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DESIGNPRINCIPLES& P R A C T I C E S
JOURNAL
A N I N T E R N A T I O N A L
www.Design-Journal.com
Volume 4, Number 3
Environmental Design and Architectural Expression:Towards an Inclusive Approach to Architectural
Form Generation
Michael McGlynn
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neutral building approaches. The importance of these approaches in regard to mitigating
climate change severity cannot be overestimated. In the United States alone, the built envir-
onment accounts for 48% of total greenhouse gas emissions and three-fourths of the building
stock will be either new or renovated by 2035 (Mazria 2008). A substantial reduction in the
overall production of greenhouse gas emissions could be achieved, then, if we were to reach
the point where standard building practice produced carbon neutral buildings. In purely en-
vironmental terms, this utilitarian approach focused on building energy conservation coupled
with remaining building energy demand derived from renewable energy sources appears to
hold great promise.
Yet, for architectural theorist Susannah Hagan and others, this is clearly insufcient to
achieving a transformative sustainable architecture, one eventually capable of supplanting
the consumer-driven status quo. In her book entitled Taking Shape: A New Contract between
Architecture and Nature, Hagan states, After all, the environment is more than just the
biosphere, into which we must now t or die. It is also the built environment, a cultural as
well as a physical entity (Hagan 2001). Echoing this sentiment, artist and architecturaltheorist James Wines states architecture is certainly the most visible and pervasive evidence
of human intervention in the environment, and, accordingly can function as a visible
demonstration of conservationist ideals (Wines 1993). It is quite clear that in order for
sustainable architecture, which tends to be ethically driven and utilitarian in approach, to be
embraced by the larger architectural community, it must ultimately engage in the self-con-
scious exploration of climatically inected architectures formal possibilities.
Ultimately, criteria of some sort become necessary to facilitate the development and as-
sessment of sustainable architecture, however narrowly or broadly dened it may be. A
number of quantitative methodologies now exist to assess the effectiveness of approaches
in improving building performance, the BRE Environmental Assessment Method (BREEAM)
and the USGBC Leadership in Energy and Environmental Design Rating System (LEED)
being two of the more notable examples. These quantitative methodologies are useful to a
point, but provide an incomplete picture of a sustainable architecture, given that building
performance is but one aspect. Truly sustainable architectures demand mixed mode, qualit-
ative as well as quantitative, criteria for both generation and assessment.
In recent years, criteria have begun to emerge that attempt to take into consideration a
broader spectrum of concerns regarding the relationship between the built environment and
nature (Hagan 2001, Hawkes, McDonald & Steemers 2002, Williamson, Radford & Bennetts
2003, Buchanan 2005). In Taking Shape (Hagan 2001), Hagan proposes three such criteria,
symbiosis, differentiation, and visibility, as ...different kinds of architectural engage-
ment with an environmental agenda, from operation alone through to the representation ofthe signicance of that operation (Hagan 2001). The value of Hagans criteria lies in their
potential to overcome the limitations of low energy building approaches and bridge the divide
between performance-based environmental design and form-based architectural expression.
In order to determine the usefulness and limitations of Hagans criteria and situate low energy
building within the broader context of sustainable architecture, I apply Hagans criteria to
Pugh+Scarpa Architects Colorado Court (Santa Monica, CA, USA), an exemplar of low
energy building. Lastly, I speculate on an inclusive framework for architectural form gener-
ation in an effort to address the limitations uncovered regarding Hagans criteria.
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Levels of Engagement
Realizing that the discourse surrounding environmental architecture was too narrowly tech-
nical, Susannah Hagan undertook to expand the conversation in her bookTaking Shape: A
New Contract between Architecture and Nature (Hagan 2001). Her overarching intentionwas to situate environmental architecture (her preferred term for sustainable architecture)
within the historical and theoretical context of architecture in general. In part three, Hagan
explicitly lays out the previously mentioned criteria of symbiosis, differentiation, and
visibility, asserting that ...the three suggested criteria are intended to test the degree to
which the environmental agenda is actually incorporated into the work of architects claiming
environmental sustainability (Hagan 2001). So, in general, what does each criterion mean
and how do these three criteria relate to one another?
