Iconic images, symbols, and archetypes: their function in art and science


Copyright © 2018 by the author(s). Published here under license by the Resilience Alliance.
Westley, F. R., and C. Folke. 2018. Iconic images, symbols, and archetypes: their function in art and science. Ecology and Society 23
(4):31. https://doi.org/10.5751/ES-10495-230431

Insight, part of  a Special Feature on Reconciling Art and Science for Sustainability

Iconic images, symbols, and archetypes: their function in art and science
Frances R. Westley 1,2 and Carl Folke 3,4

ABSTRACT. The relationship between art and science is one of  contrasts and commonalities. We look at one commonality between
art and science: the central role of  iconic images. We argue that iconic images are the touchstone symbols in both art and science and
provide similar functions for both. We propose that these iconic images provoke an openness and a receptivity to our deepest emotional
capacities and a connection between those and the dynamics of  the broader social-ecological systems in which we operate. Such iconic
images may also act as attractors that provoke the emergence of  increasing levels of  intellectual and aesthetic self-organization, not
only at an individual level, but also in terms of  larger social, scientific, or artistic fields. Finally, through a combination of  this attraction
and this connection, iconic images may play a role in transformation.

Key Words: iconic images; reconciling art and science; symbols; transformation

INTRODUCTION
The theologian Paul Tillich once observed that the chief
curse of our time is not that we are evil, though often we
are, but that we are banal, superficial. The recovery of
depth will never come through an act of intellect, unless
that intellect is in service to wonder. We can recover depth,
however, by opening ourselves to the numinous which nods
at us and invites us. We can also use our imaginative
power to seize such moments of beckoning and the images
which rise spontaneously from them. (Hollis 2000:30) 

The idea of  reconciling art and science is an enduring one.
Without art, science becomes too rational (Kahneman 2011), too
routine (Kuhn 1962), and too detached from the broad systemic
shifts that are currently affecting our planet (Wilson 1998, Gould
2000). Without science, artistic productivity can become shallow,
purely emotive, or lacking in technique and precision. Reconciling
art and science, although not easy, can be seen to have many
advantages for scientists working on contemporary issues. Art
can act to give scientific findings much broader appeal and
resonance (Curtis et al. 2012, Vervoot et al. 2014). It has lessons
to teach scientists about how the brain works and perceives
(Österblom et al. 2015). It can stimulate intuitive, creative, and
revolutionary approaches to problems (Uzzi et al. 2013, Scheffer
et al. 2015), and connecting artists and scientists can catalyze an
increase in creative approaches in both (Root-Bernstein 2000,
Evans and Jones 2008).  

We will look at one particular arena in which art and science are
aligned: the importance and use of  iconic imagery and symbols.
We use both the terms “icon/iconic” and “symbol/symbolic” to
identify the same pictures and objects. We recognize that these
terms have different meanings. According to C. S. Peirce, an icon
is “a sign which is determined by its dynamic object by virtue of
its own internal nature … (for example) the sentiment excited by
a piece of  music as representing what the composer intended”
(Peirce 1958/1899:228). In other words, the icon, which could be
any production, e.g., a portrait, a diagram, or a photograph,
closely resembles, even imitates, its object and is capable of
generating a similar response as the real object. A symbol, on the
other hand, “is a sign which is determined by its object only in
the sense that it will be so interpreted. It thus depends either on
a convention, a habit or a natural disposition of  its interpretant”

(Peirce 1958/1899:228). Symbols, unlike icons, do not depend for
their impact on resemblance to the real object represented. It is
through the interpretation of  the viewer that the symbol, e.g.,
book, theory, person, flag, or animal, draws its power. We
interpret this distinction as important, but we will explore how
these two kinds of  signs can be conflated in both art and science.
The two are separated in part by the degree of  abstraction: icons,
as Peirce describes them, being more closely tied to the object they
represent, and symbol being sufficiently removed or abstracted
from that object to require interpretation. We will argue that
certain images, pictures, and artistic or scientific representations
initially become “iconic,” in the more popular sense of  “widely
known and acknowledged especially for distinctive excellence”
(https://www.merriam-webster.com/dictionary/iconic), precisely
because of  the way in which the image captures the “truth” or
nature of  an object, and so is closely related to that object.
However, iconic images also are associated with whole schools of
thought or practice and hence become symbols, reference points
for a continued interpretative debate. It is this process of
interpretation, we will argue, that in fact drives the development
of  fields of  thought. It is therefore this latter process, the use of
symbols, on which we will mostly focus.  

