Societal resilience is an emerging paradigm. It refers to responses and strategies at the level of individuals, groups, organizations, and societies that are dealing with complex societal problems. At the same time, these responses contribute to innovative solutions that make society more resilient to current and future challenges. Societal resilience is, however, conceptually relatively undefined. This ambiguity is generally seen as problematic for scholarly work. In this chapter, the authors show that societal resilience is an important social concept because of its openness. To study resilience requires research methodologies that engage many actual stakeholders. Collaborating with societal stakeholders allows not only for co-generating knowledge of local relevance, but also stimulating a comprehensive and critical research approach. Therefore, the current openness of societal resilience does not constitute an undesirable theory gap. It enables the possibility of having plural perspectives based on the complex realities on the ground.
The current Covid-19 pandemic has underlined the importance of urban public spaces in achieving health and social well-being (Dobson, 2021; Poortinga et al., 2021), prompting policymakers and urban planners to rethink their approach to the design of these spaces. They now propagate adapting urban public spaces more directly to human needs (Suurenbroek et al., 2019), often at a neighbourhood level, while also embracing a more-than-human perspective that includes the well-being of the natural ecosystem at large (Maller, 2020; Houston et al., 2018). The latter becomes imperative as other shocks and stressors, such as climate change and biodiversity loss, are impending, straining urban spaces and their residents to show resilience in times of complex challenges. “Learning from Covid-19”, a need emerged for new design approaches for public spaces, contributing both to social and ecological resilience.This paper presents results from the research project "From Prevention to Resilience". It moves beyond merely responding to the pandemic by designing social and physical barriers in public space to prevent the virus from spreading. Instead, it seizes the opportunity to explore how an integrated design approach to public space could contribute to social and ecological resilience (Boon et al., 2021). The project, funded by the Dutch organization for health research and care innovation, is a collaboration between the chairs of Spatial Urban Transformation and Civic Interaction Design (AUAS) and an international partner consortium.This paper builds on our compiled database of design strategies addressing the Covid-crisis, expert sessions with a Community of Practitioners, and interviews with Dutch spatial design firms and municipalities. It first introduces a "Design Framework for Neighbourhood Resilience" and its core concepts. Next, it validates this framework through a research-by-design approach. Spatial and social design agencies applied the framework in real-life design cases in Amsterdam and allowed for its empirical grounding and practice-based development. Ultimately, the paper defines a design framework that builds resilience for the well-being of all urban inhabitants and initiates a dialogue between disciplines to address resilience integrally when designing public spaces and forms of civic engagement.ReferencesBoon, B., Nirschl, M., Gualtieri, G., Suurenbroek, F., & de Waal, M. (2021). Generating and disseminating intermediate-level knowledge on multiple levels of abstraction: An exploratory case in media architecture. Media Architecture Biennale 20, 189–193. https://doi.org/10.1145/3469410.3469430Dobson, J. (2021). Wellbeing and blue‐green space in post‐pandemic cities: Drivers, debates and departures. Geography Compass, 15. https://doi.org/10.1111/gec3.12593Houston, D., Hillier, J., MacCallum, D., Steele, W., & Byrne, J. (2018). Make kin, not cities! Multispecies entanglements and ‘becoming-world’ in planning theory. Planning Theory, 17(2), 190–212. https://doi.org/10.1177/1473095216688042 Maller, C. (2020). Healthy Urban Environments: More-than-Human Theories (1st ed.). Routledge, Taylor & Francis Group. https://www.routledge.com/Healthy-Urban-Environments-More-than-Human-Theories/Maller/p/book/9780367459031Poortinga, W., Bird, N., Hallingberg, B., Phillips, R., & Williams, D. (2021). The role of perceived public and private green space in subjective health and wellbeing during and after the first peak of the COVID-19 outbreak. Landscape and Urban Planning, 211, 104092. https://doi.org/10.1016/j.landurbplan.2021.104092 Suurenbroek, F., Nio, I., & de Waal, M. (2019). Responsive public spaces: exploring the use of interactive technology in the design of public spaces. Hogeschool van Amsterdam, Urban Technology.https://research.hva.nl/en/publications/responsive-public-spaces-exploring-the-use-of-interactive-technol-2
BACKGROUND: Ageing is a process that is often accompanied by functional limitation, disabilities and losses. Instead of focusing on these negative events of ageing, there are opportunities in focusing on adaptation mechanisms, like resilience, that are helpful to cope with those adversities.DESIGN: Cross-sectional study.METHOD: The study was conducted from 2011-2012. First, a conceptual model of resilience during the ageing process was constructed. Next, items were formulated that made up a comprehensive template questionnaire reflecting the model. Finally, a cross-sectional study was performed to evaluate the construct validity and internal consistency of this template 16-item questionnaire.FINDINGS: Participants (N = 229) with a mean age of 71·5 years, completed the template 16-item Groningen Ageing Resilience Inventory, and performance based tests and psychological questionnaires. Exploratory factor analysis resulted in a two factor solution of internal and external resources of resilience. Three items did not discriminate well between the two factors and were deleted, remaining a final 13-item questionnaire that shows evidence of good internal consistency. The direction and magnitude of the correlations with other measures support the construct validity.CONCLUSION: The Groningen Ageing Resilience Inventory is a useful instrument that can help nurses, other healthcare workers, researchers and providers of informal care to identify the internal and external resources of resilience in individuals and groups. In a multidisciplinary biopsychosocial approach this knowledge provides tools for empowering older patients in performing health promoting behaviors and self-care tasks.