The term symbiosis is intended to describe a building in dynamic cooperation with the
natural environment (Hagan 2001). Building form and orientation are in tune with natural
rhythms. The emphasis here is on ...operation modeled as closely as possible on metabolic
processes (Hagan 2001). At this level, architectural form is largely an outgrowth of efcient
technological means and methods. Acting as the bridge between symbiosis and visibility,
differentiation begins to engage in what Hagan terms reexivity, in other words, self-
conscious architectural expression (Hagan 2001). This is where the distinction lies between
symbiosis and differentiation, if one exists at all. In the latter case, the resultant architec-
tural form is, to varying degrees, an intentional manifestation of a given climate and culture.
By intentional, I mean that low and high technologies, both passive and active, are employed
as much for what they represent as for their usefulness. Lastly, visibility, although tethered
to environmental concerns, reconceives architectural expression in light of complexity science.
Hagan (2001) argues that environmental designs conception of nature as linear and ordered
is dated, which leads to a deterministic approach to architectural form generation. At thelevel of visibility, the conceptual, rather than the operational, aspects of architectural form
become the dominant concern, the realization of a reexive environmental agenda (Hagan
2001).
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Figure 1: Susannah Hagans Levels of Engagement with the Environmental Agenda, Illus-
tration Credit: Michael McGlynn and Diana Trushell
These levels of engagement with the environmental agenda (Hagan 2001) can be situated
within an expanding framework (Figure 1). The levels progress from an unreexive oper-ational approach at the level of symbiosis, through increasing degrees of reexivity with
resultant impacts upon architectural form at the level of differentiation, arriving at a highly
reexive conceptual approach to architectural form at the level of visibility. In addition
to operation and form, varying attitudes toward place and technology are expressed across
the spectrum.
Form + Operation
Prior to applying Hagans criteria to Colorado Court, I would like to touch upon the origin
of Hagans criteria and situate these criteria within a broader architectural context. As previ-
ously mentioned, Hagans intention in proposing these three criteria is to confront the dividebetween environmental design and architectural expression. In an earlier article written for
the Journal of Architecture entitled The Good, the Bad, and the Juggled: the New Ethics
of Building Materials (Hagan 1998), Hagan establishes the dialectical structure (Figure 2)
that becomes the basis for her argument in Taking Shape (2001).
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Figure 2: Approaches to Environmental Architecture, Illustration Credit: Michael McGlynn
The dialectic describes two different architectures that both lay claim to sustainability. Therst she terms anti-modern environmentalism, which tends toward craft-based approaches
steeped in vernacular tradition. This approach is akin to the environmental design approach
discussed at length in Taking Shape (2001). Architectures within this school would likely
achieve symbiosis and, possibly, differentiation depending upon their degree of self-
conscious climatic and cultural adaptation. The second I have termed ecological high tech,
borrowing the term that she uses in Taking Shape (2001), which tends toward approaches
that make use of innovative materials and technologies. Here, architects are surely engaging
in climatic and cultural differentiation, while simultaneously pursuing a self-conscious
architectural expression. Ultimately, Hagans argument is that these two schools should be
synthesized into an inclusive approach to both form and operation (Hagan 1998). It is thisinclusive, or later what she terms hybrid (Hagan 2001), approach that becomes her
preferred strategy for achieving sustainable architecture.
The following diagram (Figure 3) situates both Hagans criteria and her preferred hybrid
approach in a broader context. Form, from low to high reexivity, is plotted along the
vertical axis while operation, from low to high performance, is plotted along the horizontal
axis. Hagans criteria are plotted vertically at the high performance end of the operation axis.
Of course, a focus on high performance remains constant across all levels or environmental
sustainability is not achieved. Various architectures can be plotted in three of the four
quadrants with the fourth quadrant containing buildings, but no architectures.
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Figure 3: Form/Operation Quadrant Diagram, Illustration Credit: Michael McGlynn, Image
Credits (Clockwise from Upper Left): Eisenman Architects, Renzo Piano Building Workshop,
Bruno Amaral Pereira / www.noplug.org, used with Permission
An architecture of high performance and low reexivity is best exemplied by vernacular
architecture such as the traditional stilt house of Laos, Cambodia. Although by no means
absent cultural reference, the architectural form is necessarily a response to environmental
forces. Taken to the extreme, this approach would lead to an operational determinism. Onthe other end of the spectrum, Eisenman Architects City of Culture of Galicia in Santiago
de Compostela, Spain, represents an architecture of high reexivity and low performance.