In both art and science, throughout history, some images have
retained their resonance, being considered masterpieces in art and
touchstones in science that shape the public imagination. We think
of  such iconic paintings as da Vinci’s Mona Lisa or Van Gogh’s
Starry Night. In the 20th century, photographic images such as
Eddie Adams’s General Nguyen Ngoc Loan killing Viet Cong
Suspect Nguyen during the Tet Offensive, taken in 1968; Charlie
Cole’s photo of  Tank Man, a man standing in front of  a column
of  tanks in Tiananmen Square; and Arthur Sasse’s photo of
Albert Einstein sticking out his tongue have become touchstones,
defining public opinion of  events and people. In science, the 1972
photo Blue Marble, a shot of  the earth from space, is an image
that inspired many scientists to engage with environmental issues
and sustainability; the image of  the double helix and the images
of  fractals in nature have become reference points of  whole fields
of  exploration.  

What is the significance of  such imagery? How does it function
in stimulating artistic and scientific activity? We will treat such
images as symbols and draw on the long history of  work in social

1Waterloo Institute for Social Innovation and Resilience, 2School for Environment, Enterprise and Development, University of  Waterloo,
3Stockholm Resilience Centre, Stockholm University, Sweden, 4Beijer Institute, Royal Swedish Academy of  Sciences, Sweden

https://doi.org/10.5751/ES-10495-230431
https://www.ecologyandsociety.org/viewissue.php?sf=112
mailto:fwestley@uwaterloo.ca
mailto:fwestley@uwaterloo.ca
mailto:carl.folke@beijer.kva.se
mailto:carl.folke@beijer.kva.se
https://www.merriam-webster.com/dictionary/iconic


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science and philosophy on symbols and their function. In
particular, we will draw on Jungian psychology and contemporary
thinking about complexity theory and archetypes to argue that
iconic imagery has an important but often neglected role in both
art and science.  

We propose that these iconic images provoke an openness and a
receptivity to our deepest emotional capacities and a connection
between those and the dynamics of  the broader social-ecological
systems in which we operate. Such iconic images may also act as
attractors that provoke the emergence of  increasing levels of
intellectual and aesthetic self-organization, not only at an
individual level, but also in terms of  larger social, scientific, or
artistic fields. Finally, through a combination of  this attraction
and this connection, iconic images may play a role in
transformation. These three capacities, for connection, for self-
organization, and for transformation, have never been more in
demand (Westley et al. 2011).

THE NATURE OF SYMBOLS AND THE SYMBOLS OF
NATURE
Many philosophers, linguists, and aestheticians have written
about the nature of  symbols, few more powerfully and succinctly
than the theologian Paul Tillich (1957). He identifies six aspects
that define a symbol.  

1.  Symbols express the “ultimate”; they “point beyond
themselves to something beyond the self ” (Tillich 1957:73).
Take, for example, the double helix. At the time that Crick
and Watson created the model, the only empirical evidence
of  the structure of  DNA was in the X-ray defraction images
that Rosalind Franklin had taken. The model (Fig. 1) that
Crick created was a coming together and synthesis of
Franklin’s work and others’ experimental findings regarding
DNA. It was the embodiment of  a theory, one so elegant
that it immediately took hold of  the imagination. However,
it pointed to as many questions as it did answers. Similar
examples abound in the visual arts, such as the cubist school,
whose works disassemble the surface of  objects to reveal the
kinetic energy underneath (Fig. 2). In cubism, the objects
are analyzed, broken up, and reassembled in an abstracted
form, opening up the possibility of  multiple viewpoints
embedded in a single form. 

