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GG-loop brings biophilic regenerative architecture to large-scale urban developments. The need for healthy homes has hardly ever been more apparent than during the current global condition. The current efforts to reduce the negative impacts of buildings are inadequate. Therefore the built environment must be designed in a different way. To bring regenerative collective habitation to all scales of development, Amsterdam architecture practice GG-loop, sharing the vision with Arup, is developing Mitosis: a modular building system created by a parametric design tool following biophilic and user-centric design principles.
GG-loop's goal is to develop an architectural solution that "gives back" to the Planet and can serve as a benchmark for the real estate and urban development sector. Mitosis’ vision is to deepen the understanding of its relationship with Nature, to raise awareness and sensitize both professionals and the general public regarding the importance of biophilic architecture as an answer to the current climate condition.
Sharing the same vision as Arup, GG-loop works to inspire and provide healthy sustainable living communities and net-positive impacts on ecology and society. By working with the natural environments rather than against it, the natural balance and health of the planet can be restored.
Mitosis is the follow-up of a multi-awarded pilot project completed by GG-loop in 2019: Freebooter, a pair of prefabricated CLT (Cross Laminated Timber) apartments in Amsterdam, wrapped in a parametric timber louvered facade. The building was created using biophilic principles, connecting architecture with nature in order to improve the life quality of the people who use the building. GG-loop’s ambition to bring these qualities to multiple scales has resulted in Mitosis.
The name Mitosis refers to the biological process of a single cell dividing itself into two identical daughter cells. It represents the modularity and the long-term adaptation of the system and serves as a metaphor for a flexible co-living organism where each residential unit coexists in symbiosis with all the others and its environment.
Bringing biophilic design to large-scale developments
The "Biophilia Hypothesis" by Edward O. Wilson reveals why humans have an intrinsic need to connect with nature and other living systems. Mitosis adopts the 14 principles of biophilic design and articulates the relationships between nature, human biology, and the design of the built environment. It builds an ecosystem where dwellers experience a unique way of living and fulfill their innate desire to reconnect with nature. Exposed to green shared areas, tiny forests, and gardens that cascade up and down the entire building, dwellers can benefit from the direct and indirect connection with nature. Health and well-being are fostered through careful material choices, flexible layouts, organic interiors, and large outdoor spaces.
Positive footprint ecosystems
Mitosis creates regenerative ecosystems with a positive ecological footprint. It balances the technical benefits of an environmentally conscious construction with the qualities of an organic and healthy environment in which its residents coexist harmoniously.
Mitosis generates urban clusters using prefabricated timber and bio-based modules that are cost-efficient and flexible in its construction. By consciously choosing materials that capture carbon and using resources more efficiently, Mitosis constructs a net-positive built environment that produces more energy than it consumes and uses resources in a circular way.
The enhancement of biodiversity in the urban fabric has a beneficial impact on the quality of life and the environmental education of the inhabitants. Mitosis integrates plant and animal life throughout the buildings, allowing its dwellers to coexist harmoniously with the biodiversity of local flora and fauna. Mitosis is designed to co-evolve with its surrounding, by recreating ecosystems appropriate to the climate, site, and residents. In this way, Mitosis can facilitate the conservation and improvement of the biodiversity that exists on the site.