With form largely inspired by the cultural (pilgrimage routes) and geophysical (topography),
formal manipulation takes precedence over environmental performance. Again, the extreme
position would result in a formal determinism. The nal quadrant, high performance and
high reexivity, is the hybrid approach favored by Hagan. The Jean-Marie Tjibaou Cultural
Centre in Noumea, New Caledonia, by Renzo Piano Building Workshop embodies this fusion,
for instance, with cases formally and materially inspired by the traditional Kanak hut that
also employ sophisticated, modern technology to act as environmental lters.
Colorado Court, Santa Monica, CA, USA, Pugh+Scarpa Architects
Located at the intersection of Colorado Ave and 5th Street in Santa Monica, CA, USA,
Colorado Court is one of the most energy efcient multifamily housing projects in the
country. The project, designed by Pugh+Scarpa Architects from 1999-2002 for the Community
Corporation of Santa Monica, provides 44 units of low-income housing in 5 stories intended
to replace 40 units demolished in 1987 to make way for an expansion of the Santa Monica
bus yard. After consultation with the Community Corporation of Santa Monica and the City
of Santa Monica, Pugh+Scarpa abandoned an earlier design in favor of developing a sustain-
able design demonstration project. A 2003 Rudy Bruner Award for Urban Excellence silver
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medal winner, the following quote from the award publication provides a summary of the
architects intentions,
[Pugh+Scarpa], for their part, had long been interested both in affordable housing and
in sustainable building systems and saw Colorado Courtas an opportunity to push thegreen agenda, as well as to showcase the effective combination of green energy systems
with affordable housing and good architectural design. (Farbstein et al. 2003)
Rather than an exhaustive analysis of all aspects of the building, the following case of Col-
orado Courtis explored only insofar as it illuminates Hagans criteria and the place of low
energy building within the broad spectrum of sustainable architecture. Therefore, the focus
is placed squarely on the interplay between formal and operational inuences. Moving
through each level in turn, I begin by highlighting the particular qualities each of these cri-
teria possess that might prove useful in assessing sustainable architecture followed by the
application of the criteria to the specic case.
Symbiosis
Grounded in environmental performance, symbiosis is foundational to environmental ar-
chitecture. Hagan declares that it is ...the only necessary requirement for environmentally
sustainable architecture... (Hagan 2001). While the degree varies to which operation
manifests itself in architectural form, a focus on high performance building remains constant
across all levels or environmental sustainability is not achieved (Hagan 2001). When focused
primarily and unreexively on building performance, technology is viewed as instrumental,
resulting in what Hagan terms existing-architectures-made-more-environmentally-sustain-
able with the end result being ...this increasing quantication of environmental sustainab-ility... (Hagan 2001). The approach is one in which increasingly complex technology is
used to mitigate environmental circumstance allowing for climatically and culturally undif-
ferentiated form applicable to a global context. Low energy, net zero energy, and carbon
neutral building approaches, when focused exclusively or even primarily on energy issues,
are situated at this rather limited level of environmental architecture.
A net zero energy building can be generally dened as ...a building with greatly reduced
energy needs through efciency gains such that the balance of the energy needs can be
supplied by renewable technologies (Torcellini, Pless, Deru, & Crawley 2006). A low energy
building can be dened similarly, the key difference between the two being that low energy
buildings strive to meet remaining building energy demand with renewable energy sources
while net zero energy buildings actually achieve the goal. In turn, a carbon neutral building
produces at least as much emissions-free renewable energy as it uses from emissions-pro-
ducing energy sources (Torcellini et al. 2006).
Colorado Court can be considered a low energy building in that it introduces a number
of energy efciency measures to reduce loads and meets 30 percent of the buildings power
demand with renewable energy supplied by a photovoltaic array. The remaining 70 percent
is met by a rooftop natural gas red microturbine. According to Torcellini et al., Colorado
Courtdoes not qualify as a net zero energy building given that the microturbine transform[s]
purchased fossil fuels into heat and electricity rather than generates energy (Torcellini et
al. 2006). The building cannot be considered carbon neutral, either, given that renewable
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energy production does not entirely offset the fossil fuel produced electricity. However, at
a fundamental level, the degree to which Colorado Courtmeets the criterion of symbiosis
is the degree to which active and passive building technologies are implemented to improve
environmental performance, regardless of whether it meets the denitions of net zero energy
or carbon neutral building.