2.  This leads to the second characteristic of  the symbol: “It
participates in that to which it points” (Tillich 1957:73).
Again, in the case of  the double helix, the model itself
became an attractor for further exploration that stimulated
an acceleration of  work on genetics. Similarly, the
Mandelbrot set (Fig. 3), with its beautiful images, made what
was a mathematical equation concrete and visual and
stimulated exploration of  the fractals that went far beyond
mathematics, influencing social and natural scientists
(Westley et al. 2006). Iconic images such as Cezanne’s
paintings of  Mont Sainte-Victoire forever changed the
perception of  the landscape. Such images became part of
the experience of  a three-dimensional form, of  a new
landscape, so that the image and the reality merge (Fig. 4).
Such images also inspired the emergence of  cubism,
pioneered by artists such as Picasso and Braque, a visual art
form that spread rapidly across the globe. 

3.  The third characteristic of  a symbol is that “it opens up
levels of  reality that otherwise are closed for us” (Tillich
1957:74). Tillich felt this was particularly a quality of  the
arts: Artists create symbols that represent a level of  human
experience that cannot be reached any other way. Through
a poem or an iconic image that has symbolic status, we access
emotional and spiritual realms, which, Tillich argued,
“cannot be approached scientifically.” We would agree with
the capacity of  the arts to reach such a dimension but argue
that the iconic images of  science, like those of  art, point to
what David Bohm (1980) would call implicate reality, which
cannot be directly observed by scientists until it has unfolded
in some form. Take, for example, Leonardo da Vinci’s iconic
Vitruvian Man (Fig. 5), a work of  both art and science that
hints at a theory of  the order underlying form that goes
beyond conventional measurement and direct observation. 

4.  The symbol’s fourth characteristic is that “it not only opens
up dimensions and elements of  reality, which otherwise
would remain unapproachable, but also unlocks dimensions
and elements of  our soul that correspond to the dimensions
and elements of  reality” (Tillich 1957:74). This connection
between inner and outer world has not been explored as
thoroughly in contemporary science as in art. Artists
throughout time have shared the belief  that, as the
Norwegian artist Edvard Munch once said, nature is not
only all that is visible to the eye, but also includes the inner
pictures of  the soul.  

Historically, in philosophy, this link was much explored.
Aristotle argued that the aim of  art is to represent not the
appearance of  things, but their inward significance. The link
between the inner motivation and outer-world challenges,
like climate change, is reflected in work on transformation,
emphasizing shifts in consciousness and awareness, in
beliefs, values, and worldviews, thereby challenging the
individual to reflect on change itself  (O’Brien and
Hochachka 2010). Research has revealed a close connection
between inward psychological well-being and exposure to
nature, such as proximity to green space, gardens, or forests.
Happiness and subjective well-being and a sense of  meaning
and purpose in life become unlocked and enhance
imagination and creativity.  

Iconic images of  nature, such as trees, have served as power
symbols in many cultures and mythologies and still do. The
symbolic nature of  trees appears and reappears in science
and art, exposing our essence to new dimensions and
elements. Charles Darwin used the concept of  the tree of
life in the context of  the theory of  evolution. Contemporary
examples include the construction of  visual trees of  life
based on genome sequences (e.g., Hug et al. 2016) and the
use of  trees as symbols in films, such as the Tree of  Souls in
James Cameron’s 2009 movie Avatar, and within art as a
symbol of  our embeddedness in the biosphere (Fig. 6). As
expressed by Pablo Picasso in the 1950s, “There are painters
who transform the sun into a yellow spot, but there are others
who with the help of  their art and their intelligence
transform a yellow spot into the sun” (http://www.
goodreads.com/author/quotes/3253.Pablo_Picasso). 

