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Contemporary Urban Affairs
2018 , Volume 2 , Number 1 , pages 55 – 65
Towards appreciating the importance of
windowscapes: Evaluation and suggestion for
improvement of New Zealand Building Code
* Dr. LEILA MIRZA^1 , Dr. HUGH BYRD^2
(^1) Building Control Department, Auckland Council, Auckland, New Zealand (^2) The University of Lincoln, Lincoln, United Kingdom E mail: Leila.mirza@hotmail.co.nz E mail: hbyrd@lincoln.ac.uk
A B S T R A C T
Rapid intensification of Auckland has made our visual awareness of the outdoor
environment (windowscapes) more confined and restricted. The recent changes of
Auckland’s windowscapes have made the shortcomings of New Zealand Building Code
more apparent. This paper aims to demonstrate the importance of windowscapes in
urban dwellers’ life and suggest some changes to current building code to provide
healthier and liveable indoor environments. First, evidence from the literature on the
impact of views on building occupants’ wellbeing will be reviewed. Then, New Zealand
Code Clause (G7 Natural light) and its Acceptable Solution will be critically analysed
to identify areas that require improvement.
Our literature review indicates that private views are more relevant for health and
wellbeing than building and planning legislation in New Zealand currently considers
them to be. Hence, this paper suggests that windowscapes should become an essential
part of future building codes and standards. This paper concludes that providing strict
requirements regarding windowscapes is essential to building a healthier indoor
environment.
CONTEMPORARY URBAN AFFAIRS (201 8 ) 2 ( 1 ), 55 - 65.
https://doi.org/10.25034/ijcua.2018. www.ijcua.com Copyright © 2017 Contemporary Urban Affairs. All rights reserved.
1. Introduction 1.1 The importance of windowscapes for urban dwellers Windows have many roles: providing views, daylight, and ventilation. With the advent of buildings with large areas of glazing, increased time spent in buildings and increased awareness of the benefits of improved working environments, the importance of windows for building occupants has shifted in favour of windowscape. The provision of permanent supplementary artificial lighting and
A R T I C L E I N F O:
Article history: Received 2 0 August 2017 Accepted 23 August 2017 Available online 24 August 2017 Keywords: Windowscapes; Building code clause and acceptable solution; Health and well-being; Visual awareness of the outdoor environment.
- Corresponding Author: Building Control Department, Auckland Council, Auckland, New Zealand E-mail address: Leila.mirza@hotmail.co.nz This work is licensed under a Creative Commons Attribution - NonCommercial - NoDerivs 4.0. "CC-BY-NC-ND"
ventilation reduced the role of the window as the only source of daylight and fresh air, while the concept of transparency in architecture introduced a new type of relationship with the landscape outside. This was coincident, and possibly the result of, changes in the lifestyle of modern urban dwellers who spend the majority of their time indoors (Shoemaker, 2002, p. 141). In agreement with this, McLain and Rogers (1981) say that despite fresh air and natural light remaining the major functions of windows, people are more interested in window as a way of contact with the outside world. The importance of having a view for urban dwellers is confirmed in most studies on windows. Wells (1965) found that 89% of surveyed office workers stressed the importance of having access to the window even when there was abundant artificial light in the interior. An analysis (Nichols, 1977) of sixty questionnaires from volunteer participants working in an urban high-rise office building revealed that respondents without window views made more non job-related trips away from their workstations – presumably looking for a view to the outside – than respondents with views. Nagy et al. (1995) found that respondents from an underground office rated the importance of having a view much higher than those from aboveground offices. Both groups considered the view as the most important function of a window, followed by fresh air and natural light. According to the literature review by Farley and Veitch (2001, p. 8) “of all the benefits and psychological functions provided by windows the provision of a view appears to be most valued by building occupants.” In Bodart and Deneyer's (2004) survey, sunlight and visual contact with the outside were found to be the two most positive functions of windows for building users. Ne’Eman (1974) interviewed 647 users in four types of buildings (houses, school, offices and hospitals) and asked them how they would choose between a window providing sunlight into their interiors but with an unpleasant view and a window providing a pleasant view but without sunshine. The result revealed most would prefer a nice view through their windows to the provision of sunshine. Cooper- Marcus (1982) argued that attractiveness of neighbourhoods mainly depended on what residents could see from their windows. These results can be explained by the theory that humans have evolved to crave visual information about their environmental surroundings (Kaplan & Kaplan, 1977; Verderber, 1986; Arenibafo, 2016).
