Summary
At present and more so in the future, irrigated agriculture will take place under water scarcity. Insufficient water supply for irrigation will be the norm rather than the exception, and irrigation management will shift from emphasizing production per unit area towards maximizing the production per unit of water consumed, the water productivity.
To cope with scarce supplies, Galpagro has developed and tested a Regulated Deficit Irrigation (RDI) protocol for the olive plant using the Scholander pressure chamber as a tool for estimating the plant tissues water potential. Thanks to our RDI irrigation system, the water restriction is limited to drought-tolerant stages, often the vegetative stages and the late ripening period. So, it makes possible the reduction of spent water up to 40 % without prejudicing the production and the quality of fruits. Furthermore, to enhance this novel irrigation system, we need to develop a continuous measurement sensor which will be able to replace the Scholander pressure chamber (discontinuous method). This sensor will make easier and more efficient the implementation of RDI protocol in olive tree and latter to other crops, and also, will reduce the overall costs. To date, there don’t exist in the market any method or sensor able to estimate in continuous the olive trunk water potential, which would make possible the integration of our RDI protocol immediately to the market. In this regard, Galpagro is collaborating with other specialized companies to develop the continuous-online sensor.
Our target customers will be the individual farmers of any size and/or cooperatives who are willing to pay for a differentiate and effective irrigation system which will reduce them irrigation costs (water quantity), without prejudicing the production and fruit quality.
This Feasibility Study’s goal is to deepen in those critical points to assess the economic, technical and commercial viability of HydSOS, to tackle this challenge for us to scale-up.
To cope with scarce supplies, Galpagro has developed and tested a Regulated Deficit Irrigation (RDI) protocol for the olive plant using the Scholander pressure chamber as a tool for estimating the plant tissues water potential. Thanks to our RDI irrigation system, the water restriction is limited to drought-tolerant stages, often the vegetative stages and the late ripening period. So, it makes possible the reduction of spent water up to 40 % without prejudicing the production and the quality of fruits. Furthermore, to enhance this novel irrigation system, we need to develop a continuous measurement sensor which will be able to replace the Scholander pressure chamber (discontinuous method). This sensor will make easier and more efficient the implementation of RDI protocol in olive tree and latter to other crops, and also, will reduce the overall costs. To date, there don’t exist in the market any method or sensor able to estimate in continuous the olive trunk water potential, which would make possible the integration of our RDI protocol immediately to the market. In this regard, Galpagro is collaborating with other specialized companies to develop the continuous-online sensor.
Our target customers will be the individual farmers of any size and/or cooperatives who are willing to pay for a differentiate and effective irrigation system which will reduce them irrigation costs (water quantity), without prejudicing the production and fruit quality.
This Feasibility Study’s goal is to deepen in those critical points to assess the economic, technical and commercial viability of HydSOS, to tackle this challenge for us to scale-up.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/875933 |
| Start date: | 01-08-2019 |
| End date: | 31-01-2020 |
| Total budget - Public funding: | 71 429,00 Euro - 50 000,00 Euro |
Cordis data
Original description
At present and more so in the future, irrigated agriculture will take place under water scarcity. Insufficient water supply for irrigation will be the norm rather than the exception, and irrigation management will shift from emphasizing production per unit area towards maximizing the production per unit of water consumed, the water productivity.To cope with scarce supplies, Galpagro has developed and tested a Regulated Deficit Irrigation (RDI) protocol for the olive plant using the Scholander pressure chamber as a tool for estimating the plant tissues water potential. Thanks to our RDI irrigation system, the water restriction is limited to drought-tolerant stages, often the vegetative stages and the late ripening period. So, it makes possible the reduction of spent water up to 40 % without prejudicing the production and the quality of fruits. Furthermore, to enhance this novel irrigation system, we need to develop a continuous measurement sensor which will be able to replace the Scholander pressure chamber (discontinuous method). This sensor will make easier and more efficient the implementation of RDI protocol in olive tree and latter to other crops, and also, will reduce the overall costs. To date, there don’t exist in the market any method or sensor able to estimate in continuous the olive trunk water potential, which would make possible the integration of our RDI protocol immediately to the market. In this regard, Galpagro is collaborating with other specialized companies to develop the continuous-online sensor.
Our target customers will be the individual farmers of any size and/or cooperatives who are willing to pay for a differentiate and effective irrigation system which will reduce them irrigation costs (water quantity), without prejudicing the production and fruit quality.
This Feasibility Study’s goal is to deepen in those critical points to assess the economic, technical and commercial viability of HydSOS, to tackle this challenge for us to scale-up.
Status
CLOSEDCall topic
EIC-SMEInst-2018-2020Update Date
27-10-2022
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