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https://www.google.ca/search?q=picasso+cubist+woman&client=firefox-b-ab&dcr=0&tbm=isch&source=iu&ictx=1&fir=yzgS1cZjrJayGM%253A%252CYknhP1onyXARIM%252C_&usg=__s7xWYkdITz2D_nuq-2rVeNQBHs8%3D&sa=X&ved=0ahUKEwjjtK6Oh4PYAhVF_oMKHWpwC04Q9QEIKzAA#imgrc=kXPKg77A
https://www.google.ca/search?client=firefox-b-ab&dcr=0&biw=1680&bih=908&tbm=isch&sa=1&ei=_gsvWsLpLsyfjwTY25VQ&q=mandelbrot+set&oq=Mandelbrot&gs_l=psy-ab.1.0.0l10.3054.6438.0.9236.11.10.0.1.1.0.188.1325.0j8.9.0....0...1c.1.64.psy-ab..1.9.1328.0..0i67k1.150
https://www.google.ca/search?q=mount+saint+victoire+cezanne&client=firefox-b-ab&dcr=0&source=lnms&tbm=isch&sa=X&ved=0ahUKEwjJk-3WiYPYAhVK64MKHXbhAeEQ_AUICigB&biw=1680&bih=908#imgrc=KnfR6QYDMTvNpM:
https://www.google.ca/search?q=vitruvian+man&client=firefox-b-ab&dcr=0&source=lnms&tbm=isch&sa=X&ved=0ahUKEwj18Zq9hoPYAhXK4IMKHYPkDjwQ_AUICigB&biw=1680&bih=908#imgrc=KDDmng1agadDUM:
https://www.stockholmresilience.org/art--science/news-archive/art-and-science/2015-09-28-patterns-of-the-biosphere.html
http://www.goodreads.com/author/quotes/3253.Pablo_Picasso
http://www.goodreads.com/author/quotes/3253.Pablo_Picasso


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5.  “Symbols cannot be produced intentionally”; this is the fifth
characteristic (Tillich 1957:74). Tillich argues that an image
becomes a symbol because it appeals to the unconscious part
of  our being. Symbols gain their power because they give
expression to the feelings that hold together a human group.
In this sense, they are like totems, representing the inner
spirit or “collective essence,” the bond that holds a social
group together (Durkheim 2001 [1912]). The most powerful
symbols, such as those associated with religions, attract
many people and over a long history. Others, such as the
Mandelbrot set and the double helix, express a quest for
deeper understanding that may appeal to a subgroup and
for a shorter period. In visual art, for example, some
paintings are iconic for certain schools of  artists, pointing
to a new understanding, a new pathway that other artists
seek to explore, such as the early impressionist paintings or
early minimalist works by artists like Malevich and
Mondrian, and others are iconic for the general public and
may endure as iconic images for decades and even centuries,
such as da Vinci’s Mona Lisa or Munch’s The Scream. Of
course, these iconic images were the intentional products of
scientists and artists. However, what Tillich means is that
only the response of  people who engage with and are
attracted to or touched by the image makes it a symbol.
Symbols cannot be consciously designed by the producer. 

6.  The sixth and last characteristic of  the symbol is a
consequence of  the fact that “symbols … are like living
beings, they grow and they die” (Tillich 1957:74). When
particular iconic images no longer produce the same
emotional response of  curiosity, attraction, or intensity, they
lose their symbolic power and become empty icons, pointing
to a moment in historical time but no longer alive. This may
be because, in science or aesthetics, thinking and feeling
about a particular subject has evolved and the once iconic
symbol no longer has the same capacity to illuminate and
intrigue. Or it may be that the context has shifted, so that
the beliefs that were once embodied by the iconic imagery
have lost their credibility. What was once evocative and
mysterious becomes a cliché. Examples include the loss of
significance of  landscape portraits with the emergence of
photography or the fading of  revolutionary symbols when
associated political movements and systems fail.

THE FUNCTION OF ICONIC IMAGES AS SYMBOLS IN
ART AND SCIENCE
In addition to these six characteristics identified for all symbols,
we argue that iconic imagery has three important roles or
functions in both art and science, ones that are particularly
relevant for the interdisciplinary work in sustainability science.
These three roles or functions are described subsequently.

Iconic images are symbols reconnecting us to deeper and broader
aspects of our human nature and the natural world

Underneath these cultural splits, the archetypal
imagination seeks, through affectively charged images,
to connect us to the flow of energy that is the heart and
hum of the cosmos. (Hollis 2000:10) 

For anyone learning to gather wild mushrooms, the process first
starts with recognizing a single edible mushroom. With time,

however, that mushroom comes to be seen in context, the context
of  specific environments, for example, dead and degrading trees.
We then see an even more detailed pattern particular to each type
of  mushroom: For example, the oyster mushroom grows on only
on dead maple trees. In turn, we recognize the mushroom in the
context of  a particular type of  forest or field and a particular type
of  dynamic (season or weather conditions). The initial mushroom
of  our search is intricately linked to these broader
interconnections and dynamics, but we only learn to see the
“bigger picture” by encountering and attending to one particular
mushroom (Conforti 2013). It is there we start to explore and
learn. The journey becomes one of  curiosity, a search for a deeper
or broader reality.  