In terms of active systems, the aforementioned photovoltaic array and microturbine were
designed to work in concert to substantially improve energy efciency. The microturbine is
a co-generation system that converts natural gas into electricity to meet the majority of the
buildings power demands, while using the excess heat to produce hot water for domestic
use and space heating. This distributed power and heat generation system has a conversion
efciency of over 70 percent as compared to the less than 30 percent conversion efciency
of electricity drawn from the grid (Bullivant 2003). The photovoltaic array, composed of
199 panels, partially offsets the load placed on the microturbine. Through a hard-fought net
metering agreement with Southern California Edison, electricity is either used immediately
to meet the buildings power demand or sent to the grid for a credit. In concept, this couldresult in zero electricity charges (Farbstein et al. 2003).
One example of both the increasing quantication of symbiosis that Hagan (2001) wrote
about and an indication of the success of Colorado Courtat achieving it is the measure of
overall energy efciency dened in the USGBC LEED Rating System. Colorado Courtre-
ceived a LEED v2.1 Gold rating, scoring 10 points in the Energy & Atmosphere category
for a 60% reduction in design energy cost compared to the energy cost budget for energy
systems regulated by ASHRAE/IESNA Standard 90.1-1999 (USGBC 2008). Of course,
the implementation of passive strategies for load reduction was key to achieving such a
signicant reduction.
Pugh+Scarpa focused on measures to control solar gain and maximize daylighting and
natural ventilation. The majority of the windows are located on the southeast and northwest
elevations, with exterior egress balconies extensively shading the southeast-facing windows.
The natural ventilation strategy is shown in Figures 4 and 5. Shallow unit plans with openings
to the exterior at either end facilitate airow.
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Figure 4: Unit Plan and Section Diagram Illustrating Shading and Natural Ventilation Strategy,
Illustration Credit: Pugh+Scarpa Architects, used with Permission
Figure 5: Plan Diagram Illustrating Shading and Natural Ventilation Strategy, Illustration
Credit: Pugh+Scarpa Architects, used with Permission
If Pugh+Scarpa were simply engaging in some kind of environmental functionalism, pur-
suing an operational goal in the most functionally efcient way possible (Hagan 2001),
then they could have stopped at this point content that they had greened the troublesome
multifamily housing building type. Upon further examination, though, this is obviously not
the case. Pugh+Scarpa are clearly engaging in cultural as well as climatic differentiation.
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Differentiation
Arguably, differentiation begins to occur the moment that a given culture and/or particular
climate are consciously considered in the generation of architectural form. Of the three main
strategies mentioned by Hagan for relating a building to its environment (one being the previously mentioned ecological high tech), ...passive environmental design... and
...opting for a hybrid both/and strategy which uses both passive and active systems... are
the two most closely associated with differentiation (Hagan 2001). Hagan states, ...a
whole range of differentiations can emerge even within industrialized architecture, if it makes
itself open to pre-industrial techniques, as hybrid environmental architecture does (Hagan
2001). Hagan goes on to describe a type of technological appropriation in which revived
vernacular techniques have the potential for multiple meanings depending upon the context:
When applied in the culture where they were developed, these vernacular techniques
will provide a degree of formal inection towards that culture. When applied elsewhere,
their cultural baggage will be left behind, to accumulate new, more general associations
around the environmental. (Hagan 2001)
Local materials are also essential to visible differentiation in that ...they place the
building in the history of the site... in addition to reducing the amount of embodied energy
inherent to the structure (Hagan 2001).
Engaging in what Lawrence Scarpa terms global regionalism (Zeiger 2002),
Pugh+Scarpas architecture is in dialogue with the tradition of California Modernism while
employing technologies that are not of any particular place. Inuenced by the work of
Rudolph Schindler and Richard Neutra, the rms work is materially and formally inventive,
composed of interlocking volumes and shifting planes that often disengage from the massof the building. This approach leads to a high degree of permeability between indoor and
outdoor spaces, an appropriate strategy considering the benign Southern California climate.
