12 research outputs found
Recommended from our members
Can houseplants improve indoor air quality by removing CO2 and increasing relative humidity?
High indoor CO2 concentrations and low relative humidity (RH) create an array of well-documented human health issues. Therefore, assessing houseplantsâ potential as a low-cost approach to CO2 removal and increasing RH is important.
We investigated how environmental factors such as âdryâ ( 0.30 m3 m-3) growing substrates, and indoor light levels (âlowâ 10 ”mol m-2 s-1, âhighâ 50 ”mol m-2 s-1 and âvery highâ 300 ”mol m-2 s-1), influence the plantsâ net CO2 assimilation (âAâ) and water-vapour loss. Seven common houseplant taxa â representing a variety of leaf types, metabolisms and sizes â were studied for their ability to assimilate CO2 across a range of indoor light levels. Additionally, to assess the plantsâ potential contribution to RH increase, the plantsâ evapo-transpiration (ET) was measured.
At typical âlowâ indoor light levels âAâ rates were generally low (< 3.9 mg hr-1). Differences between âdryâ and âwetâ plants at typical indoor light levels were negligible in terms of room-level impact. Light compensation points (i.e. light levels at which plants have positive âAâ) were in the typical indoor light range (1-50 ”mol m-2 s-1) only for two studied Spathiphyllum wallisii cultivars and Hedera helix; these plants would thus provide the best CO2 removal indoors. Additionally, increasing indoor light levels to 300 ”mol m-2 s-1 would, in most species, significantly increase their potential to assimilate CO2. Species which assimilated the most CO2 also contributed most to increasing RH
Biophilic architecture: a review of the rationale and outcomes
Contemporary cities have high stress levels, mental health issues, high crime levels and ill health, while the built environment shows increasing problems with urban heat island effects and air and water pollution. Emerging from these concerns is a new set of design principles and practices where nature needs to play a bigger part called âbiophilic architectureâ. This design approach asserts that humans have an innate connection with nature that can assist to make buildings and cities more effective human abodes. This paper examines the evidence for this innate human psychological and physiological link to nature and then assesses the emerging research supporting the multiple social, environmental and economic benefits of biophilic architecture
Health and Safety Strategies of Urban Taxi Drivers
This study describes health and safety concerns and self-care strategies of San Francisco taxi drivers. Focus groups and a written cross-sectional survey were done in a convenience sample of taxi drivers working in San Francisco. Sessions were audiotaped, transcribed in English, and independently coded to identify major health and safety themes, using thematic content analysis. Strategies to manage health and safety issues are the focus of this analysis. Five focus groups were held in 2009 with 36 participants. Major health and safety themes included stress, body pain, danger, vulnerable employment status, and concerns related to unhealthy working conditions. Self-care strategies included diffusion/decompression to manage stress, maintaining a positive attitude, maintaining power and control, and practicing proactive self-care. Creative self-care strategies were described by taxi drivers to keep healthy and safe at work. These data will inform future self-care interventions to reduce health and safety risks of taxi driving
Linking space and nature syntaxes : the influence of a natural view through observed behaviour at Arcosanti, Arizona, USA
The worldâs urban population is rapidly growing, now exceeding its rural population, and is expected to reach 70% of the worldâs total by 2050. Research in environmental psychology increasingly supports the Biophilia Hypothesis which holds that our connection with Nature is innate. Thus, how do we maintain a human connection to Nature in an increasingly urbanising world? The research explores the boundary between built and natural environments, specifically how proximity, initially through visual connections, to Nature affects how people use social spaces. Case study work is being undertaken at Arcosanti urban laboratory in the Arizona desert. Through development of a Space/Nature Syntax methodology applied within a uniquely compact urban form, this research attempts to understand how maintaining an instinctive bond with Nature can enhance social interactions and inform future design choices within built environments. Initial results support relationships of varying strengths between spatial connectivity, visibility of Nature, and types of social interactions. This paper explores the potential of the cross-disciplinary Space/Nature Syntax methodology as a design and analysis tool, projecting where social interactions within a built space could be influenced by visibility of Nature; where informed design can allow for the essential human/Nature connection to thrive