This example points to a belief  held by many biologists, physicists,
and complexity theorists alike that beneath the visible surface of
form lies an “implicate order” (Bohm 1980). Implicate order is a
deeper reality, from which all form emerges. As Bohm describes it,  

In the enfolded [or implicate] order, space and time are
no longer the dominant factors determining the
relationships of dependence or independence of different
elements. Rather, an entirely different sort of basic
connection of elements is possible, from which our
ordinary notions of space and time, along with those of
separately existent material particles, are abstracted as
forms derived from the deeper order. These ordinary
notions in fact appear in what is called the “explicate”
or “unfolded” order, which is a special and distinguished
form contained within the general totality of all the
implicate orders. (Bohm 1980:xv) 

The single mushroom is the explicate or unfolded order of  the
broader set of  conditions that make it manifest. It points to those
underlying conditions calling us to apprehend a dynamic of
system interactions that lies behind the manifest. For Carl Gustav
Jung, the individual human psyche is like the mushroom: What
is manifest in personality, in beliefs, and in identity is the surface
manifestation of  an underlying dynamic, which at its deepest level
connects all individuals in a “collective unconscious,” the
implicate order of  the human species. Jung writes that  

In addition to our immediate consciousness, which is of
a thoroughly personal nature and which we believe to be
the only empirical psyche (even if we tack on the personal
unconscious as an appendix), there exists a second
psychic system of a collective, universal, and impersonal
nature which is identical in all individuals. This collective
unconscious does not develop individually but is inherited.
It consists of pre-existent forms, the archetypes, which
can only become conscious secondarily and which give
definite form to certain psychic contents. (Jung 1959/1969:43) 

The collective unconscious then is proposed by Jung to be the
source of  emergent order in the human psyche. Its first form is
the archetype, which Jung saw as a “typical mode of
apprehension” of  responding to and making sense of  the world
(Jung 1959/1969:43). It is typical in the sense that the pattern of
behavior of  any species is in part determined by its genetic makeup
and phylogeny. Just as our physical form is the manifestation of
phylogenetic history, so Jung argues the archetypes are a
manifestation of  the social, spiritual, and biological makeup and

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experience of  the human race (Lu 2012). The archetypes, Jung
argues, are not immediately accessible to the conscious mind:  

They evidently live and function in the deeper layers of
the unconscious, especially in that phylogenetic
substratum which I have called the collective unconscious.
This localization explains a good deal of their
strangeness: they bring into our ephemeral consciousness
an unknown psychic life belonging to a remote past. It is
the mind of our unknown ancestors, their way of thinking
and feeling, their way of experiencing life and the world,
gods and men. (Jung 1959/1969:286-287) 

It would not be too much of  a stretch to treat the archaic strata
and the implicate order as concepts that point to a similar
phenomenon: the “ground of  being” (Huxley 1946, Tillich 1951)
from which all order emerges, a concept both mystical (at the heart
of  many of  the world religions), philosophical (Plato), and
theoretical. It is in this “ground of  being” that humans are most
closely connected to the reality of  being embedded in the
biosphere, the thin layer of  life on planet Earth. It is “the very
core of  our being as well as the cause and basis of  the universe of
which we are part, we can no more get away from it than our solar
system can get away from the sun round which it resolves and
from which it receives everything which keeps it alive and moving”
(Taimni 1974:1-2).  