Given the typically tight budget of a low-income housing project and the inevitable cost-
shifting necessary to procure alternative technologies, Pugh+Scarpa were more constrained
materially and spatially than on previous high-end single family residences. However, this
did not preclude them from engaging in formal manipulation for visual and spatial effect,
in addition to climatic adaptation.
For instance, the plan is subdivided into three bars of varying dimension woven together
by an exterior egress balcony (Figure 5). This serves to break up what could have otherwise
been an undifferentiated block, dening a southwest-facing communal courtyard on the
second oor while orienting the building to capture the prevailing winds. This is not themost functionally efcient layout, considering the single-loaded exterior egress balconies,
but that was not the point. Instead, climatic differentiation was achieved through an integ-
rated process that considered both architectural form and environmental performance.
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Figure 6: Northwest Elevation with Interlocking Volumes and Windows Placed for Visual
Effect, Image Credit: Michael McGlynn
The compositional devices employed on the exterior elevations, clearly not derived from
functional considerations, further strengthen the buildings regional connection to the Cali-
fornia Modernism of the 1920s. Each bar appears to be composed of interlocking volumes
with a variety of window types placed primarily for visual effect (Figure 6). This serves to
avoid the monotony that would have occurred had the exterior elevations simply been an
outgrowth of an endlessly repeated unit plan tuned to optimize daylighting and natural
ventilation. Varying window type and placement for exterior effect has the added benet of
lending variety to the unit interiors, as well.
Figure 7: Photovoltaic Panels used as Planar, Interlocking Faade Elements, Image Credit:
Michael McGlynn
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Figure 8: View of Northwest and Southwest Elevations showing Photovoltaic Arrays used
as Screens for Exterior Exit Stairways, Image Credit: Michael McGlynn
The most visible elements of the entire project and emblematic of a global environmentalagenda are the photovoltaic arrays. Hung vertically and, in one instance, wrapping over the
top of the building, the photovoltaic arrays are the only elements to disengage from the
building mass and are either used as planar, interlocking faade elements or as screens for
the exterior exit stairways (Figures 7 and 8). Pugh+Scarpa exploit the material quality of the
photovoltaic arrays, using it as much for its translucency as for its technological capacity.
In fact, the vertical arrays are 10 percent less efcient than the horizontal array on the roof
(Farbstein et al. 2003). Again, optimization of performance was not the overriding concern,
but rather a visible differentiation that speaks to both a regional and global culture.
VisibilityThe nal criterion, visibility, marks the point at which environmental architecture ...has
crossed a threshold beyond which form is deliberately manipulated to re-present, as well as
present, environmental sustainability (Hagan 2001). Currently, visibility resides squarely
in the realm of theory, as there are few, if any, built examples of Hagans proposition. Given
this, its potential lies primarily in generating future environmental architectures rather than
analyzing existing ones. Of the examples cited by Hagan, the provocative work of SITE
comes closest to embodying all aspects of this level of environmental architecture. James
Wines of SITE states:
The key to a truly sustainable art of architecture for the new millennium will dependon the creation of bridges that unite conservation technology with an Earth-centric
philosophy and the capacity of designers to transform these integrated forces into a new
visual language. (Wines 2000)
Environmental architecture at the level of visibility holds the potential to ...produce a
new material relation between architecture and site... (Hagan 2001).
Although formally interesting, Colorado Courtdoes not engage in the radical re-concep-
tualization of architecture in relation to the environment, la SITE. As previously stated,
Hagans level of visibility lies mainly in the theoretical. Instead, Pugh+Scarpa developed
a contextually and climatically responsive modernism, employing a strategy that Hagan
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terms inclusive, not just in the use of high and low technologies, but in all aspects of envir-
onmental design, using some local techniques and some universal ones, some locally
available natural materials [stucco] and some synthetic ones (Hagan 2001).
Conclusion
Primarily intended to foreground discussions regarding the relationship between ethically
driven environmental design and aesthetically driven architectural culture, Hagans criteria
have proven useful in broadening what is taken into consideration in regard to sustainable
architecture. Low energy, net zero energy, and carbon neutral building approaches, although
incomplete in and of themselves, are essential to environmental architecture. Without such
measures, the impacts of global climate change will not be mitigated. Yet, There is no
reason why environmental designs science-based enquiry and architectures traditional
concern with form should not co-exist... (Hagan 2001). Just such a dialogue enriches
Pugh+Scarpas Colorado Court, resulting in a climatically and culturally differentiated en-vironmental aesthetic.
