Mud Dauber Nests, Fungi Inspire Buildings Of The Future

LSU civil engineering professor lands NSF CAREER Award to explore using characteristics from mud dauber nests and the root systems of fungi to design 3D-printed soil for sustainable earthen buildings.

Around the world, more than three billion people live in earthen buildings, which are gaining popularity in Europe, Western Australia, Canada, and California because of their eco-friendly and cost-effective credentials.

Now, thanks to a nearly $630,000 National Science Foundation CAREER Award, Louisiana State University (LSU) Civil and Environmental Engineering Professor Hai “Thomas” Lin is taking earthen buildings to the next level. Lin is using characteristics from mud dauber nests and the root systems of fungi to design 3D-printed soil for sustainable, durable, and cost-effective earthen buildings.

“Mud daubers are expert soil nest builders,” Lin said. “Mud daubers carefully select the best type of soil for their nests, manage the moisture content of the soil to make it easier to work with, tap the soil repeatedly with their front legs and jaws to compact and make it stronger, and use the natural drying power of the air to harden the soil. Their nest shape is in clusters of tube-like cells, which make the nests light but strong, stable, and insulated.

earthen buildings
LSU Civil and Environmental Engineering Professor Hai “Thomas” Lin is studying mud dauber nests and the root systems of fungi to design 3D-printed soil for sustainable, durable, and cost-effective earthen buildings. (Photo: LSU College of Engineering)

“These techniques can inspire modern earthen building construction using 3D soil printing. By applying similar principles—controlling soil and moisture content, compacting the soil with vibrations, utilizing natural drying processes, and designing cellular structures—we can significantly enhance the strength, stability, and efficiency of earthen buildings,” Lin explained.

How Does 3D Soil Printing Work?

The 3D soil printing process begins by mixing soil with fungal spores and natural fibers, creating a soil-fungal mixture for optimal plasticity; printing and compacting the soil simultaneously; and allowing the fungal root structure to grow, reinforce, and waterproof the structure. Finally, the mixture dries, which further enhances the strength of the earthen walls.

“To increase efficiency, the method incorporates modular construction,” Lin said. “This means that tubular elements, inspired by mud dauber nests, are printed in a controlled environment and then assembled on-site to build the final structure. This approach not only enhances the durability and sustainability of earthen buildings but also speeds up construction and reduces waste. By combining nature’s wisdom with cutting-edge technology, this method offers a smart, eco-friendly way to construct the homes of the future.”

While the idea of earthen buildings might evoke images of primitive or uncomfortable structures, Lin is quick to add that the type of structures he’s proposing are anything but.

“Earthen buildings today can be as sophisticated and stylish as any contemporary structure, with the added advantage of natural insulation, excellent indoor air quality, remarkably small embodied energy, and a significantly reduced environmental impact,” Lin said. “Far from living in a ‘mud dauber’s nest,’ you’d be living in a modern, eco-friendly home that’s designed with sustainability, comfort, and durability in mind. Essentially a home that’s built for the future, not the past.”

Lin is currently focusing on creating homes with the technology, but who knows what the future might hold?

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3D printing, 3D-printed Soil, CAREER Award, Civil Engineering, Construction, Earthen Buildings, Facility Management, Fungi, Indoor Air Quality (IAQ), Louisiana State University, LSU, Mud Dauber Nests, National-Science-Foundation, Sustainability, Technology

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