This brings us back to iconic images and symbols. Just as the
single biological form may be treated as the manifestation of
implicate order, so symbols, particularly those that endure, are
seen by Jungians as the visual manifestation of  archetypes,
processed through the unconscious mind of  the individual, into
the conscious mind, and then represented in visual form in the
world. Hence symbols, according to Jung, are the manifestation
of  the collective unconscious, the implicate order of  human
existence. The greater the appeal and attraction of  such symbols,
and the longer that attraction endures, the more likely it is that
they are connected to the deepest levels of  the collective
unconscious. It is this unconscious to which a symbol draws our
attention, in the same way that the mushroom draws our intention
over time to a much broader pattern, or as suggested by Hollis:  

Thus, as carriers of the same energy which animates the
cosmos, we employ the archetypal imagination as the
power of constitutive ordering which makes meaning
possible. This “transcendent function,” as Jung called it,
not only links us with ourselves, bridging the conscious
world with the unconscious through the venues of somatic
symptom, affect, vision, and dream image, but also links
us to superordinate reality through the symbolic powers.
(Hollis 2000:15) 

However, symbols, as the previous quote suggests, also bring our
attention to the way in which our collective unconscious is in turn
intertwined with the broader implicate order of  the biosphere of
which we as humans are a part and with which we have evolved.
At the deepest levels, our own psyches are part and parcel of  an
energy that infuses all life-forms and the biosphere itself. Iconic
imagery points us toward these deeper levels. Both groups, artists
and scientists, are explorers and seekers of  this “deeper” meaning.

Symbols as attractors that stimulate the emergence of new order
and understanding
In the First Nation Ojibwa tradition, myths and legends feature
archetypal creators, such as “the Trickster” (raven/spider/coyote),
who act to turn order into disorder. These stories are told in short
form to children and, like most myths, point to the unseen and
unexpressed meaning as much as to any linear narrative. They
have a puzzle- or riddle-like quality. The listener must discover
the meaning of  the story; it is not delivered or explained. Those
particularly drawn to the myths and an understanding of  those
myths can return over and over to the story, seeking to untangle
the broader or deeper connections that give a larger meaning to
the story. It becomes richer and richer and deeper and deeper.
When the individual is successful, an expanded version of  the
story is told, introducing more paradox, ambiguity, and
confusion. This is repeated over and over. When one becomes a
master storyteller, or “true storyteller,” a myth first encountered
as a child in a version told in five minutes becomes an epic told
over several days, but only to those and by those who have
penetrated the mystery at the heart of  the myth, the rich
connections that give order and meaning not just to that particular
story, but to an entire cosmology of  Ojibway culture.  

In the same way as the symbolic communications that are myths
and traditional stories, it can be argued that iconic images become
“attractors” that help to organize the emerging understanding of
individuals who seek that understanding. There has been
considerable interest in recent years in the relationship between
Jungian psychology and complexity theory (Van Eenwyk 1997,
Conforti 2013) and between human consciousness and
complexity concepts such as attractors (Friston 2017). Van
Eenwyk (1997), for example, draws a comparison between
symbols and the saddle points of  Hopf  bifurcations (Fig. 7). The
oscillations are created by a movement away from the saddle point
into chaos and back again, which Van Eenwyk terms a process
of  chaotic cascades (Fig. 8). Order and disorder are held in
dynamic tension.  

This brings us to perhaps the most important discovery
about deterministic chaos: that it can actually lead to
higher levels of order than existed prior to its onset. In
other words, chaos can generate greater complexity
within a dynamic. Higher levels of sophistication …
improve adaptive capacities. Astonishing as it may seem,
chaos seems to be essential not only for the survival of
the organism, but for its development as well. (Van
Eenwyk 1997:65) 

For Jung, this tension is key to psychic development and
individuation. We are attracted to symbols as a means of  self-
organization. Like the development of  the Ojibwa storyteller, the
scientist or artist returns to an iconic image in an effort to make
sense of  data, as a touch point for new explorations. Very enduring
symbols or iconic images, however, are as puzzling as they are
comforting. When we return to them, we see them in a new way,
allowed by our experimentation, but a mystery remains, pushing
both artists and scientists to further explorations. A succinct
example is Monet’s repeated paintings of  haystacks, both similar
and different. Photographs from the archipelago outside
Stockholm, shot from the same point over three decades, depict
an environment in continuous flux that still remains (Fig. 9).  

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In science, again, one thinks of  the double helix in genetics, the
adaptive cycle in resilience theory (Fig. 10), or the catastrophe
fold in complexity theory, which have stimulated multiple
disciplinary and interdisciplinary explorations. The adaptive
cycle, for example, has stimulated research in organizations,
leadership, innovation, disaster management, and ecosystem
management (Gunderson and Holling 1995, King 1995, Westley
et al. 2006, Walker and Westley 2011, Hurst 2012).  

