Funding programme
LIFE
Project ID
LIFE16 CCA/IT/000011
Key
RIDB_205
Acronym
LIFE DESERT-ADAPT
Description
LIFE DESERT-ADAPT aims to demonstrate the positive effect of an integrated ecosystems approach that combines climate change adaptation and mitigation targets with improved socioeconomic development opportunities in areas subjected to land degradation and desertification. It will:
* Demonstrate Desertification Adaptation Models (DAMs), aimed at countering aridification and subsequent land desertification in one region of Italy, of Spain and of Portugal. These DAMs will include innovative adaption technologies concerning land use, soil conservation and plant support ? they will demonstrate combinations of techniques and species variations with regard to soil, plants and seeds, growing aids, mycorrhizae and facilities for ecosystem services. By incorporating climate change variables and structural and functional landscape complexity they seek to optimise resilience and adaptation to climate change, targeting the improvement of ecosystems and the socioeconomic system;
* Develop a farmer adoption system ? a commercial approach with short supply chains providing economic incentives for farmers to adopt DAM land use systems ? to maximise outreach to farming communities;
* Promote and replicate the DAMs and the project's unique combinations of techniques and income sources from products and services among different stakeholders. In particular, local farmers seeking opportunities from climate resilient and profitable land use and policy-makers, to enable upscaling in the project?s regions and beyond;
* Contribute to climate change mitigation through the climate-resilient land use systems introduced to enable the recovery of vulnerable and desertified land areas. These will lead to an increase in overall carbon sequestration in the soil and in above-ground vegetation and lower the carbon footprint of the farmed products.
Expected results:
* Demonstration of innovative adaptation technologies, where the innovative part is the way in which methods are combined and integrated and in the balance achieved between economic benefits and benefits for the environment, biodiversity and climate;
* Establishment of 10 DAMs;
* 1 000 ha of land in Italy, Spain and Portugal managed through a combination of methods such as inter-planting, reforestation, water-saving technologies and soil protection;
* Improved biodiversity, including a 50% increase in soil functional biodiversity; an increase of at least 10% of indicator species for birds and butterflies, invertebrates, soil fauna; and a 30% increase of nectar-producing plants in support of pollinating species (at least three species introduced by the project);
* Improved socioeconomic benefits, with at least eight viable income sources selected from possible combinations of bio-products and ecosystem services; a ?100 per ha (or 100%) income increase for farmers; an increase in employment to 0.1 full-time employees per ha and an overall Internal Rate of Return improvement of at least 6%; and
* A net carbon removal of one tonne of CO2 per ha;
* Successful replication and upscaling with maximised adoption of the adaptation technologies resulting in:
* A self-supporting company for collective purchase, sales, marketing and farmer-promotion;
* 10 project partners trained as promoters, each successful in knowledge transfer to 10 more farmers (100 farmers and 10 000 ha in total at project end);
* At least 30 cooperation agreements signed with commercial partners for products and eco-services, with DAM products promoted at four trade fairs;
* A fully-trained group manager and a sales manager, leading the group certification process in cooperation with promoters;
* Synergies with national governments and authorities and other public and private entities for achieving policies and legislation modifications beneficial to agro-forestry and integrated land use management.
* Demonstrate Desertification Adaptation Models (DAMs), aimed at countering aridification and subsequent land desertification in one region of Italy, of Spain and of Portugal. These DAMs will include innovative adaption technologies concerning land use, soil conservation and plant support ? they will demonstrate combinations of techniques and species variations with regard to soil, plants and seeds, growing aids, mycorrhizae and facilities for ecosystem services. By incorporating climate change variables and structural and functional landscape complexity they seek to optimise resilience and adaptation to climate change, targeting the improvement of ecosystems and the socioeconomic system;
* Develop a farmer adoption system ? a commercial approach with short supply chains providing economic incentives for farmers to adopt DAM land use systems ? to maximise outreach to farming communities;
* Promote and replicate the DAMs and the project's unique combinations of techniques and income sources from products and services among different stakeholders. In particular, local farmers seeking opportunities from climate resilient and profitable land use and policy-makers, to enable upscaling in the project?s regions and beyond;
* Contribute to climate change mitigation through the climate-resilient land use systems introduced to enable the recovery of vulnerable and desertified land areas. These will lead to an increase in overall carbon sequestration in the soil and in above-ground vegetation and lower the carbon footprint of the farmed products.
Expected results:
* Demonstration of innovative adaptation technologies, where the innovative part is the way in which methods are combined and integrated and in the balance achieved between economic benefits and benefits for the environment, biodiversity and climate;
* Establishment of 10 DAMs;
* 1 000 ha of land in Italy, Spain and Portugal managed through a combination of methods such as inter-planting, reforestation, water-saving technologies and soil protection;
* Improved biodiversity, including a 50% increase in soil functional biodiversity; an increase of at least 10% of indicator species for birds and butterflies, invertebrates, soil fauna; and a 30% increase of nectar-producing plants in support of pollinating species (at least three species introduced by the project);
* Improved socioeconomic benefits, with at least eight viable income sources selected from possible combinations of bio-products and ecosystem services; a ?100 per ha (or 100%) income increase for farmers; an increase in employment to 0.1 full-time employees per ha and an overall Internal Rate of Return improvement of at least 6%; and
* A net carbon removal of one tonne of CO2 per ha;
* Successful replication and upscaling with maximised adoption of the adaptation technologies resulting in:
* A self-supporting company for collective purchase, sales, marketing and farmer-promotion;
* 10 project partners trained as promoters, each successful in knowledge transfer to 10 more farmers (100 farmers and 10 000 ha in total at project end);
* At least 30 cooperation agreements signed with commercial partners for products and eco-services, with DAM products promoted at four trade fairs;
* A fully-trained group manager and a sales manager, leading the group certification process in cooperation with promoters;
* Synergies with national governments and authorities and other public and private entities for achieving policies and legislation modifications beneficial to agro-forestry and integrated land use management.
Lead entity
-
Lead Country
IT
Partners
-
Partners countries
IT
Start end date
-
Time frame
2017 - 2022
NBS type
Type 2
Societal challenges
Climate Resilience
Water management
Approach
Ecosystem-based adaptation
Environment
Sparsely Vegetated Land