1. Literature review on preferred windowscapes 2.1 Factors influencing preferences for windowscapes Windowscape plays a crucial role in modern life for urban dwellers as the majority of their time is spent indoors. The visual quality of urban windowscapes can, consequently, have a great influence on the quality of life. But what factors can influence windowscape preferences and what are the most and least visually preferred features of urban windowscapes? Answering these questions are important as preferences reflect how given environments support well-being (e.g. Van den Berg et al. (2003)). Research shows that two main factors influence preferences for urban windowscapes: environmental characteristics and attributes of observers. This section only summarises key environmental factors, for more comprehensive literature review refer to Mirza (2015) and Lothian (2000). Environmental characteristics can be divided further into concrete features of urban landscape (e.g. water, greenery, sky, buildings) and psychological landscape descriptors (e.g. complexity and mystery). Buildings: Since buildings are an inevitable component of urban windowscapes, two key questions for designers and developers are: how can buildings be incorporated in an urban scene to positively increase the visual quality of the views? And what characteristics of buildings are more highly valued by viewers? Kfir et al. (2002) found the presence of residential buildings in the near distance were the most influential factor in negative assessments of the view. However, if the buildings were more than 500 meters away or if the window outlook included a view of the sea, buildings had no effect on view preference. Tuaycharoen (2006) asked 20 students to assess
preferences. S. Kaplan (1987) reported that natural landscapes were preferred over urban scenes regardless of the level of complexity. Mirza (2015) found that the effect of complexity on preferences depends on the context of the views. While the complexity was a significant predictor of preferences for office windowscapes, no relationship was found for home views. The researcher explained her result by suggesting that observers in their office are more likely to be mentally fatigued due to the need of staying engaged with their everyday tasks and fighting off distractions compared to when they are at home. As a complex scene can effectively contribute to restoration, the higher preferences for complex views in offices is the result of observers’ greater need to recover from mental fatigue. Openness: Openness is a key driver of preferences (Kaplan & Kaplan, 1989). Openness of an urban view depends on the density and configurations of buildings (Hur, Nasar, & Chun, 2010), as well as the storey level where the window is located (Kfir et al., 2002). Hellinga and Hordijk, (2008) asked their respondents to choose which of six pictures they preferred most and least as a view from their offices. A wide view from a high floor was the most appreciated and a view from the ground floor to a close building was preferred the least. Ozdemir (2010) found identical offices to be experienced differently, depending on their views. Office workers with open expanded views perceived their rooms to be larger and lighter, and thus more satisfying, than those with closed views. 2.2 The benefits of preferred windowscapes Research has shown that windowscapes can have economic value depending on their content. For instance, a pleasant view can lead to a considerable increase in house price (e.g. Luttik (2000)); while an unpleasant view could be expected to lead to a decrease in the house price. Factors that increase the value of a property include (in descending order of importance) view to the sea, view to urban parks, view from high-rise apartments and view to sparsely populated regions (Damigos & Anyfantis, 2011). Full views to the ocean could increase the market price of single- family homes in Washington by almost 60% (Benson, et al. 1998). Similarly, a wide water view could increase the mean sale price of residential properties in Auckland as much as 44% (Samarasinghe & Sharp, 2008). In Singapore, an unobstructed sea view from a high-rise building could add an average of 15% to the property price (Yu, Han, & Chai, 2007). Windowscapes have different beneficial values depending on their content. R. Kaplan (1993) reported that employees with desk jobs with a window to natural features (i.e., trees, vegetation, plants and foliage) had fewer ailments, were less frustrated and more satisfied with their jobs. Window views of green vegetation or water, rather than of other buildings or a brick wall, were found to have a positive effect on attention capacity (Tennessen & Cimprich, 1995). Leather et al. (1998) added to this finding by demonstrating that natural features within a view can buffer the negative effect of job stress on intention to quit and a marginal positive effect on general well-being. The Heschong