Hagans criteria are not without limitations, though. Ultimately, I nd symbiosis to be
problematic. An architecture in alignment with Hagans initial, and quite compelling,
denition of a building in dynamic cooperation with the natural environment (Hagan 2001)
would quickly lead to at least climatic differentiation, rendering the former criterion unne-
cessary. If the denition is limited, as previously described, to a formally deterministic focus
on building performance, symbiosis becomes a misnomer, as it is less a harmonious rela-
tionship with the natural environment and more a grafting of sustainable technologies to
existing architectures.
Differentiation, particularly when implemented with climatic and cultural distinctions,
is certainly the most useful criterion of the three. Primarily focused on external aesthetic and
technological issues, cultural differentiation lacks a humanistic, social dimension, though.
To the degree that Hagan considers the social, it tends to be in relation to building operations
rather than, for instance, architectures capacity to foster a sense of community. As a case
in point, while discussing the role of the user in the operation of hybrid environmental sys-
tems, Hagan notes, As important in decisions about the level of technology to use is the
ability of the buildings occupants to operate any system successfully...If the architect or the
environmental engineer does not explain the system clearly enough, the user can inadvertently
sabotage its effectiveness (Hagan 2001). Although social considerations are of secondary
importance to Hagan, they are of primary concern to Pugh+Scarpa and this social engagement
has an effect on architectural form. As such, the social is as much a part of reexive differ-entiation as any of the previously mentioned approaches. For instance, given that the units
are only 300-375 square feet, the exterior egress balconies and second oor terrace are inten-
ded to serve the dual function of climate control device and communal extension of living
space.
Lastly, in so much as the three criteria are an elaboration of Hagans form + operation
dialectic (Figures 2 and 3), what emerges is a bottom-up/top-down process. One can either
move from operationally oriented symbiosis through differentiation to formally oriented
visibility or vice versa (Figure 1). Yet, this is not an accurate reection of the iterative
design process. In any given design, certain formal or operational aspects may predominate,
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but a mature design process is cyclical in nature, leading to an integrated solution to myriad
issues drawn from a broad spectrum.
So, how might these limitations be addressed? To begin, I propose a framework that
overlaps and extends Hagans criteria (Figure 9). The framework is composed of three con-
texts, each located at the corner of a triangle. These contexts are held in reciprocal relationship
to one another as represented by the multi-directional arrows. The result of maintaining these
reciprocal relationships throughout the design process is a responsively cohesive architectural
form as noted in the center of the triangle. If one context were to dominate, it would result
in a related nave approach to architectural form as noted around the periphery of the triangle.
Figure 9: Inclusive Framework for Architectural Form Generation, Illustration Credit: Michael
McGlynn
The framework adapts environmental ethicist Warwick Foxs theory of responsive cohesion
(Fox 2000). Fox sets out three contexts, in order of priority, to which any built environment
must respond: ecological, social, and built (Fox 2000). Each is nested within the context that...generated and continues to support... it (Fox 2000), hence the order of priority. Referring
to Foxs theory, Williamson et al. state:
...the term responsive cohesion is used to describe a state in which the various elements
of a thing (design work, community, creature) or process (design, construction, etc.)
exhibit a reciprocal interaction between elements that constitute it, and the context in
which it is located. (Williamson et al. 2003)
If, as Fox (2000) asserts, responsive cohesion is the fundamental evaluative principle, then
by extension it can be used in judgments regarding architectural form. Hence, I have adopted
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his terminology as well as his general process for what I term an inclusive framework for
architectural form generation.
The ecological and built contexts mirror Hagans form + operation dialectic (Figures 2
and 3) and encompass her three criteria (Figure 1). Focusing exclusively on the ecological
context is akin to only addressing the level of symbiosis resulting in an unreexive,
operationally determined form. Similarly, an exclusive focus on the built context would
result in a formal determinism. In other words, the result would be an architectural form
absent appropriate ecological response. If these two contexts are mutually accommodated,
then the designer is engaging in Hagans preferred hybrid approach to form and operation.
