html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "http://www.w3.org/TR/REC-html40/loose.dtd" 19 shortlisted projects for the 2025 Award cycle were revealed by the Aga Khan Award for Architecture (AKAA). A portion of the $1 million prize, one of the biggest in architecture, will be awarded to the winning proposals. Out of the 369 projects nominated for the 16th Award Cycle (2023-2025), an independent Master Jury chose the 19 shortlisted projects from 15 countries.The nine members of the Master Jury for the 16th Award cycle include Azra Akšamija, Noura Al-Sayeh Holtrop, Lucia Allais, David Basulto, Yvonne Farrell, Kabage Karanja, Yacouba Konaté, Hassan Radoine, and Mun Summ Wong.His Late Highness Prince Karim Aga Khan IV created the Aga Khan Award for Architecture in 1977 to recognize and promote architectural ideas that effectively meet the needs and goals of communities where Muslims are a major population. Nearly 10,000 construction projects have been documented since the award's inception 48 years ago, and 128 projects have been granted it. The AKAA's selection method places a strong emphasis on architecture that stimulates and responds to people's cultural ambitions in addition to meeting their physical, social, and economic demands.The Aga Khan Award for Architecture is governed by a Steering Committee chaired by His Highness the Aga Khan. The other members of the Steering Committee are Meisa Batayneh, Principal Architect, Founder, maisam architects and engineers, Amman, Jordan; Souleymane Bachir Diagne, Professor of Philosophy and Francophone Studies, Columbia University, New York, United States of America; Lesley Lokko, Founder & Director, African Futures Institute, Accra, Ghana; Gülru Necipoğlu, Director and Professor, Aga Khan Program for Islamic Architecture, Harvard University, Cambridge, United States of America; Hashim Sarkis, Founder & Principal, Hashim Sarkis Studios (HSS); Dean, School of Architecture and Planning, Massachusetts Institute of Technology, Cambridge, United States of America; and Sarah M. Whiting, Partner, WW Architecture; Dean and Josep Lluís Sert Professor of Architecture, Graduate School of Design, Harvard University, Cambridge, United States of America. Farrokh Derakhshani is the Director of the Award.Examples of outstanding architecture in the areas of modern design, social housing, community development and enhancement, historic preservation, reuse and area conservation, landscape design, and environmental enhancement are recognized by the Aga Khan Award for Architecture.Building plans that creatively utilize local resources and relevant technologies, as well as initiatives that could spur such initiatives abroad, are given special consideration. It should be mentioned that in addition to honoring architects, the Award also recognizes towns, builders, clients, master craftspeople, and engineers who have contributed significantly to the project.Projects had to be completed between January 1, 2018, and December 31, 2023, and they had to have been operational for a minimum of one year in order to be eligible for consideration in the 2025 Award cycle. The Award is not available for projects that His Highness the Aga Khan or any of the Aga Khan Development Network (AKDN) institutions have commissioned.See the 19 shortlisted projects with their short project descriptions competing for the 2025 Award Cycle:Khudi Bari. Image © Aga Khan Trust for Culture / City Syntax (F. M. Faruque Abdullah Shawon, H. M. Fozla Rabby Apurbo)BangladeshKhudi Bari, in various locations, by Marina Tabassum ArchitectsMarina Tabassum Architects' Khudi Bari, which can be readily disassembled and reassembled to suit the needs of the users, is a replicable solution for displaced communities impacted by geographic and climatic changes.West Wusutu Village Community Centre. Image © Aga Khan Trust for Culture / Dou Yujun (photographer)ChinaWest Wusutu Village Community Centre, Hohhot, Inner Mongolia, by Zhang PengjuIn addition to meeting the religious demands of the local Hui Muslims, Zhang Pengju's West Wusutu Village Community Centre in Hohhot, Inner Mongolia, offers social and cultural spaces for locals and artists. Constructed from recycled bricks, it features multipurpose indoor and outdoor areas that promote communal harmony.Revitalisation of Historic Esna. Image © Aga Khan Trust for Culture / Ahmed Salem (photographer)EgyptRevitalisation of Historic Esna, by Takween Integrated Community DevelopmentBy using physical interventions, socioeconomic projects, and creative urban planning techniques, Takween Integrated Community Development's Revitalization of Historic Esna tackles the issues of cultural tourism in Upper Egypt and turns the once-forgotten area around the Temple of Khnum into a thriving historic