Mahone Group (2003) found a significant correlation between the content of the views and reports of fatigue, headache, difficulty concentrating and influenza. The study also found office workers with interesting views performed 10% to 25% better on tests of mental function and memory recall than those with no view. Shin (2007) documented positive self-rated health effects of viewing forests through a window on office workers in Seoul, South Korea. A cross-sectional survey on office workers in the Netherlands showed that attractive window views reduced discomfort (e.g. concentration problems and headache) (Aries, Veitch, & Newsham, 2010). A recent study by Lottrup et al. (2013) showed that a view of natural elements was related to high view satisfaction, which then contributes to high work ability and high job satisfaction. Research in this area shows that an attractive windowscape is more than an amenity and underpinning this preference is a fundamental issue of psychological well-being and physical comfort (Tuaycharoen & Tregenza, 2007). Heerwagen and Orians (1986) investigated whether employees who work in windowless offices use visual decoration to compensate for the lack of having access to a window. Those who worked in
windowless offices used more visual materials for decoration than occupants of windowed spaces. The content of the décor in windowless offices was dominated by nature themes. Bringslimark et al. (2011) reported similar results. Bringslimark et al. (2011) noted that workers in windowless offices were more likely to bring plants and pictures of nature into their workspaces than workers with windows. Radikovic, (2005) argued that an artificial window video would be an excellent replacement for a window in all single-person spaces with a limited view of nature, such as underground, underwater, outer space, or just strictly urban areas. However, a research conducted by Kahn Jr. et al. (2008) showed that a plasma window was no more restorative than a blank wall. The physiological effect of windowscape is not limited to workplaces. Patients with a view to stands of trees were found to recover faster and required less pain medication than patients facing a brick wall (Ulrich, 1984). Prison inmates whose view consisted of adjacent farmlands had lower rates of sick call than those looking out upon the prison yard (Moore, 1981). An archival study of past residents of a nursing home revealed a significant negative correlation between people view (view to parking lots, the front entrance, or a yard) and length of stay, while view of greenery had no effect on this matter (O’Connor, Davidson, & Gifford, 1991). Having natural elements in the home window views contributes substantially to residents’ satisfaction with their neighbourhood and their sense of well- being (R. Kaplan, 2001). Taylor, Kuo, and Sullivan (2002) found concentration and self-discipline of inner-city girls (but not boys) were positively affected by the naturalness of the view from their high-rise urban homes. The authors explained their results by suggesting that boys typically spent less time indoors. Residents living in greener surroundings reported to have a lower level of fear, fewer incivilities and less aggressive and violent behaviour (Kuo & Sullivan, 2001). Residents of a large metropolitan area in the U.S. rated the potential of trees for helping people feel calmer as one of the key benefits of this natural feature (Lohr et al. 2004). Having a view over gardens has been shown to have a strong contribution to neighbourhood satisfaction (R. Kaplan, 2001; Kearney, 2006); moreover, those whose homes had access to their own garden or to shared gardens had significantly better health (Macintyre et al., 2003). Surprisingly, R. Kaplan (1985) noted that urban parks and large grassy open spaces played a minor role, at best, in residents' ratings of satisfaction with various aspects of the neighbourhood; while the availability of nearby trees and well-landscaped grounds were the two most important factors. Although, from these studies, it can be concluded that viewing natural features through windows has positive psychological effects, it is still not clear which features have contributed most (Velarde, Fry, & Tveit, 2007). College students living on higher floor levels with open views found their dormitory rooms less crowded and got along better with their roommates (Schiffenbauer, 1979). Undergraduate university students who had views to a lake and trees from their dormitory windows were better able to concentrate than those students with views to city streets, buildings or a brick wall (Tennessen & Cimprich, 1995). Students who were asked to imagine themselves cognitively fatigued, rated settings with views of large natural murals with water more restorative than settings with window views of real, but mundane nature with built structures present (Felsten, 2009). There is a series of laboratory studies that adds to our understanding