SubsidieMeestersBioarchaeology of Orchards and Sustainable Terroir in the Arid Near East – Trends in Ecology and Evolution
The project aims to integrate historical agricultural practices with modern science to enhance sustainability and food security in arid regions, addressing climate change through heritage horticulture insights.
Projectdetails
Introduction
Engaging with the myriad challenges linked to global warming and the unchecked expansion of drylands, the project seeks to develop models for implementing past agricultural know-how in modern socioeconomic contexts.
Methodology
Our novel methodology fuses cutting-edge interdisciplinary scientific approaches from the humanities and natural sciences with an inclusive citizen science framework to examine the ecological history and cultivar diversity of relic ‘heritage horticulture’ in four distinct arid regions in southern Israel.
Focus Areas
Focusing on the bioarchaeology of trees, we will define the historical, biological, and environmental principles of dryland heritage horticulture systems and create a method for the exploration, analysis, and ultimate dissemination of the crucial data they contain.
Perspectives
When combined, this exceptional compendium of perspectives—coupling broad socio-geographical scientific viewpoints with more precise biogenetic, archaeological, and natural science analytics—can expand our understanding of the factors that drove the sustainability of heritage horticulture in marginal areas.
Outcomes
The outcome of our study—an archaeologically informed grasp of ancient agrarian resilience—can transform the field of environmental history and impact present-and-future agricultural dynamics. Indeed, viewing trees as a singular analytical unit is unprecedented, as is our interdisciplinary survey of both the dormant and living artifacts contained within these archaeological contexts.
Implications
Hence, deep knowledge of how bygone farmers related to the landscape and managed their limited resources, particularly the terrain, soil, and water, holds vital implications for climate change adaptation and current-day food security.
Community Engagement
Moreover, the unique history of dryland farming and its remarkable development in marginal regions can inspire landscape policy management initiatives and community engagement programs that promote cultural heritage restoration and landscape reclamation.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 3.496.176 |
| Totale projectbegroting | € 3.496.176 |
Tijdlijn
| Startdatum | 1-1-2024 |
| Einddatum | 31-12-2028 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- UNIVERSITY OF HAIFApenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
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From near extinction to market distinction: Developing a methodology for the sustainable revival of heritage grapevine cultivars
This project aims to revive heritage grape cultivars in the Negev desert to create a unique, climate-resilient wine, while commercializing genomic methods and engaging the wine sector.
Biodiversity, abrupt ecosystem shifts and restoration: understanding their links to sustain drylands under global change
BIOSHIFT aims to understand and mitigate abrupt ecosystem shifts in drylands through global experimentation and monitoring, enhancing biodiversity and ecosystem service management.
Tracing the Epipalaeolithic origins of plant management in southwest Asia
PalaeOrigins aims to uncover how Epipalaeolithic hunter-gatherers managed plant resources, using advanced archaeobotanical methods to explore the origins of agriculture.
Living with Drought: Human -Environment Relationships in Drying European Landscapes
The DROUGHT project aims to develop a comprehensive understanding of socio-environmental impacts of drought in Europe through comparative anthropology, enhancing knowledge for better societal responses.
Eco-evolutionary dynamics in plant-soil interactions during land use transition: consequences for soil functioning and resilience to drought
This project investigates how land-use changes in European grasslands affect plant evolution and ecosystem services, aiming to inform sustainable management practices amid climate change pressures.