RUÍNA Arquitetura aims for greater socio-environmental awareness and the appreciation of materials while advocating for reuse as an alternative within the construction industry. In their practice, they explore new avenues for reclaimed materials, diminishing demolition waste and supplying construction materials with a reduced environmental footprint. In 2024, they were selected as part of ArchDaily’s 2024 Best New Practice for their unique attention to context, aiming to minimize its impact on the built environment through the effective reuse of materials and construction waste. Their participation in the 2023 Sharjah Architecture Triennale exemplifies how local ideas can achieve global recognition.
The geological period we currently inhabit is known as the Anthropocene, defined by the substantial human impact on Earth's ecosystems and geology. In contrast, the Symbiocene, a term coined by Australian philosopher and environmentalist Glenn Albrecht, presents a vision of the future characterized by a positive and symbiotic relationship between humans and the natural world. In the Symbiocene era, humans actively collaborate with nature, acknowledging their interdependence with Earth's ecosystems and striving to regenerate and restore the natural environment, thus creating a more harmonious and sustainable world.
Finding effective and valuable solutions for agricultural waste management has been an inspiring challenge for researchers. By-products from monocultures, such as residues from soybean production, corn cobs, straw, sunflower seeds, and cellulose, are often destined for soil composting, used as animal feed, or even converted into energy in order to reduce waste and mitigate the environmental impacts associated with agricultural activities. Sugarcane production, for example, generates a significant amount of by-products, totaling about 600 million tons of bagasse fiber waste from an annual production of two billion tons of sugarcane. This by-product has a promising potential to replace energy-intensive building systems, such as concrete and brick, by providing building materials that combine sustainability and structural efficiency.
Harnessing the power of moldless manufacturing through large-scale robotic 3D printing, research at ETH Zürich in collaboration with FenX AG delves into the use of cement-free mineral foam made from recycled waste. The objective is to build wall systems that are monolithic, lightweight, and immediately insulated, minimizing material use, labor requirements, and associated costs.
Mycelium-Grown Bio-Bricks / Evocative Design & The Living. Image Courtesy of The Living
The building industry is one of the biggest generators of carbon emissions, with some estimates suggesting that 38% percent of all CO2 emissions are linked to this field. As a response to the current crisis, architects, designers, and researchers are taking measures to reduce their carbon footprint during and after construction. Many initiatives and research teams are looking at building materials to find low-carbon solutions and reduce the impact of building materials during production.
The construction industry's future will undoubtedly include "carbon reduction" as a mandatory task. Aside from locally sourced, virgin materials, an increasing number of new materials are becoming available. New materials can be developed in several ways, including low-carbon substitution, recycling, performance enhancement, and 3D printing. New materials will not only be more environmentally friendly and enable new construction methods, but they will also influence the starting point and direction of design concepts, resulting in new buildings with new perceptions and spaces.
Los Manantiales by Felix Candela. Image Courtesy of Alexander Eisenschmid
Architecture is often an ambitious profession, with many architects hoping to positively contribute to the social life of the communities, create emotional responses, and add moments of delight and solace to our daily experiences. However, market forces have a way of applying constant pressure on this field, often being the deciding factor in many design choices. Costs and economic value are generally a good indicator of how, when, and to what extent certain materials are being used: the standard rule is the cheaper, the better. But materials are only part of the equation. Site labor, management, and design costs are also considered, depicting a complex picture of the balance between the cost of materials and the cost of labor and its effect on the architectural product.
Many urban planners predict that by 2050, more than 6 billion people will live in cities, and in places where building outwards isn't an option, the only way to keep up with the growing density is to build up. Building taller always comes with numerous challenges and also a not-so-subtle competition for architecture firms to have their name tied to the biggest buildings. Almost as fast as a building is named one of the tallest in the world, another one makes its way to the drawing board, a few years later taking the title. While the sky’s the limit, how does this impact the constructability of projects, and what feats of construction methods and materials have enabled us to build into the clouds?