city.The Arc at Green School. Image © Aga Khan Trust for Culture / Andreas Perbowo Widityawan (photographer)IndonesiaThe Arc at Green School, in Bali, by IBUKU / Elora HardyAfter 15 years of bamboo experimenting at the Green School Bali, IBUKU/Elora Hardy created The Arc at Green School. The Arc is a brand-new community wellness facility built on the foundations of a temporary gym. High-precision engineering and regional handicraft are combined in this construction.Islamic Centre Nurul Yaqin Mosque. Image © Aga Khan Trust for Culture / Andreas Perbowo Widityawan (photographer)IndonesiaIslamic Centre Nurul Yaqin Mosque, in Palu, Central Sulawesi, by Dave Orlando and Fandy GunawanDave Orlando and Fandy Gunawan built the Islamic Center Nurul Yaqin Mosque in Palu, Central Sulawesi, on the location of a previous mosque that was damaged by a 2018 tsunami. There is a place for worship and assembly at the new Islamic Center. Surrounded by a shallow reflecting pool that may be drained to make room for more guests, it is open to the countryside.Microlibrary Warak Kayu. Image © Aga Khan Trust for Culture / Andreas Perbowo Widityawan (photographer)IndonesiaMicrolibraries in various cities, by SHAU / Daliana Suryawinata, Florian HeinzelmannFlorian Heinzelmann, the project's initiator, works with stakeholders at all levels to provide high-quality public spaces in a number of Indonesian parks and kampungs through microlibraries in different towns run by SHAU/Daliana Suryawinata. So far, six have been constructed, and by 2045, 100 are planned.Majara Residence. Image © Aga Khan Trust for Culture / Deed Studio (photographer)IranMajara Complex and Community Redevelopment, in Hormuz Island by ZAV Architects / Mohamadreza GhodousiThe Majara Complex and Community Redevelopment on Hormuz Island, designed by ZAV Architects and Mohamadreza Ghodousi, is well-known for its vibrant domes that offer eco-friendly lodging for visitors visiting Hormuz's distinctive scenery. In addition to providing new amenities for the islanders who visit to socialize, pray, or utilize the library, it was constructed by highly trained local laborers.Jahad Metro Plaza. Image © Aga Khan Trust for Culture / Deed Studio (photographer)IranJahad Metro Plaza in Tehran, by KA Architecture StudioKA Architecture Studio's Jahad Metro Plaza in Tehran was constructed to replace the dilapidated old buildings. It turned the location into a beloved pedestrian-friendly landmark. The arched vaults, which are covered in locally manufactured brick, vary in height to let air and light into the area they are protecting.Khan Jaljulia Restoration. Image © Aga Khan Trust for Culture / Mikaela Burstow (photographer)IsraelKhan Jaljulia Restoration in Jaljulia by Elias KhuriElias Khuri's Khan Jaljulia Restoration is a cost-effective intervention set amidst the remnants of a 14th-century Khan in Jaljulia. By converting the abandoned historical location into a bustling public area for social gatherings, it helps the locals rediscover their cultural history.Campus Startup Lions. Image © Aga Khan Trust for Culture / Christopher Wilton-Steer (photographer)KenyaCampus Startup Lions, in Turkana by Kéré ArchitectsKéré Architecture's Campus Startup Lions in Turkana is an educational and entrepreneurial center that offers a venue for community involvement, business incubation, and technology-driven education. The design incorporates solar energy, rainwater harvesting, and tall ventilation towers that resemble the nearby termite mounds, and it was constructed using local volcanic stone.Lalla Yeddouna Square. Image © Aga Khan Trust for Culture / Amine Houari (photographer)MoroccoRevitalisation of Lalla Yeddouna Square in the medina of Fez, by Mossessian Architecture and Yassir Khalil StudioMossessian Architecture and Yassir Khalil Studio's revitalization of Lalla Yeddouna Square in the Fez medina aims to improve pedestrian circulation and reestablish a connection to the waterfront. For the benefit of locals, craftspeople, and tourists from around the globe, existing buildings were maintained and new areas created.Vision Pakistan. Image © Aga Khan Trust for Culture / Usman Saqib Zuberi (photographer)PakistanVision Pakistan, in Islamabad by DB Studios / Mohammad Saifullah SiddiquiA tailoring training center run by Vision Pakistan, a nonprofit organization dedicated to empowering underprivileged adolescents, is located in Islamabad by DB Studios/Mohammad Saifullah Siddiqui. Situated in a crowded neighborhood, this multi-story building features flashy jaalis influenced by Arab and Pakistani crafts, echoing the city's 1960s design.Denso Hall Rahguzar Project. Image © Aga Khan Trust for Culture / Usman Saqib Zuberi (photographer)PakistanDenso Hall Rahguzar Project, in Karachi by Heritage Foundation Pakistan / Yasmeen LariThe Heritage Foundation of Pakistan/Yasmeen Lari's Denso Hall Rahguzar Project in Karachi is a heritage-led eco-urban enclave that was built with low-carbon materials in response to the city's severe climate, which is prone to heat waves and floods. The freshly planted "forests" are irrigated by the handcrafted terracotta cobbles, which absorb rainfall and cool and purify the air.Wonder Cabinet. Image © Aga Khan Trust for Culture / Mikaela Burstow (photographer)PalestineWonder Cabinet, in Bethlehem by AAU AnastasThe architects at AAU Anastas established Wonder Cabinet, a multifunctional, nonprofit exhibition and production venue in Bethlehem. The three-story concrete building was constructed with the help of regional contractors and artisans, and it is quickly emerging as a major center for learning, design, craft, and innovation.The Ned. Image © Aga Khan Trust for Culture / Cemal Emden (photographer)QatarThe Ned Hotel, in Doha by David Chipperfield ArchitectsThe Ministry of Interior was housed in the Ned Hotel in Doha, which was designed by David Chipperfield Architects. Its Middle Eastern brutalist building was meticulously transformed into a 90-room boutique hotel, thereby promoting architectural revitalization in the region.Shamalat Cultural Centre. Image © Aga Khan Trust for Culture / Hassan Al Shatti (photographer)Saudi ArabiaShamalat Cultural Centre, in Riyadh, by Syn Architects / Sara Alissa, Nojoud AlsudairiOn the outskirts of Diriyah, the Shamalat Cultural Centre in Riyadh was created by Syn Architects/Sara Alissa, Nojoud Alsudairi. It was created from an old mud home that artist Maha Malluh had renovated. The center, which aims to incorporate historic places into daily life, provides a sensitive viewpoint on heritage conservation in the area by contrasting the old and the contemporary.Rehabilitation and Extension of Dakar Railway Station. Image © Aga Khan Trust for Culture / Sylvain Cherkaoui (photographer)SenegalRehabilitation and Extension of Dakar Railway Station, in Dakar by Ga2DIn order to accommodate the passengers of a new express train line, Ga2D extended and renovated Dakar train Station, which purposefully contrasts the old and modern buildings. The forecourt was once again open to pedestrian traffic after vehicular traffic was limited to the rear of the property.Rami Library. Image © Aga Khan Trust for Culture / Cemal Emden (photographer)TürkiyeRami Library, by Han Tümertekin Design & ConsultancyThe largest library in Istanbul is the Rami Library, designed by Han Tümertekin Design & Consultancy. It occupied the former Rami Barracks, a sizable, single-story building with enormous volumes that was constructed in the eighteenth century. In order to accommodate new library operations while maintaining the structure's original spatial features, a minimal intervention method was used.Morocco Pavilion Expo Dubai 2020. Image © Aga Khan Trust for Culture / Deed Studio (photographer)United Arab EmiratesMorocco Pavilion Expo Dubai 2020, by Oualalou + ChoiOualalou + Choi's Morocco Pavilion Expo Dubai 2020 is intended to last beyond Expo 2020 and be transformed into a cultural center. The pavilion is a trailblazer in the development of large-scale rammed earth building techniques. Its use of passive cooling techniques, which minimize the need for mechanical air conditioning, earned it the gold LEED accreditation.At each project location, independent professionals such as architects, conservation specialists, planners, and structural engineers have conducted thorough evaluations of the nominated projects. This summer, the Master Jury convenes once more to analyze the on-site evaluations and choose the ultimate Award winners.The top image in the article: The Arc at Green School. Image © Aga Khan Trust for Culture / Andreas Perbowo Widityawan (photographer).> via Aga Khan Award for Architecture

Sienna Net-Zero Home / billionBricksSave this picture!© Ron Mendoza , Mark Twain C , BB teamHouses, Sustainability•Quezon City, Philippines Architects: billionBricks Area Area of this architecture project Area:  45 m² Year Completion year of this architecture project Year:  2024 Photographs Photographs:Ron Mendoza , Mark Twain C , BB teamMore SpecsLess Specs Save this picture! Text description provided by the architects. Built to address homelessness and climate change, the Sienna Net-Zero Home is a self-sustaining, solar-powered, cost-efficient, and compact housing solution. This climate-responsive and affordable home, located in Quezon City, Philippines, represents a revolutionary vision for social housing through its integration of thoughtful design, sustainability, and energy self-sufficiency.Save this picture!Save this picture!Save this picture!Designed with the unique tropical climate of the