By Emily Glory Peters
Bangkok鈥檚 khlongs: The historic canal system connecting residents across the city is also a mode of transport that sustains a vibrant floating market culture. Over time, many khlongs have been filled in or become so polluted as to inhibit their use. But what if science could be used to revive some of those khlongs and their surroundings鈥攁nd consequently improve the lives of neighbors along the waterways?
That was the challenge Professor of Chemistry and Environmental Science Katie Purvis-Roberts put to her students this fall. With funding from The Claremont College鈥檚 聽initiative, a laboratory that links knowledge with practice, environmental chemistry students from 51猎奇入口, Pitzer, and Claremont McKenna teamed up with graduate-level design students at Bangkok鈥檚 King Mongkut鈥檚 University of Technology Thonburi (KMUTT) to conceptualize methods of reviving the canal metropolis.
鈥淭his project explored some core elements of environmental science鈥攁tmosphere and water鈥攁nd how they relate to people鈥檚 lives,鈥 said Purvis-Roberts. 鈥淎s scientists, my students had to use a liberal arts mindset combining chemistry, sociology, and psychology to explore how they could impact these canal communities for the better.鈥
Naturally, COVID-19 necessitated some changes. Prior to the onset of the pandemic, Purvis-Roberts had planned to secure funding to host an in-person workshop and potentially bring some students to Thailand during summer 2021. Those plans were put on hold鈥攂ut the collaborative soul of the project persisted despite ensuing shutdowns.
鈥淢y colleague Kanjanee Budthimedhee, the Chair of the Graduate program in Design and Planning at KMUTT, received funding from the Bangkok government to support those who had lost jobs due to COVID-19,鈥 explained Purvis-Roberts. 鈥淪he was able to hire people to take air and water samples in their homes and yards; they even counted how many people, boats, and bicycles went by to gauge traffic. They then shared that data with my class for analysis.鈥
Relying on data collected by non-scientists was challenging, explained 51猎奇入口 chemistry major Mairead Brownell 鈥22, but it compelled her and her colleagues to adjust their method of communicating scientific concepts in laymen鈥檚 terms. Students worked in small groups specific to certain regions of Bangkok, parsing the data to learn as much as they could about the atmosphere, water, and biodiversity of their khlong areas. And, rather than receiving a pre-conceived directive from Professor Purvis-Roberts, Brownell shared that students were encouraged to establish their own hypotheses.
鈥淲e were looking at how the khlong environment impacted people鈥檚 lives and vice versa. There was clearly so much potential for recreational and commercial use of the area that could help offer a greener public transit option and ease other environmental issues,鈥 said Brownell. 鈥淲e made some conclusions and summarized them in a way we thought would be useful to the KMUTT students, then regularly met virtually to discuss and help brainstorm ideas.鈥
Resulting design concepts included everything from waterway lights that would change color to reflect air and water quality to an interactive comic and app that local elementary children could use to explore the area and learn more about khlong culture, pollution, and preservation. Purvis-Roberts noted that additional real-time data and funding would be needed to create some of these projects鈥攂ut she鈥檚 optimistic. 鈥淭his collaboration between The Claremont Colleges and KMUTT is a perfect example of how students addressing real-life issues for communities can create something beautiful as well as functional,鈥 she said.
Of course, the project is more than a transcontinental exercise in collaboration. Purvis-Roberts remains involved with the (APEC), a global, intergovernmental agency, whose funding through the APEC Energy Working Group has helped her bring together international faculty and policymakers to make science-informed policy decisions. Purvis-Roberts hopes future environmental chemistry students can build on her fall class鈥檚 ideas and present their findings to decision-makers who can put them into action鈥攁 hope Brownell shares.
鈥淪ometimes the biggest challenge is transferring knowledge in a way that makes sense to those in a position of influence. With this project, we saw that the marriage of chemistry with design can convey these concepts more effectively than reading a paper that鈥檚 loaded with scientific jargon,鈥 she said. For her, the most powerful outcome of the collaboration was realizing how student research鈥攅ven at the undergraduate level鈥攃an pave the way for real societal change.
鈥淭his isn鈥檛 just science for science鈥檚 sake,鈥 she said. 鈥淲e鈥檙e making an impact.鈥