This comprehensive research initiative addresses critical challenges in sustainable land management by investigating how regenerative practices can simultaneously improve soil health, enhance fire resilience, and maximize carbon sequestration across diverse Mediterranean landscapes. The project leverages Portugal’s unique terraced agricultural systems, which represent centuries of sustainable land use adaptation, as natural laboratories for studying soil ecosystem responses to innovative management approaches. Research activities will span multiple scales, from microscopic soil microbial communities to landscape-level carbon dynamics, utilizing cutting-edge analytical techniques including environmental DNA sequencing, stable isotope analysis, and remote sensing technologies. The interdisciplinary approach combines traditional soil science methodologies with emerging precision agriculture tools, creating opportunities for breakthrough discoveries in soil organic matter stabilization, nutrient cycling optimization, and ecosystem service quantification. Collaborating institutions bring complementary expertise: University of Algarve provides Mediterranean climate expertise and regional connections, Instituto Superior de Agronomia contributes Portuguese agricultural systems knowledge, Wageningen offers advanced soil carbon modeling capabilities, and UC Davis provides fire ecology and precision agriculture technologies. The research directly addresses European Union priorities for sustainable agriculture and climate adaptation while generating practical solutions for land managers facing increasing environmental pressures. Expected outcomes include peer-reviewed publications in top-tier journals, development of commercially viable soil health assessment tools, and creation of evidence-based policy recommendations for regenerative agriculture incentive programs. The project’s emphasis on stakeholder engagement ensures research findings translate into real-world applications, supporting both scientific advancement and agricultural sustainability goals throughout Mediterranean regions globally.
11.4 hectares across 11 defined land-use zones including terraced slopes, firebreak clearings, and regenerative cultivation plots.
Guided land walks show guests the stages of soil regeneration - from bare ground to productive terraces.