In summary, an important aspect of  symbols, according to Eliade
(1971), is that they do not seem to draw us through time as much
as taking us back to a primordial experience of  implicate order
that is eternally present. Symbols draw us into a sense of  time that
is diachronic, cutting through the forward momentum of  history.
Eliade (1971) deals with this at length in his discussion of  the
“eternal return.”  

In this sense, iconic images act as symbols that orient exploration,
providing a “still point in a turning world,” as the poet T. S. Eliot
(1941:3) described it. As such, they become associated with whole
bodies of  work by individual artists and scientists and by whole
paradigms in art and science (Kuhn 1962).

Iconic images as transformers
The concept of  transformation can be defined as the action of
changing in form, shape, or appearance: metamorphosis. The
word is derived from the Latin: trans (across, to, or on the farther
side of, beyond, over) and formâre (to form). It suggests that to
transform means to first lose form or shape and then, on the other
side of  chaos, to reform into something new: a sea change of
nature, form, or function. Consistent with the Jungian notion of
the collective conscious/chaos theory, we would suggest that
transformation, whether cultural, ecological, or individual,
involves a process of  descending into confusion, chaos, or
disorder. Iconic or symbolic imagery can help facilitate
transformation by providing a means to stand “in ordered
relationship to this flux” (Hollis 2000:18). It provides not only the
still point, but also a place of  integrity to which we can return
from exploration, to begin new explorations.  

The archetypes are the numinous structural elements of
the psyche and possess a certain autonomy and specific
energy which enables them to attract, out of the conscious
mind, those contents which are best suited to themselves.
The symbols act as transformers, their function being to
convert libido from a “lower” to a “higher form.” (Jung
1973:5,308) 

So, for example, an iconic image, such as the adaptive cycle, allows
a scientist to explore more possibilities, to move further from land,
using gained experiences for new discoveries, because the iconic
image continues to offer a compass, a point of  orientation, serving
as an attractor around which to self-organize.  

One may argue that the iconic images of  observing planet Earth
and its biosphere from space serve as a compass, a point of
orientation when confronted with chaos and disorder. Clearly,
and in opposition to mind-sets and worldviews that have emerged
during the great acceleration of  the industrial era (Steffen et al.
2015), the iconic images of  the living planet, of  a deep reality,
help provide meaning and direction (Heise 2008), as a guide in
transforming beliefs and actions to operate in concert with the
resilience of  the biosphere (Folke et al. 2016). Such iconic images

are helpful in the search for sustainable pathways in turbulent
times on the human-dominated planet subject to climate change
and dynamic social-ecological challenges (Westley et al. 2011).  

However, the capacity to descend into confusion, chaos, or
disorder is one that requires a certain disposition in both scientists
and artists. Part of  this is the capacity to trust that images, deriving
from processes such as dreams and sudden associations, carry
important messages. This is an easier concept for artists to grasp;
they are used to intuition and surprise as guides and technique as
their servant. For many scientists, however, the sudden inspiration
or dream is potentially suspect, an intrusion of  unpredictability
into a process in which precision, control, and replicability are
paramount. However, in the broader exploration, which is science,
moments of  sudden and breathtaking collapse and reorganization
that forever transform the scientist’s understanding of  the
problem are far from rare. It would appear that moments that
transform are rarely arrived at by deliberate and logical reasoning.
It also appears that when those transformative insights occur, they
often come in the form of  images or pictures as opposed to words.  

But the fact that the unconscious prefers avoiding verbal
instructions pretty much altogether—even where they
would appear to be quite useful—suggests rather strongly
that it doesn’t much like language and even that it doesn’t
trust it. (McCarthy 2017) 

McCarthy recounts the many occasions when the answer to
scientific or mathematical problems comes in the form of  images,
received in dreams or dreamlike states. “Why is the unconscious
so loathe to speak to us? Why the images, metaphors, pictures?
Why the dreams, for that matter,” he asks.  