The degree to which building performance is self-consciously manifested in architectural
form, then, is the degree to which differentiation and visibility are achieved. The
framework is also an extension of Hagans criteria in that it places equal emphasis in the
design process on the social context. Hagans cultural considerations, tied up as they are in
the aesthetic implications of environmental performance, are largely external. While still
encompassing these considerations, the social context also allows for architectural form tobe inuenced from within, by the way in which we inhabit the place.
Equal in importance to the extension of Hagans criteria is the revision of Hagans linear
process. Each of the three contexts is bounded, yet taken together, form an integral whole.
To myopically focus on one context is to erode and eventually destroy the integrity of the
whole. Each context is held in tension with the other two through an iterative, or cyclical,
design process. This is not about compromise. Rather, a responsively cohesive architectural
form is the inclusive result of fully considering the relationships among the ecological, social,
and built contexts. However, if for some reason circumstances disallow an inclusive solution,
then design process decisions always defer to the generative and supportive context as pre-
viously mentioned. By overlapping and extending Hagans criteria and tying approach to
process, this inclusive framework overcomes both the limitations of Hagans criteria and
those posed by any single, nave approach.
References
Buchanan, P. 2005, Ten shades of green: architecture and the natural world, Architectural League of
New York: Distributed by W.W. Norton, New York, NY.
Bullivant, L. 2003, [Home front: new developments in housing] - introduction,Architectural design,
vol. 73, no. 4, pp. 5-10.
Farbstein, J., Axelrod, E., Shibley, R. & Wener, R. 2003, Creative community building: 2003 rudy
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About the Author
Michael McGlynnMichael McGlynn, RA, LEED AP, is an assistant professor of architecture at Kansas State
University in Manhattan, KS.
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DESIGN PRINCIPLES AND PRACTICES: AN INTERNATIONAL JOURNAL
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EDITORS
Bill Cope, University of Illinois, Urbana-Champaign, USA.Mary Kalantzis, University of Illinois, Urbana-Champaign, USA.
EDITORIALADVISORYBOARDGenevieve Bell Intel Corporation, Santa Clara, USA.Michael Biggs University of Hertfordshire, Hertfordshire, UK.Thomas Binder Royal Danish Academy of Fine Arts, Copenhagen, Denmark.Jeanette Blomberg IBM Almaden Research Center, San Jose, USA.Eva Brandt Danmark Designskole, Copenhagen, Denmark.Peter Burrows RMIT University, Melbourne, Australia.Monika Bscher Lancaster University, Lancaster, UK.Bill Cope University of Illinois, Urbana-Champaign, USAPatrick Dillon Exeter University, Exeter, UK.Kees Dorst TUe, The Netherlands; UTS, Australia.Michael Gibson, University of North Texas, Denton, USA.Judith Gregory IIT Institute of Design, Chicago, USA; University of Oslo, Oslo, Norway.Clive Holtham City of London University, London, UK.
Hiroshi Ishii MIT Media Lab, Cambridge, USA.Gianni Jacucci University of Trento, Trento, Italy.Mary Kalantzis University of Illinois, Urbana-Champaign, USA.Klaus Krippendorff University of Pennsylvania, Philadelphia, USA.Terence Love Curtin University, Perth, Australia.Bill Lucas, MAYA Fellow, MAYA Design, Inc., Pittsburgh, USA.Ezio Manzini Politecnico of Milano, Milan, Italy.Mario Minichiello, Birmingham Institute of Art and Design, Birmingham, UK.Julian Orr Work Practice & Technology Associates, Pescadero, USA.Mahendra Patel Leaf Design, Mumbai, India.Toni Robertson University of Technology Sydney, Sydney, Australia.Terry Rosenberg Goldsmiths, University of London, London, UK.
Keith Russell University of Newcastle, Callaghan, Australia.Liz Sanders Make Tools, USA.Maria Cecilia Loschiavo dos Santos University of So Paulo, So Paulo, Brazil.Lucy Suchman Lancaster University, Lancaster, UK.Ina Wagner Technical University of Vienna, Vienna, Austria.
Please visit the Journal website at http://www.Design-Journal.comfor further information about the Journal or to subscribe.
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