In the architectural conversations we are having in today’s world, conversations on materials are widespread. There is discussion on the viability of concrete in the contemporary context, how timber can be more sustainably sourced, and on how biodegradable materials such as bamboo should be more common sights in our urban environments.
“We should admit nature as an immense multitude of forms, including each part of us, who are part of everything”, says Ailton Krenak, renowned indigenous leader, in his book Ideas to Postpone the End of the World. The culture of native peoples does not understand humanity and the environment as things that are separate or superior to each other, but rather as parts of a whole. Through this particular understanding of the universe, these peoples are led to a sensitive appropriation of the territory, with structuring beliefs that are also reflected in their architecture, raising the very concept of sustainability to another level, since nature is not seen as a resource to be used, it is thought of as part of the community.
If you’ve been avoiding some of the latest news recently, here’s a quick update; European and North American countries have been facing one of the hottest recorded summers in modern history. Discussions over the climate crises have therefore been reignited and so has the role of the design and construction industry in providing solutions that would mitigate the experienced heat effects in our daily lives. While passive cooling solutions have always been used in some parts of the world, where local resources and vernacular builds are adapted to high temperatures, other regions are looking to technological and innovative manufacturing means that would maintain human comfort, aesthetic values, and energy efficiency/ cost.
“Hope for Architecture” is the calling of Clay Chapman and described by him as “a building initiative to address the challenges of an uncertain future.” In truth, “Hope for Architecture” is a masonry and timber technology, reinvented and adapted from antiquity for this moment. Clay and his young family moved to Carleton Landing, Oklahoma fifteen years ago to fulfill a mission: creating a community and explore that technology.
Can you imagine a world in which the built environment around us is 3D printed from living materials? That buildings will germinate, bloom, wither, produce new kinds of material, and eventually return back to the soil? To Grow a Building is a performative lab space that 3D prints - in real time - a live structure. The project presents a new approach to integrating flora into the design process, by developing a novel material for 3D printing, through which seeding is an inseparable part of the fabrication process. To Grow a Building is a gate into a future world in which there are people who build buildings, and there are people who grow them.
As part of the effort to make the construction sector more sustainable in the face of the climate crisis, the bioeconomy has stood out. While the road to net-zero architecture is still very complex, the emerging shift in culture and general thinking is evident, and innovation seems to be driving this transformation.
As researcher, designer and MIT professor Caitlin Mueller once said, “The greatest value you can give to a material is to give it a load-bearing role in a structure.” Load-bearing components – foundations, beams, columns, walls, etc. – are designed to resist permanent or variable forces and movements. Similar to the bones of a human body, these support, protect and hold everything together. To fulfill that indispensable function, they must be made from materials with outstanding mechanical properties, which explains the prominence of cement and steel in structures. However, their high performance comes at a high cost: together, they account for 15% of global CO2 emissions. This makes us wonder, is it possible for structural materials to be truly sustainable? We know solutions like greener versions of concrete already exist, but there are many other alternatives to explore. And sometimes, the answer is closer than we expect; in the earth beneath us and the nature that surrounds us.
Indians have traditionally lived close to the earth, their cultures shaped by symbiotic relationships with ecosystems. Indian arts and crafts strongly rely on nature for its form, philosophy, and existence. Native landscapes aroused the artistic sensibilities of resident communities, evolving craft practices that met utilitarian and ritualistic needs. The intersectionality of ecology and culture is evident through ancestral forms of craft.
The Filipinos believe that man and woman first emerged from the nodes of a bamboo stalk. The Chinese view the caneas a symbol of their culture and values, reciting “there is no place to live without bamboo”. The plant is a symbol of prosperity in Japan and friendship in India. Along with myths and stories, strong structures made of bamboo flourished in pre-modernAsia. Built forms varied across the changing landscapes of Eastern countries, all sharing one aspect in common - a respect for natural ecosystems.