The answer does not pose a problem for the artist, who feels much
more comfortable with the direct use of  metaphor and image and
sees a kind of  truth in synthesis as opposed to analysis (Bayles
and Orland 2001). It is perhaps harder for the scientist to see in
dreams, images, and intuitive leaps a “deeper” understanding, one
that undergirds the truth arrived at by pure logic. However, often
scientists, like artists, return to and honor those iconic images that
express that deeper understanding more profoundly and more
efficiently than words or formulas.  

So we can see the transformative power of  images within the
individual psyche and work of  both artist and scientist. Once
externalized, however, does the image transform? The difference
between the dream that presents itself  as a solution to an
individual problem in the mind of  an individual scientist or artist
is that for an image to become iconic, it must stimulate the same
experience of  revelation, of  transformed sensibility in a much
larger group. It must also produce a new cascade of  action or
activity. In this respect, there is some evidence that symbols are
moving, that pictures and images are more likely to stimulate
emotion than words, and that emotion, in turn, is a key element
of  motivation and action (Mintzberg and Westley 2001,
Hochschild 2012, Cialdini 2016). The more iconic the image, the
greater its power to attract multiple interpretations, weaving a
wordless link between these. In art and in science, iconic images
become a beacon for new schools of  thought and practice, which,
like Kuhn’s paradigms, run their course through time.  

Ultimately, then, iconic imagery is a powerful bridge between art
and science and, potentially, points to what the two have in

https://www.google.ca/search?q=the+adaptive+cycle&client=firefox-b-ab&dcr=0&tbm=isch&tbo=u&source=univ&sa=X&ved=0ahUKEwiQyqPdkYPYAhVj0oMKHXr5BFwQsAQIQg&biw=1680&bih=907#imgrc=tBZFt2dVPiqp3M:
https://www.ecologyandsociety.org/vol23/iss4/art31/


Ecology and Society 23(4): 31
https://www.ecologyandsociety.org/vol23/iss4/art31/

common. In both art and science, there is a search for an
underlying truth, an implicate order. In varying degrees, both art
and science use imagery that arises from the unconscious as an
important signpost, pointing to the implicate order for which they
are searching. Artists are perhaps more comfortable with the
phase of  disorder that such a search involves and are perhaps
more suspicious of  using iconic images as guides for extensive
periods of  time.  

Artists are at home with not-knowing, we are experts at
ignorance. Art is not about answers but about questions.
The poet, John Keats, talked about this as negative
capability. Samuel Taylor Coleridge gave us the term
“willing suspension of disbelief” which undergirds
reception in most art work: novels, movies, theatre. As
spectators, we are experts at placing “knowing” on
temporary hold. That’s some of what we are cultivating.
A willingness to set aside judgments, to cultivate the
capacity to abide uncertainties, to engage imagination
not hindered by reality. (Clark and Carpenter 2014:1) 

Scientists, on the other hand, may be more suspicious of  the
intuitive leap, the image drawn from dreams, but once a
breakthrough is represented in an elegant image and widely
shared, they are more likely to allow it to act as a guide to thinking
and further development of  theory and scientific insight.  

Despite these distinctions, iconic images and the role they play in
both art and science offer a fertile starting point for dialogue and
exploration. Collaboration in the art-science interface
undoubtedly has the potential to reveal and explore the role of
symbols in unlocking dimensions and elements of  the human
spirit that correspond to the dimensions and elements of  the
biosphere. Such a focus can create space for reflection,
thoughtfulness, and meaning. It may help stimulate intuition and
create excitement for opening up unclear and unknown
dimensions and elements of  reality of  the complex intertwined
world of  the 21st century.

Responses to this article can be read online at: 
http://www.ecologyandsociety.org/issues/responses.
php/10495

Acknowledgments:

We would like to acknowledge the South American Institute for
Resilience and Sustainability and the rich discussions held there
with colleagues Angela Lieble, Diego Galifassi, Pablo Marquet,
Francisco Gazitua, and Tone Bjordam, among others, during the
2013 and 2014 workshops on reconciling art and science for
transformation.

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	Title
	Abstract
	Introduction
	The nature of symbols and the symbols of nature
	The function of iconic images as symbols in art and science
	Iconic images are symbols reconnecting us to deeper and broader aspects of our human nature and the natural world
	Symbols as attractors that stimulate the emergence of new order and understanding
	Iconic images as transformers

	Responses to this article
	Acknowledgments
	Literature cited