Purpose: When designing a nursing home, architects and planners need to consider ways to provide patients and caregivers with a feeling of a natural setting and being a part of the outdoor world as well as considering themes such as having accessible gardens that take the total well-being of its residents1. A substantial mountain of evidence suggests that participating in green and gardening activities for people with dementia provides a positive response in such patients2-5. Experiencing the natural world and relaxing in fresh air and daylight are considered beneficial to well-being and health. The limitations of people with dementia often mean they are dependent on the people around them to provide them with opportunities to access a green environment as described above. This study focuses on the essential design needed for gardens to be enjoyed by people with dementia as part of an enriched living environment. Method: First, literature and studies providing evidence of the beneficial effect of gardening and gardens on persons with dementia were reviewed. The analysis focused on (i) the accessibility of nursing home gardens, (ii) ways we can entice people with dementia to go into the garden (independently), and (iii) ways we can motivate these people to want to stay in the garden, once they enter it. Results & Discussion: A green area offers nursing home patients, their families and caregivers many opportunities to socialize, to reminiscence and to regain an increased sense of autonomy. Therefore, encouraging people with dementia to stay in a green area more often and to participate in gardening and other activities is desirable. Caregivers can also benefit from the positive effects, such as improvements in mood and stress levels. Only limited evidence is available based on the effects of green environments on the quality of life of people with dementia, because of research limitations, small samples sizes and a lack of appropriate measurement instruments, as well as the researcher's inability to specify and define factors influencing the results, etc. Qualitative research data provide the initial guidelines for providing increased attention to the design of garden spaces and related activities. Despite the positive aspects of a garden, many Dutch nursing homes have gardens that suffer from poor accessibility. We also find that people with dementia often want to go back inside a nursing home once they enter an outdoor environment.
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Nowadays, Nature-Based Solutions (NBSs) are developing as innovative multifunctional tools to maximize urban ecosystem services such as storm water preservation, reduction of runoff and flood protection, groundwater pollution prevention, biodiversity enhancement, and microclimate control. Gdańsk is one of the first Polish cities to widely introduce rain gardens (one example of an NBS) in different areas such as parks, city center, main crossroads, and car parks. They involve different technical innovations individually tailored to local architecture, including historic buildings and spaces. Gdańskie Wody, which is responsible for storm water management in the city, adopted a pioneering strategy and started the construction of the first rain garden in 2018. Currently, there are a dozen rain gardens in the city, and this organisation's policy stipulates the construction of NBSs in new housing estates without building rainwater drainage.Various types of rain gardens can be created depending on location characteristics such as geo-hydrology, as well as local conditions and needs. Furthermore, each of them might be equipped with specific technical solutions to improve the rain garden's function – for example, an oil separator or setter can be included to absorb the initial, most polluted runoff. During winter, the large amount of sodium chloride usually used to grit the roads may pose the greatest threat to biodiversity and plants. These installations have been included in a large rain garden in Gdańsk, located in the central reservation of the main streets in the city center.This work presents various technical considerations and their impact on ecosystem functions, and the urban circularity challenges provided by rain gardens operating in different technologies and surroundings. The precipitation quantity and the following infiltration rate were estimated by installing pressure transducers. Furthermore, mitigation of the urban heat island was analysed based on remote sensing images.
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The rain gardens at Bryggen in Bergen, Western Norway, is designed to collect, retain, and infiltrate surface rainfall runoff water, recharge the groundwater, and replenish soil moisture. The hydraulic infiltration capacity of the Sustainable Drainage System (SuDS), here rain gardens, has been tested with small-scale and full-scale infiltration tests. Results show that infiltration capacity meets the requirement and is more than sufficient for infiltration in a cold climate. The results from small-scale test, 245–404 mm/h, shows lower infiltration rates than the full-scale infiltration test, with 510–1600 mm/h. As predicted, an immediate response of the full-scale infiltration test is shown on the groundwater monitoring in the wells located closest to the infiltration point (<30 m), with a ca. 2 days delayed response in the wells further away (75–100 m). Results show that there is sufficient capacity for a larger drainage area to be connected to the infiltration systems. This study contributes to the understanding of the dynamics of infiltration systems such as how a rain garden interacts with local, urban water cycle, both in the hydrological and hydrogeological aspects. The results from this study show that infiltration systems help to protect and preserve the organic rich cultural layers below, as well as help with testing and evaluating of the efficiency, i.e., SuDS may have multiple functions, not only storm water retention. The functionality is tested with water volumes of 40 m3 (600 L/min for 2 h and 10 min), comparable to a flash flood, which give an evaluation of the infiltration capacity of the system.
