91亚色

Skip to main content Skip to local navigation

Blending art and science, bioart project infuses poetry into plant鈥檚 genome

A compelling bioart project leverages climate geoengineering in an unlikely way: It introduces poetry into a plant鈥檚 biology through dew and in the process makes a profound statement about climate change, biodiversity and the interconnectedness of humans and the environment.

Humans often introduce toxic elements into the environment; researchers then try to mitigate the damage. A refreshing and highly original project from the School of the Arts, Media, Performance & Design (AMPD) introduces a new paradigm altogether by offering something prolific or life affirming.

Joel Ong

Terra Et Venti,听by AMPD professor and interim director of Sensorium Joel Ong, infuses plant microbial DNA (deoxyribonucleic acid, the molecule that contains the genetic code of organisms) with poetry and thereby engenders this literary art form into the plant鈥檚 genome. Curiously, this venture is borne of the fusion of two seemingly disparate fields: science and art or, more specifically, plant biology and poetry.

Ong is a media artist and serial collaborator whose work connects scientific and artistic approaches to the environment. He sits down with听叠谤补颈苍蝉迟辞谤尘听to discuss the evolution of his bioart and听Terra Et Venti.

蚕:听How did you first become interested in bioart?

A:听I was a budding ecologist. A lot of my notable memories were outdoors and sensorially oriented 鈥 visual, tactile or sound-based. These set the framework for a more creative way of thinking about the sciences.

Bioart is typically hard to define but it鈥檚 a creative strategy for making living art, and a speculative practice that presents views of a biotechnological future that may be considered controversial, chipping away at the essence of what we know or recognize as life. Bioart creates an aesthetic language for us.

Q: One of the tenets of bioart is that the environment is active.

A:听Through my graduate work in nanotechology and sound, it became apparent how active the environment is. I was inspired by early visions of the atmosphere as an infinite and everlasting repository of our actions and utterances. This is something computing pioneer Charles Babbage (1791-1871) spoke of.

I wondered about encoding information into the wind or listening to what is airborne. Following some experiments in sonification and poetic impressions of the wind, I began focusing on the genetic materials of airborne particles.

Q: Tell us about your first work that looked at ecological cycles in this way.

A:听We flew weather balloons holding petri dishes and aerial monitoring equipment to observe bacteria in the air. We found highly mobile bacteria Pseudomonas syringae (P.syringae) that are best known as plant pathogens, but they also ride the water cycle to transition between soil, plants and air.

We learned that听P.syringae听also catalyzes ice formation. And so, it is implicated in the next frontier of climate change action as one particle that could be used in solar geoengineering.

Setting up weather balloons for observation of aerial microbes. From left Kieran Maraj, Mick Lorusso, Cheng Shao and Joel Ong.

 

There are related, controversial experiments, backed by investors like Bill Gates, which aim to reflect the sun鈥檚 radiation away from the earth through increasing cloud cover in the stratosphere. Naturally, there are ethical considerations because the atmosphere has less obvious boundaries and such actions may cause profound changes in weather patterns.

Q: What is the听Terra Et Venti听辫谤辞箩别肠迟?

A:Terra Et Venti听is a research-creation project that aims to develop a multi-species empathy towards the organisms in the air. My work with听P.syringae, and the common weed听Arabidopsis Thaliana, is conducted at the Guttman Laboratory (University of Toronto).

I introduced poetry into its genome, imagining the bacteria would ride on the plant鈥檚 respiration cycles into the atmosphere and form clouds. The clouds would make rain, which would contain the bacteria. So, we would get poetry embedded in rain.

<Caption> Terra Et Venti: Sculpting a Cloud

Terra Et Venti: Sculpting a Cloud

 

Q: On a microbiological level, describe the process of creating genetic poetry.

A:听Through standard lab techniques, you can customize what strand of DNA you want, have it made and inserted into the bacteria.

In this case, a list of possible phrases was generated by a machine-learning algorithm trained on the works of Argentinian writer/poet/philosopher Jorge Luis Borges (1899-1986) who conceptualized the universe as a vast library.

I used a cipher to re-code each letter of the text into DNA bases, then these were run through a lab program to determine which DNA fragments would be least obstructive for the bacteria.

I ended up with 鈥淭erra et Venti,鈥 which means 鈥渂etween the air and wind.鈥

Q: What is the message you would like to convey?

A:听Existing avenues of research in climate geoengineering are dominated by a desire for control. This underlying philosophy concerns me. I am interested in ways to soften this approach. I鈥檓 currently working on theoretical ideas around queering the atmosphere, and how computational creativity can promote a 鈥渟trangeness鈥 in this new cultural frontier of the atmosphere. Working with microorganisms is an important backdrop to discuss how we can be better stewards of our environment.

Q: Where has听Terra Et Venti听been exhibited?

A:听It has been shown at the Kittredge Gallery in Washington鈥檚 University of Puget Sound (2018). It is currently in the exhibition 鈥淎rt鈥檚 work in the Age of Biotechnology: Shaping our Genetic Futures鈥 at the Gregg Museum of Art and Design at the North Carolina Museum of Art.听Terra Et Venti听will also be featured in 鈥淟ife Studies鈥 at OCAD University in October 2020.

To learn more about Sensorium, visit the听. For more about Ong, visit his听.

To learn more about Research & Innovation at 91亚色, follow us at听; watch our new听, which profiles current research strengths and areas of opportunity, such as Artificial Intelligence and Indigenous futurities; and see the听, a glimpse of the year鈥檚 successes.

By Megan Mueller, senior manager, Research Communications, Office of the Vice-President Research & Innovation, 91亚色,听muellerm@yorku.ca