LINK
The focus of this project is on improving the resilience of hospitality Small and Medium Enterprises (SMEs) by enabling them to take advantage of digitalization tools and data analytics in particular. Hospitality SMEs play an important role in their local community but are vulnerable to shifts in demand. Due to a lack of resources (time, finance, and sometimes knowledge), they do not have sufficient access to data analytics tools that are typically available to larger organizations. The purpose of this project is therefore to develop a prototype infrastructure or ecosystem showcasing how Dutch hospitality SMEs can develop their data analytic capability in such a way that they increase their resilience to shifts in demand. The one year exploration period will be used to assess the feasibility of such an infrastructure and will address technological aspects (e.g. kind of technological platform), process aspects (e.g. prerequisites for collaboration such as confidentiality and safety of data), knowledge aspects (e.g. what knowledge of data analytics do SMEs need and through what medium), and organizational aspects (what kind of cooperation form is necessary and how should it be financed).
Worldwide, coral reefs are rapidly declining due to increased sea water temperatures and other environmental stresses (Figure 1). To counter the extinction of major coral reef building species on the island of Bonaire, the non-profit organization Reef Renewal Foundation Bonaire is restoring degraded reef sites using corals that are grown in local nurseries. In these nurseries, corals are propagated on artificial trees using fragmentation. After 6-8 months of growth in the nursery, the corals are transplanted to degraded reef sites around the island. Over the years more than 21.000 corals have been outplanted to reef restoration sites in this way. These corals show high survivorship under natural reef conditions but remain under threat by environmental disturbances, such as increased water temperatures, diseases, and competition with macroalgae. A promising intervention to increase reef persistence and resilience is to manipulate the coral-associated microbiome. At present, the composition of the microbiome in nursery-reared and outplanted corals on Bonaire is unknown. The aim of the current project is to identify and isolate naturally occurring beneficial bacteria that may stimulate the resilience of these corals. Our key objectives are: 1) to assess the presence of functionally beneficial bacteria in corals in nursery and restoration sites on Bonaire using metagenomic screening. 2) to design culture strategies to isolate these functionally beneficial bacteria. In the future, a selection of these beneficial bacteria can be applied to the corals to increase their resilience against environmental disturbances.
Dit project richt zich op de ontwikkeling van de biotechnologische en chemische procesvoering om op basis van mycelium een alternatief voor leer te produceren. In vergelijking met leer is het voordeel van mycelium dat geen runderen nodig zijn, de productie kan plaatsvinden onder industriële condities en met gebruik van reststromen, de CO2 uitstoot alsook hoeveelheid afval verlaagd wordt, en het gebruik van toxische stoffen zoals chroom wordt vervangen door biobased alternatieven. In het project zullen de procescondities worden bepaald die leiden tot de vorming van optimaal mycelium. Daartoe zullen twee verschillende schimmels worden gekweekt in bioreactoren bij de Hogeschool Arnhem Nijmegen (HAN), waarbij specifiek de effecten van de procescondities (temperatuur, pH, shear, beluchting) en de samenstelling van het kweekmedium op groei van het mycelium en materiaal eigenschappen zullen worden onderzocht. De meest optimale condities zullen vervolgens worden opgeschaald. Op het op deze wijze verkregen materiaal zal Mylium BV een aantal nabehandelingsstappen uitvoeren om de sterkte, elasticiteit, en duurzaamheid van het product te vergroten. Daartoe worden biobased plasticizers, cross-linkers en/of flexibility agents gebruikt. Het resulterende eindproduct zal middels specifiek fysieke testen vergeleken worden met leer alsook worden voorgelegd aan mogelijke klanten. Indien beide resultaten positief zijn kan het betreffende proces na het project verder worden opgeschaald voor toepassing naar de markt.
