SubsidieMeestersCreating water-smart landscapes
The project aims to develop a machine learning framework to identify optimal land management scenarios for nature-based solutions that reduce agricultural nutrient runoff in priority areas.
Projectdetails
Introduction
With the growing human population, the diffuse nutrient emissions from agriculture are expected to increase with the rise of fertilizer use. This situation has created a need for sustainable intensification by increasing yields while simultaneously decreasing the environmental impacts.
Nature-Based Solutions
Nature-based solutions (NbS) such as wetlands and riparian buffer strips can efficiently reduce the nutrient runoff from agricultural catchments. However, most land and water management studies do not identify specific priority areas where the nutrient runoff to the water bodies is the highest (hotspots) nor do they provide spatially explicit solutions to improve the environmental conditions.
Importance of Identification
Identification of priority areas will be important for ensuring cost-effective interventions to reduce the impact of intensive agriculture.
Project Aim
The aim of the proposed project is to develop an analysis, modelling, and machine learning (ML) framework for finding spatially optimal land management scenarios for implementing NbS such as wetlands and riparian buffer strips to reduce agricultural nutrient runoff from catchments at different scales.
Landscape Predictor Variables
Moreover, the project will identify the landscape predictor variables at different spatial scales for nutrient concentrations and their cross-scale interactions using ML.
Data Management
We will implement a novel Discrete Global Grid System data cube to manage all environmental data needed for modelling.
Methodology
We will take advantage of the strength and flexibility of existing ML methods to deal with complex ecosystem responses and to reveal new interactions among water quality predictor variables.
Evaluation of Scenarios
ML together with geospatial analysis will help us to develop different spatially explicit NbS allocation scenarios which we will evaluate with process-based hydrological modelling.
Challenges and Solutions
In addition, we will address the challenges of processing large datasets by using proven parallelisation and distributed computing toolkits.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.909.500 |
| Totale projectbegroting | € 1.909.500 |
Tijdlijn
| Startdatum | 1-3-2024 |
| Einddatum | 28-2-2029 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- TARTU ULIKOOLpenvoerder
Land(en)
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Het project onderzoekt de haalbaarheid van een AI-gestuurd systeem om watergebruik in de landbouw met 30% te verminderen.
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