LIFE Project Cover Photo

High resolution AppROach for ManagEMent of Surface Water EutroPhication in RuraL areas of the DUero River BaSin

Reference: LIFE11 ENV/ES/000590 | Acronym: ROEM-plus

PROJECT DESCRIPTION

BACKGROUND

Eutrophication tends to occur in ponds and reservoirs with excessive nutrient content. This can lead to the formation of blue-green algae blooms that can generate bio-toxins, which are a danger to the environment and wildlife and also to human health via bathing and drinking water. Blue-green algae blooms can develop in short timescales (days) and at different localities in the reservoir, which entails difficulties for monitoring. A means of providing efficient and effective management of surface water eutrophication is therefore of great urgency. According to the ?WISE? database of the European Environmental Agency, approximately half of all Spanish reservoirs are at risk of eutrophication. One Spanish reservoir defined as eutrophic is Cuerda del Pozo in Soria (Castilla y Leon, Spain). This represents an excellent case study because it has many uses, including as a water supply to the city of Soria (100 000 inhabitants), for recreation, and as a water supply for cattle.


OBJECTIVES

The main objective of the ROEM-plus project was to demonstrate the efficiency and viability of an innovative approach for the integrated management of hydrographic basins to prevent eutrophication and algal blooms. The project aimed to deploy remote sensor networks (e.g. meteorological, phytoplankton) within the whole geographic area connected to the Cuerda del Pozo reservoir, to quantify and localise the origin of pollutant and nutrient discharges, and assess the impact of territory use, forest, agricultural and livestock management. The remote, continuous and autonomous monitoring data system was designed to feed into an integrated decision-supporting ?e-platform? tool, to generate dynamic and spatially-distributed simulation models based on in-depth analysis of all key processes and elements.


RESULTS

ROEM-plus delivered an integrated and cost-effective technological solution for the environmental monitoring of water systems in rural areas with high replicability potential all over the EU. The project pioneered the development of a real-time monitoring system for the comprehensive management of river basin pressures. In particular, the project developed an information and management ?e-platform?, based on cutting-edge remote sensor networks (high time and spatial resolution) connected to predictive simulation systems. This innovative tool enables priorities for action to be assigned in relation to area and water use, so these can realistically absorb and buffer impacts and pressures. This approach makes it possible to avoid past management errors caused by excessive uncertainty, such as inappropriate investments in sewage treatment plants.

Monitoring the effects of different natural processes and pressures throughout the Duero River Basin and waterways has enabled the project to achieve a set of specific results, including alarm systems for algae blooms, an (almost) real-time environmental information system, and a model (case study) that can be exported to other river basins. As an immediate consequence of the project, an optimised management of eutrophication and pollution stressors was obtained for the project area, due to the forecasting of the performance of the different combinations of corrective actions (e.g. in controlled wetland, agroforestry and livestock management) and the minimisation of uncertainties and costs. Indeed, the project?s outcomes have enabled a highly improved management of fish stock populations in the reservoir, provided an information platform usable by other environmental actors and territory managers, and facilitated local benefits through new potential economic activities in rural areas. The ROEM-plus monitoring system has detected cyanobacteria blooms near the demonstration reservoir dam since 2010 that would probably not otherwise have been detected.

The project has gone beyond the strict enforcement of the Water Framework Directive, by not only analysing the physical conditions of the water masses (according to the criteria established in the Annex V of the Directive) but also modelling the relevant processes. This provided a greater understanding of the quantitative and qualitative situation of the status of the water masses in the project area, which resulted in a proposed plan of corrective actions to achieve ?good ecological status? in the target reservoir. The assessment of the different pressures includes the analysis of the anthropogenic influences that have led to the current conditions of the ROEM-plus delivered an integrated and cost-effective technological solution for the environmental monitoring of water systems in rural areas with high replicability potential all over the EU. The project pioneered the development of a real-time monitoring system for the comprehensive management of river basin pressures. In particular, the project developed an information and management ?e-platform?, based on cutting-edge remote sensor networks (high time and spatial resolution) connected to predictive simulation systems. This innovative tool enables priorities for action to be assigned in relation to area and water use, so these can realistically absorb and buffer impacts and pressures. This approach makes it possible to avoid past management errors caused by excessive uncertainty, such as inappropriate investments in sewage treatment plants.

Monitoring the effects of different natural processes and pressures throughout the Duero River Basin and waterways has enabled the project to achieve a set of specific results, including alarm systems for algae blooms, an (almost) real-time environmental information system, and a model (case study) that can be exported to other river basins. As an immediate consequence of the project, an optimised management of eutrophication and pollution stressors was obtained for the project area, due to the forecasting of the performance of the different combinations of corrective actions (e.g. in controlled wetland, agroforestry and livestock management) and the minimisation of uncertainties and costs. Indeed, the project?s outcomes have enabled a highly improved management of fish stock populations in the reservoir, provided an information platform usable by other environmental actors and territory managers, and facilitated local benefits through new potential economic activities in rural areas. The ROEM-plus monitoring system has detected cyanobacteria blooms near the demonstration reservoir dam since 2010 that would probably not otherwise have been detected.

The project has gone beyond the strict enforcement of the Water Framework Directive, by not only analysing the physical conditions of the water masses (according to the criteria established in the Annex V of the Directive) but also modelling the relevant processes. This provided a greater understanding of the quantitative and qualitative situation of the status of the water masses in the project area, which resulted in a proposed plan of corrective actions to achieve ?good ecological status? in the target reservoir. The assessment of the different pressures includes the analysis of the anthropogenic influences that have led to the current conditions of the

ADMINISTRATIVE DATA


Reference: LIFE11 ENV/ES/000590
Acronym: ROEM-plus
Start Date: 01/09/2012
End Date: 28/02/2016
Total Budget: 1,933,584 €
EU Contribution: 922,416 €
Project Location:
Project Website:

CONTACT DETAILS


Coordinating Beneficiary: Fundación Instituto Tecnológico de Galicia
Legal Status: PNC
Address: PO.CO.MA.CO. Sector I, Portal 5, 15190, A Coruña,
Contact Person: López Fidalgo Analía
Email: afidalgo@itg.es
Tel: 981 173 206
Fax: 981 173 223


LIFE Project Map

ENVIRONMENTAL ISSUES ADDRESSED

THEMES

  • Risk assessment and monitoring
  • River basin management

KEYWORDS

  • eutrophication
  • river
  • decision making support
  • water monitoring
  • rural area
  • water quality
  • water pollution

TARGET EU LEGISLATION

  • Directive 91/676 - Protection of waters against pollution caused by nitrates from agricultural sources (12.12.1991)
  • Directive 2008/105 - Environmental quality standards in the field of water policy (16.12.2008)
  • Directive 2006/7 - Management of bathing water quality and repealing Directive 76/160/EEC (15.02.2006)
  • Directive 2000/60 - Framework for Community action in the field of water policy (23.10.2000)

BENEFICIARIES

Name Type
Fundación Instituto Tecnológico de Galicia Coordinator
Ecohydros S.L. Participant
Asociación Profesional de Xóvenes Agricultores Participant

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