Ecology
Wild Flag Studios researches, designs, and advises on ecological systems for urban environments, with a focus on green infrastructure and soil connectivity. Our work combines ecological research, spatial analysis, and design strategy to develop site-responsive approaches that support healthy soils, urban trees, and living systems. From early research and site assessment through design guidance and implementation support, we collaborate closely with cities, developers, and design teams to integrate ecological function into the built environment.
Research
Wild Flag Studios’ research practice investigates how mycorrhizal networks can be designed into urban environments to support plant connectivity, soil health, and ecological resilience. Focusing on the hidden infrastructures beneath cities, our work explores how soil structure, material flows, and fungal networks influence the performance of urban landscapes. Central to this research is the Soil Conduit—a proprietary design system developed to physically and biologically reconnect fragmented urban soils, enabling underground connectivity between trees and plant communities..
The soil conduit has been tested through a controlled experiment involving 53 oak saplings connected by a shared underground soil corridor. Designed to evaluate whether engineered soil connectivity can support mycorrhizal networks, the experiment monitored tree growth, health, and fungal presence across connected and non-connected groups. By analyzing root and soil samples for mycorrhizal fungi, the study examines whether the soil conduit enables fungal colonization to extend between trees, facilitating underground connectivity that mirrors natural forest systems. This experiment provides empirical evidence for the soil conduit as a viable form of green infrastructure, demonstrating how designed soil pathways can improve the ecological performance of urban trees.
Developed through applied research and experimental testing, the soil conduit adapts and expands existing root-path strategies to meet the specific needs of soil fungi. By keeping the conduit open to air, layered with biologically active soil and organic material, and protected by a permeable surface grate, the system promotes aerobic activity within the rhizosphere while remaining compatible with pedestrian urban space. This research also integrates planting strategies based on mycorrhizal compatibility, allowing common fungal networks to form within green patches and travel between them. Together, the soil conduit and its associated planting framework propose a new model for reconnecting fragmented urban soils—treating fungal networks as critical infrastructure beneath the city.
Wild Flag Studios’ soil conduit research explores how belowground fungal communities—particularly mycorrhizal networks—can be intentionally designed into urban environments as a form of green infrastructure. Urban soils are typically compacted and fragmented, limiting the ability of roots and fungi to connect and function as living systems. The soil conduit addresses this condition by creating continuous underground corridors that physically and biologically link trees and plant communities, enabling mycorrhizal networks to extend across the urban landscape and support long-term tree health, resilience, and ecological connectivity.