BY PAUL J. CARADONNA AND NICKOLAS M. WASER
© Mark Dorf, Emergent #20
All of us naturally filter, break down, and reassemble information as we strive to make sense of the world around us. A biologist observing a landscape may derive from it a graphical figure that summarizes some targeted ecological property; an artist observing the same landscape may produce an image that explores qualities of form and color. Although these perspectives seem very different, they share an intersection that sheds light on how humans interpret nature and also on our role as part of nature. Mark Dorf’s ‘Emergence’ series explores this intersection, challenging our assumptions about information, communication, and perception of nature.
Images of the book ‘Emergence’ by Mark Dorf
Much of Dorf’s inspiration for ‘Emergence’ came from a residency at the Rocky Mountain Biological Laboratory (RMBL) during the summer of 2015, as part of RMBL’s Art-Science Exchange. The RMBL is a remote biological research station situated high in the mountains of western Colorado, USA. From June through August it is home to over 100 scientists from around the world who study the surrounding ecosystems. At the RMBL Dorf collaborated with scientists in forests, streams, and meadows, assisting with the setup of projects and the collection of data. He was inspired to contemplate how we scientists perceive nature and how our methods influence our understanding of it.
The Scientific Process
One of the things that Dorf investigates in ‘Emergence’ is the scientific process itself. Generally speaking, a scientist begins with an interest in a broad topic, let us say ‘ecosystem function’. But he or she quickly narrows the focus to a specific aspect of the landscape, perhaps a series of small plots of ground in which to study interactions between plants and insect pollinators. Within Emergent #22, #23, and #24, Dorf explores the transitional flow of this process through colors that fade into and out of the surrounding forest landscapes, mirroring the musings of the scientist. The colors tend to be harsh and artificial; arguably this captures harsh and artificial aspects of the transition between overall properties of an ecosystem and its dissection at fine scales—a dissection that is nonetheless necessary for scientific understanding.
© Mark Dorf, Emergent #22
In Emergent #15, #16, #17, #18, #19, and #20, Dorf asks us to reflect upon a common pitfall of the scientific process. Ideally a scientist retains and frequently revisits a larger picture of nature even as he or she focuses on a specific part, allowing ever-changing nature to constantly refresh his or her perception and assumptions. But this ideal is not always met. Here Dorf sets images of the landscape within a backdrop of colors, blurring parts of the images to draw our attention to other parts. These pieces bring to mind the danger of viewing nature through a preconceived conceptual “lens” while failing to question whether the conceptual framework is appropriate or useful. Under this ‘hyperfocal’ scenario the scientist is likely to lose the self-reinforcing and self-correcting transitional flow of the scientific process, to the detriment of final understanding.
© Mark Dorf, Emergent #16
Transformation of Information
The scientific process can be credited with our current systematic and practical understanding of natural processes in the world that surrounds us. We biologists take for granted that we are masters of this powerful process, but how often do we consider our transformation of information as we explore nature? Not only do we distill measurements of natural phenomena into graphical figures, but we also transform the measured numbers into other related numbers as part of our statistical analysis of results. In such ways the actual biological information—the organisms, experiments, and measurements—is changed into something new.
© Mark Dorf, Mesh Translation #2
Dorf collects information via photographs of the landscape and then applies his own transformation based on light contained within each photograph. In Mesh Translation #2, #3, and #4 each photographic pixel is evaluated for its underlying brightness value, and the brightest values become tall ‘peaks’ in a three-dimensional image whereas the darkest become deep ‘valleys’. The triplet of landscapes that are represented in these pieces remain mysterious to us, but the pieces retain distinctions of bright sky and dark shadow that also distinguish the originals. In fact, the distinctions are accentuated by the transformation, illustrating how transformation at its best can make comparisons that might interest us easier to see. With Emergent #10 and #11 Dorf applies a different algorithm, arranging all colored pixels in order of their underlying gray scale values. The resulting pattern is presented along with the original and proves to be an unrecognizable version of it, in spite of the simple transforming algorithm. In contrast to ‘Mesh Translation’, then, initial patterns appear to be lost, and a warning emerges about transformation at its worst instead of best. This provides a cautionary note to scientists: the transformation of information that we do almost automatically has potential both to reveal and to obscure and confuse.
© Mark Dorf, Emergent #11
Reassembly of a Fractured Landscape
At the RMBL Dorf was struck by how the scientists tended to fracture large questions into smaller pieces and then sought an understanding of the whole by some reassembly of the pieces. To explore this process he amassed images of landscape features and then reassembled these into new landscapes. The resulting Reassemblage #1, #2, and #3 again provide insight into the scientific study of nature. For example, Reassemblage #3 depicts a mountain that seems natural and idyllic. In fact, it is idyllic: its triangular shape and snow-covered ridges emulate the mountain that a child might draw. But on close examination the mountain is wrong in many ways: the geology is impossible, the patterns of snow cover are nonsensical, and the plants grow in unnatural ways—who accepts that trees grow sideways? The models that we scientists assemble share these features. Their simplicity helps us to identify important features of the natural system they represent, but they are likely to be subtly incorrect or incomplete in numerous ways. The key is to recognize the value while resisting the impulse to replace nature with our model of it in our further thoughts.
© Mark Dorf, Reassemblage #3
Science & Art
The two of us were intrigued by the response of RMBL scientists to Mark Dorf’s work. We sensed occasional skepticism and lack of connection, but most of the scientists agreed that ‘Emergence’ forced them to reflect in constructive ways on what they were doing. To us this vindicates the idea of scientists making space, in both a physical and mental sense, to interact with artists. And although we emphasize here what the scientists can learn, we are certain that the exchange is bidirectional.
* Paul CaraDonna is a botanist, ecologist, and a creative problem solver. He conducts his research at the University of Arizona (Tucson), the University of Copenhagen (Denmark), and the Rocky Mountain Biological Laboratory (Colorado). He is fascinated by nature, especially by the myriad of ways in which species interact with one another. He views art and science as two complimentary approaches to understand the world that surrounds us.
* Nick Waser counts a number of scientists in his family tree and also a number of artists. The common spirituality inherent in science and art seems clear to him, and he has long been fascinated by ways in which the two endeavors inform one another and share the same creative source. He holds a PhD degree in ecology and genetics and is Professor of Biology Emeritus at the University of California Riverside and Adjunct Professor at the University of Arizona. He splits his time between Colorado and Arizona, where he studies the pollination of flowers by bumble bees and hummingbirds—and paints watercolors of western landscapes—both plein-air.
Emergence by Mark Dorf
In the In-Between Editions, Volume I
FEATURES, PUBLICATIONS, EDITIONS
Publication: October 2015
Edition Size: 150
Dimensions: 9.5″x 8″
Number of Pages: 48 pages
Number of Images: 18 images
Info HERE