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Dit project heeft tot doel in kaart te brengen hoe virtuele en fysieke sociale interacties in de vrije tijd zich tot elkaar verhouden. Wat is de impact van virtualisering van de vrijetijd op lokale praktijken? Vrijetijdspraktijken worden traditioneel gezien als gelegenheden bij uitstek om op een laagdrempelige manier in contact te komen met anderen en worden aangewend om sociale cohesie te bewerkstelligen (bijvoorbeeld via urban gardens). Het internet heeft echter voor nieuwe vormen van vrijetijdsbesteding en daarmee gepaard gaande sociale interactie gezorgd. Het is mogelijk om -bijvoorbeeld in het kader van een hobby zoals gamen- contact te leggen met gelijkgestemden aan de andere kant van de wereld. Dit roept de vraag op naar de invloed van digitale media en individualisering van de vrije tijd op de omvang en aard van sociale netwerken die aan de basis staan van sociale cohesie en sociaal kapitaal. Mogelijk versterken virtuele praktijken lokale sociale netwerken. Aan de andere kant kunnen mensen met een beperkte toegang tot de virtuele wereld buitengesloten raken. Onderzoek is nodig om te begrijpen hoe virtuele en fysieke sociale contacten op elkaar inwerken. In afstemming met bewoners en lokale organisaties beoogt dit project vervolgens een antwoord te geven op de vraag hoe de interactie tussen virtuele en fysieke praktijken succesvol kan bijdragen aan de kwaliteit van de sociale leefomgeving. Het onderzoek zal een mixed methods benadering toepassen om inzicht te verkrijgen in de (micro)dynamiek van de interactie tussen virtuele en fysieke vrijetijdspraktijken Vervolgens zullen de resultaten van het onderzoek benut worden om met bewoners en lokale organisaties een instrument te ontwikkelen om zowel fysieke als virtuele sociale verbindingen in de buurt in kaart te brengen en te versterken. Het project maakt deel uit van het onderzoeksprogramma Placemaking and Events van Breda University of Applied Sciences.
Society continues to place an exaggerated emphasis on women's skins, judging the value of lives lived within, by the colour and condition of these surfaces. This artistic research will explore how the skin of a painting might unpack this site of judgement, highlight its objectification, and offer women alternative visualizations of their own sense of embodiment. This speculative renovation of traditional concepts of portrayal will explore how painting, as an aesthetic body whose material skin is both its surface and its inner content (its representations) can help us imagine our portrayal in a different way, focusing, not on what we look like to others, but on how we sense, touch, and experience. How might we visualise skin from its ghostly inner side? This feminist enquiry will unfold alongside archival research on The Ten Largest (1906-07), a painting series by Swedish Modernist Hilma af Klint. Initial findings suggest the artist was mapping traditional clothing designs into a spectral, painterly idea of a body in time. Fundamental methods research, and access to newly available Af Klint archives, will expand upon these roots in maps and women’s craft practices and explore them as political acts, linked to Swedish Life Reform, and knowingly sidestepping a non-inclusive art history. Blending archival study with a contemporary practice informed by eco-feminism is an approach to artistic research that re-vivifies an historical paradigm that seems remote today, but which may offer a new understanding of the past that allows us to also re-think our present. This mutuality, and Af Klint’s rhizomatic approach to image-making, will therefore also inform the pedagogical development of a Methods Research programme, as part of this post-doc. This will extend across MA and PhD study, and be further enriched by pedagogy research at Cal-Arts, Los Angeles, and Konstfack, Stockholm.
Climate change is increasing the challenges for water management worldwide. Extreme weather conditions, such as droughts and heavy rainfall, are increasingly limiting the availability of water, especially for agriculture. Nature-Based Solutions (NBS) offer potential solutions. They help to collect and infiltrate rainwater and thus play an important role in climate adaptation.Green infrastructure, such as rain gardens (sunken plant beds) and wadis (sunken grass fields for temporary storage of rainwater), help to restore the urban water balance. They reduce rainwater runoff, stabilize groundwater levels and solve problems with soil moisture and temperature. Despite these advantages, there is still much ignorance in practice about the possibilities of NBS. To remedy this, freely accessible knowledge modules are being developed that can help governments and future employees to better understand the application of these solutions. This research, called GINA (Green Infrastructure in Urban Areas), aims to create more sustainable and climate-resilient cities by developing and sharing knowledge about NBS, and supports local governments and students in effectively deploying these green infrastructures.
