the generated discharge product for addressing the climate-related challenges, with a focus on the capacity of the satellite discharge product to reproduce extreme events (inundation, water deficit due to draught) |
o Study of the assimilation of satellite products (either water surface elevation or estimated discharge from WP3) and their respective uncertainties into large scale river routing models, that can be deployed over some selected river basins. The results will be presented in a scientific article | |
o Outreach (publications of the main results of this project and user workshop foreseen in March 2024) |
Key Documents
Team
The ESA Climate Change Initiative River Discharge team comprises seven scientific and industrial partners from France and Italy, including experts in Earth Observation (EO), hydrology and climate change research communities.
The team is led by Alice Andral from CLS, France, project manager and Sylvain Biancamaria from LEGOS, France, Science lead. CLS acts as the prime contractor.
The consortium is composed by the following partners:
- CLS – Collecte LocalisationSatellites (CLS), France
- Research institute for geo-hydrological protection – Consiglio Nazionale delle Ricerche (CNR- IRPI), Italy
- Laboratoire d'Etudes en Géophysique et Océanographie Spatiales (LEGOS), France
- Centre National de la Recherche Météorologique (CNRM), France
- Magellium, France
- Hydromatters, France
- EOLA, France
Publications
2023
- Sylvain Biancamaria et al. The river discharge precursor project. Poster for the ESA CCI colocation meeting, 7-9 nov.. 2023, River Discharge Poster for the 2023 ESA CCI colocation meeting.
- Sylvain Biancamaria et al. A New ESA Precursor Project on River Discharge. GEWEX newsletter. Volume 33, n°2 - Quarter 2 2023. https://www.gewex.org/gewex-content/files_mf/1685746439Q22023.pdf
Contacts
The following people can be contacted:
- Science Leader: Sylvain Biancamaria – sylvain.biancamaria@univ-tlse3.fr
- Project Management: Alice Andral – aandral@groupcls.com
- ESA Technical Officer: Clément Albergel – clement.albergel@esa.int
Data
The Climate Research Data Package (CRDP) of the different products is available in the CEDA catalogue:
- Water Surface Elevation: https://dx.doi.org/10.5285/c5f0aa806ec444b4a4209b49efc4bb65
- River Discharge from altimetry: https://dx.doi.org/10.5285/44c930e1388f40728884fbdf7e28c109
The dataset of River Discharge from multispectral images and the merged River Discharge product (altimetry + multispectral) are under validation and will be available soon.
The Product User Guides of each product can be dowload in the Key Document section of this website.
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