RECProject ID: 645642
Finanziato nell'ambito di:
Root zone soil moisture Estimates at the daily and agricultural parcel scales for Crop irrigation management and water use impact – a multi-sensor remote sensing approach
Dettagli del progetto
Costo totale:EUR 895 500
Contributo UE:EUR 895 500
Argomento (i):MSCA-RISE-2014 - Marie Skłodowska-Curie Research and Innovation Staff Exchange (RISE)
Invito a presentare proposte:H2020-MSCA-RISE-2014See other projects for this call
Meccanismo di finanziamento:MSCA-RISE - Marie Skłodowska-Curie Research and Innovation Staff Exchange (RISE)
Sustainable water use is a growing concern in Europe. Nowadays, agriculture is an important pressure on water resources especially in Mediterranean countries where irrigation can represent up to 80% of the consumptive uses of water. Increasing water use efficiency in agriculture has been thus identified as one of the key themes relating to water scarcity and drought (EEA Report No 1/2012). It now becomes necessary to improve on-farm irrigation management by adjusting irrigation to crop water requirements along the growing season.
Modern irrigation agencies rely on in situ root zone soil moisture measurements to detect the onset of crop water stress and to trigger irrigation. However, in situ point measurements are generally not available over extended areas and may not be representative at the field scale. If remote sensing provides cost-effective techniques for monitoring broad areas, there is currently no algorithm dedicated to root zone soil moisture monitoring at the parcel scale.
REC proposes a solution to the need of root-zone soil moisture at the crop scale for irrigation management. It is based on an innovative operational algorithm that will allow for the first time to: 1) to map root zone soil moisture on a daily basis at the field scale and 2) to quantitatively evaluate the different components of the water budget at the field scale from readily available remote sensing data.
The methodology relies on the coupling between a surface model representing the water fluxes at the land surface atmosphere interface (infiltration, evaporation, transpiration) and in the soil (drainage), and remote sensing data composed of land surface temperature, and near-surface soil moisture retrieved from microwave radiometers and radars.
These estimates will be integrated in an irrigation management system that will be used to trigger irrigation. In addition, these estimates will allow making an impact assessment of the consumptive use of water and water footprint.
Contributo UE: EUR 387 000
CONGRES 49 51
See on map
Contributo UE: EUR 274 500
ROUTE DE NARBONNE 118
31062 TOULOUSE CEDEX 9
Contributo UE: EUR 180 000
CALLE FERRAN EL CATOLICO 3
25200 CERVERA LLEIDA
Contributo UE: EUR 54 000
Boulevard de Dunkerque - CS 90009 44