We are happy to share the sixth issue of the RESIN newsletter with
you. In this edition:
1) About RESIN: Video introduction to the RESIN project with
coordinator Peter Bosch, Tecnalia researcher EfrÉn Feliu and Deputy
Mayor of Bilbao Alfonso Gil
2) Open European Day: The RESIN project co-organized a successful
Open European Day at Bonn Resilient Cities
3) Spotlight on RESIN Tier 2 cities: Nijmegen and Radom
4) Research news: Development of the E-Guide
5) City news: Greater Manchester continues to engage with partners on
climate resilience and the RESIN project
6) Research news: Standardization
7) Co-creation news: Bratislava and vulnerability assessment
8) Related projects: New page on the RESIN website
9) Upcoming events
To read the RESIN newsletter, click here.
The Slovakian capital of Bratislava is fast becoming a climate change adaptation champion for its local region. Through the RESIN project, Bratislava has begun to take an active role in developing and testing tools for adaptation planning. Specific conditions in Bratislava, such as climate change impacts, drivers, stressors and adaptation options, call for tailored outputs and tools, and the city is an active contributor to producing these resources. Crucial to the development process is the close relationship between cities: pilot cities in RESIN work closely together to share their experience and to share this with a wider circle of Tier 2 cities.
Such a city exchange took place as a knowledge transfer workshop held last month in Bratislava. The cities of Greater Manchester and Bratislava in collaboration with TNO, Tecnalia, Frauenhofer and ICLEI welcomed representatives of 10 RESIN Tier 2 cities to Bratislava from 13-14 June 2017. City governments and representatives from Ghent, Lahti, Covasna, Burgas, Reykjavik, Sfantu Gheorghe, Vilnius, Radom, Nijmegen and Newcastle met their Tier 1 partners in Bratislava for a 2-day knowledge transfer workshop at Faculty of Natural Sciences, Mlynská dolina, Bratislava.
During the workshop, the cities provided feedback on the RESIN vulnerability and risk assessment tool, IVAVIA. Bratislava has already developed two impact chains for “Health and wellbeing of the urban population” and “Green infrastructure” and has previously carried out vulnerability assessment. The city stakeholders were able to draw from this experience to provide tool developers with feedback on the prototype IVAVIA. Bratislava has been closely involved in the vulnerability analysis process and assessment of climate change risks. Through regular Skype meetings with RESIN research partner, Fraunhofer, the city is focusing on the process of involving stakeholders and collecting data.
Mapping and understanding vulnerability and risk is becoming increasingly important to Bratislava. The city has been facing a rapid increase in tropical nights with maximum temperatures of over 20 degrees Celsius. These hot nights have boomed in number from less than 5 in 1990 to 48 hot nights in 2013, and the trend is increasing every year. Thermovisual scanning clearly shows the benefit of green spaces and urban water features for cooling down urban areas and controlling these extreme nighttime temperatures. Local measures for adapting to this new climate reality such as green and blue infrastructure will be essential if Bratislava’s citizens are to get a good night’s sleep.
Bratislava became a pilot project of RESIN: Climate Resilient Cities and Infrastructures in 2015. Since then, it has also joined the core group of cities supporting the new Urban Water Agenda and hosted Bremen (Germany) and Arnhem (Netherlands) as part of the Mayors Adapt City Twinning Programme. In April 2017, the City parliament endorsed the “Action Plan for adaptation to climate change in Bratislava.”
The city’s next ambition is to support the usage of RESIN outputs and tools through translation into Slovak, to raise awareness of the benefits of climate change adaptation through boosting communication and stakeholder involvement, and finally, Bratislava aims to gain political commitment in order to be able to implement the results of the vulnerability assessment in the city’s master plan and urban development scenarios.
The SMR project has been working for just over two years to develop a suite of tools to help cities enhance their resilience. These tools have been developed in close cooperation between seven partner cities of Glasgow, San Sebastian, Kristiansand, Rome, Riga, Bristol and Vejle, SMR's four university partners, ICLEI Europe and standardization body DIN.
The cities have been working with researchers to develop five strategic support and discussion formats that the cities are using to identify and select policies they should implement to address weaknesses in their resilience management, to develop long-term resilience strategies as well as structures for cross-departmental cooperation outside of the usual 'silos'.
Now that the tools are being finalised, they will be shared with a wider group of cities at a Stakeholder Dialogue event in Thessaloniki, Greece. Three tools are already available to cities: the Resilience Maturity Model, Risk Systemicity Questionnaire and Resilience Engagement and Communication Tool. Two further tools: a System Dynamics Model and a collection of Resilience Policies will be completed before the event.
Registration for the Stakeholder Dialogue will open soon. For more information, please contact email@example.com.
Radom (Poland) is located in the centre of Radom Plain, approximately 100km south of Warsaw, in the fork of the Vistula and Pilica rivers. At the turn of the 8th and 9th centuries, in the valley of the Mleczna river the first type of rural settlements were established, inhabited by farmers and fishermen. The settlement developed into an early-medieval town, chartered according to the Środa law, a variant of the Magdeburg law.
By the end of the 18th century Radom was in a state of neglect. The ancient city walls were in ruin. Private houses, town and ecclesiastical property were devastated and in need of renovation. Streets were muddy and difficult to pass. The Mleczna river lowlands and areas situated to the south were repeatedly flooded. There was an urgent need to dry and re-organize the town. In 1822 the regulation plan concerning organisation and expansion of Radom was approved.
One of the aims of the project was to establish new residential areas in the developing town, which already spread beyond its original medieval boundaries. In the years 1918-1945 the development of the city continued. The inclusion of Radom to the Central Industrial District allowed the creation of several factories. In 1933 a new railway line was built connecting Radom and Warsaw.
Alternating periods of flooding or drying forest are occurring more frequently than before. In 2013, the area of more than 920 ha was damaged due to interference of water relations including 560 ha of flooding area and 360 ha of drying area. Other abiotic and anthropogenic factors like low or high temperatures, frost and hail have smaller, local significance. In 2013 hail caused damage to more than 400 ha, fire affected 12 hectares while the extreme temperatures damaged 7 hectares.
Radom is planning to control flood water by implementing effective and cost-efficient green infrastructure measures, by supporting natural water retention through the restoration and preservation of natural green areas and wetlands.
Many European cities are experiencing extremely high temperatures this summer – a trend that municipalities are accepting will continue. According to findings by RAMSES researchers, there will be 10 times more heat wave days from 2081-2100, reaching nearly 30 heat wave days per year on average.
A study by RAMSES related to the 2003 heat wave in France found that while heat waves coincided with an increase in deaths in small towns, Paris, as a major city, suffered nearly three times the number of additional deaths during heat waves.
Why do cities tend to be warmer than their rural surroundings? Firstly, there are more buildings and soil sealing: buildings store heat during the day and release them at night. Walls cause additional radiation as they reflect the sun’s rays and reduce ventilation in narrow streets. Secondly, cities cool less due to less vegetation in city centres causing lower evaporation levels. Thirdly, humans create additional heat, such as through vehicle exhaust. The maps produced following a study in Antwerp and 101 other European cities show where in cities the highest temperatures are occurring and which areas should be prioritised for adaptation measures.
The project found that a typical western European city has a mean temperature difference at midnight of around 4oC . City temperatures on hot summer nights are 8oC -10oC higher than rural areas, as a result of less ventilation and higher populations. The RAMSES project is now completing its fifth year working with cities to promote adaptation, mitigation and sustainable development. The project is currently holding a series of free webinars, which will continue on 13 July.
For more information and to register, click here.