Research Project
A consortium consisting of the SYRR group of IIASA, ETH Zurich, and the InsuResilience Solutions Fund (ISF) will undertake macro-level socio-economic risk modelling, scenario assessment and policy analysis to understand how public sector climate and disaster risk financing strategies interact and complement risk reduction interventions in order to strengthen the resilience of vulnerable countries. IIASA will build on its CatSim Model to not only assess fiscal implications but also study broader resilience impact on relevant case study countries studied. The project will finally seek to develop recommendations on the design of smart support regarding comprehensive risk management for the case study countries.
Research Project
DECIPHER (DECIsion-making framework and Processes for Holistic Evaluation of enviRonmental and climate policies) is an EU Commission funded project that aims to embed risk, opportunity, resilience and feasibility dimensions into the economic methods that support decision-making in order to increase the effectiveness, efficiency, and legitimacy of climate and environmental policies.
Research Project
Forest restoration has high-level political support: the UN declared 2021-2030 the decade of restoration, and governments have committed to restore 350 million ha of forest by 2030 under the Bonn Challenge. However, there is strong debate about where and how restoration should take place, and what benefits forest restoration could provide for carbon sequestration and storage, biodiversity, and people’s livelihoods.
Research Project
Yoma is a digital platform that aims to support African youth on a “learning to earning journey” with three impact areas: digital skills, social change & environmental impact. The platform plans to leverage a token economy as part of an incentive system for youth action that tackles social and environmental challenges. The project will use IIASA citizen science apps to encourage measurement and monitoring of youth-led environmental impact initiatives.
Research Project
There is a need for a radical step-up in the attention we pay to current and future climate impacts and associated efforts. Despite inspiring examples of adaptation solutions, stand-alone risk reduction projects that tackle issues through direct or existing policy levers are common practice. Adopting a systemic, transformative approach is advocated by the Mission Adaptation and European Green Deal. P2R takes an innovative systemic approach to regional climate resilience; one indivisible from Europe’s future economic and social development, intersecting with net zero commitments, and demanding a markedly different approach from the one adopted so far.
Research Project
Directed aims to improve the interoperability of multiple European climate risk assessment and planning tools and bring them together in a manageable system (a data fabric) that enables better disaster risk assessment and management by European disaster protection authorities and first responders.
Using ‘Real World Labs’ to critically analyse and improve current work-flows and governance linked to disaster risk management and disaster risk reduction.
Promoting a multi-risk perspective on climate change adaptation by considering the impacts of floods, droughts, heatwaves, forest fires and storms.
Research Project
The ECOANTITRUST initiative began in November 2020 to advance a holistic, systems-based understanding of the digital economy. The project derives approaches from complex adaptive systems theory through the lens of ecology and natural ecosystems to understand the complex interconnections of digital platform ecosystems. ECOANTITRUST provides a new scope of knowledge for such systems, thereby developing unique insights into the emergence and rise of influential technological firms, digital start-ups, and online platforms in the fast-growing digital world.
Research Project
This project estimates the current global treated wastewater irrigation potential and the capacity of wastewater reclamation to function as a climate adaptation measure. GATWIP explores different technological scenarios and technical limitations for treated wastewater irrigation and applies a novel spatially explicit modeling approach to recently published global datasets. GATWIP is funded by a IIASA’s Innovative and Bridging Grant (IBGF).