of the psychological value of viewing attractive scenes. For instance, experimental research by Tuaycharoen and Tregenza (2007) found less discomfort to be caused by glare from a window when the window offered an interesting view than from a window of the same mean luminance but with a view of less interest. The authors previously conducted a similar study in a laboratory condition with images of scenes, which led to similar findings (Tuaycharoen & Tregenza, 2005). Purcell et al. (2001) found nature scenes with water were rated higher in restorativeness than nature scenes without water. Karmanov and Hamel (2008) study added to this finding by showing urban environments with an outlook onto water could have the same stress-reducing and mood-enhancing power as a natural environment. This may suggest that water bodies can
the amount of natural light entering a building by using high reflectance surfaces. That is while no comments have been made on the impact of obstruction on the quality of the windowscape or how to compensate this. Moreover, G7/AS1 allows visual awareness of the outside environment through another space making this issue even more critical. Although this section only focuses on G7 but the following shortcomings in current building and planning regulations have been noted that deserves further investigations in future work: 1) The possible impact of future development on windowscapes of adjacent properties hasn’t been considered in the Building Act and the Building Code. This particularly becomes more important in mixed zoning areas, as a new office building can get constructed on the boundary and block an exterior view of an existing next-door apartment building; 2) The fact that views from a private domain are not considered important under the current Resource Management Act (2017); 3) The openness of windowscapes hasn’t been considered important in Auckland’s new planning rule book. Based on the new unitary plan, a minimum net site area for the mixed housing suburban zone is 400m2 and for the mixed housing urban zone is only 300m2. Only one-meter setbacks from the side and rear boundaries are required. These rules are changing Auckland’s windowscapes and soon a building within a short distance becomes a common feature within all residential windows.
3. Conclusions Windowscape is an aspect of health and safety that is at risk of being compromised due to insufficient regulation. Our literature review indicates that private views are more relevant for health and wellbeing than building and planning legislation in New Zealand currently considers. Hence, this paper suggests that windowscape should become an essential part of future building codes and standards. In particular, G7 needs to extend to include buildings that are occupied on a regular basis and for extended periods of time such as working environment, offices and student accommodation. Moreover, it is important that G enforces remediation where there is an obstruction in the view. This is because our literature review shows that an attractive windowscape is more than an amenity and underpinning this preference is a fundamental issue of psychological well-being and physical comfort. For instance, if a view to a building is blocked when designing a new building, the architect should try to minimize the negative influence of a blocked view using developing technologies such as green walls. The fact that the NZBC is performance-based and not prescriptive, can make profit-driven property developers lean more towards ‘liberal interpretation’. This paper believes that providing strict requirements regarding windowscapes is essential to building a healthier indoor environment. For instance, strict requirements can make designers to consider windowscapes in their initial designs rather than adding component retrospectively to compensate the lack of such amenity. References Appleton, J. (1975). Landscape Evaluation: The Theoretical Vacuum. Transactions of the Institute of British Geographers, (66), 120 – 123. https://doi.org/10.2307/ Aries, M. B. C., Veitch, J. A., & Newsham, G. R. (2010). Windows, view, and office characteristics predict physical and psychological discomfort. Journal of Environmental Psychology, 30(4), 533 – 541. https://doi.org/10.1016/j.jenvp.2009.12. Arenibafo, F. (2016). The Transformation of Aesthetics in Architecture from Traditional to Modern Architecture: A case study of the Yoruba (southwestern) region of Nigeria. Contemporary Urban Affairs (JCUA), 1(1), 35 - 44. https://doi.org/10.25034/1761.1(1)35- 44 Benson, E. D., Hansen, J. L., Schwartz, A. L., & Smersh, G. T. (1998). Pricing Residential Amenities: The Value of a View. The Journal of Real Estate Finance and Economics, 16(1), 55 – 73. https://doi.org/10.1023/A: Bodart, M., & Deneyer, A. (2004). Analyse of the survey on the office workers’ interest in windows. IEA 31 - Subtask A., working document, 2004.
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