Philippines in mind, the Sienna Home prioritizes natural ventilation, passive cooling, and rainwater management to enhance indoor comfort and reduce reliance on artificial cooling systems. The compact 4.5m x 5.1m floor plan has been meticulously optimized for functionality, offering a flexible layout that grows and adapts to the families living in them.Save this picture!Save this picture!Save this picture!A key architectural feature is BillionBricks' innovative Powershade technology - an advanced solar roofing system that serves multiple purposes. Beyond generating clean, renewable energy, it acts as a protective heat barrier, reducing indoor temperatures and improving thermal comfort. Unlike conventional solar panels, Powershade seamlessly integrates with the home's structure, providing reliable energy generation while doubling as a durable roof. This makes the Sienna Home energy-positive, meaning it produces more electricity than it consumes, lowering utility costs and promoting long-term energy independence. Excess power can also be stored or sold back to the grid, creating an additional financial benefit for homeowners.Save this picture!When multiple Sienna Homes are built together, the innovative PowerShade roofing solution transcends its role as an individual energy source and transforms into a utility-scale solar rooftop farm, capable of powering essential community facilities and generating additional income. This shared energy infrastructure fosters a sense of collective empowerment, enabling residents to actively participate in a sustainable and financially rewarding energy ecosystem.Save this picture!Save this picture!The Sienna Home is built using lightweight prefabricated components, allowing for rapid on-site assembly while maintaining durability and structural integrity. This modular approach enables scalability, making it an ideal prototype for large-scale, cost-effective housing developments. The design also allows for future expansions, giving homeowners the flexibility to adapt their living spaces over time.Save this picture!Adhering to BP 220 social housing regulations, the unit features a 3-meter front setback and a 2-meter rear setback, ensuring proper ventilation, safety, and community-friendly spaces. Additionally, corner units include a 1.5-meter offset, enhancing privacy and accessibility within neighborhood layouts. Beyond providing a single-family residence, the Sienna House is designed to function within a larger sustainable community model, integrating shared green spaces, pedestrian pathways, and decentralized utilities. By promoting energy independence and environmental resilience, the project sets a new precedent for affordable yet high-quality housing solutions in rapidly urbanizing regions.Save this picture!The Sienna Home in Quezon City serves as a blueprint for future developments, proving that low-cost housing can be both architecturally compelling and socially transformative. By rethinking traditional housing models, BillionBricks is pioneering a future where affordability and sustainability are seamlessly integrated. Project gallerySee allShow less About this officebillionBricksOffice••• Published on June 15, 2025Cite: "Sienna Net-Zero Home / billionBricks" 14 Jun 2025. ArchDaily. Accessed . <https://www.archdaily.com/1031072/sienna-billionbricks&gt ISSN 0719-8884Save世界上最受欢迎的建筑网站现已推出你的母语版本!想浏览ArchDaily中国吗?是否 You've started following your first account!Did you know?You'll now receive updates based on what you follow! Personalize your stream and start following your favorite authors, offices and users.Go to my stream

Browning Industrial Park / MULTIPLE Architecture & UrbanismSave this picture!© Bruno Dias Ventura Architects: MULTIPLE Architecture & Urbanism Area Area of this architecture project Area:  15562 m² Year Completion year of this architecture project Year:  2024 Photographs Photographs:Bruno Dias Ventura Manufacturers Brands with products used in this architecture project Manufacturers:  Joris Ide, Ozklux, VMZINC, ZumtobelMore SpecsLess Specs Save this picture! Text description provided by the architects. The Browning Park project emerged from a strong ambition: to transform a derelict industrial site - once home to Herstal's weapons industry - into a vibrant green lung at the heart of the city. Over time, the site had become a sealed and fragmented grey zone, disconnected from its surrounding neighborhoods. The project was driven by a desire to reverse this fragmentation by creating a continuous pedestrian path, reopening the site, and reconnecting it with its urban context. This central promenade became the backbone of the design, around which inclusive and fully accessible public spaces were thoughtfully arranged.Save this picture!Save this picture!Save this picture!One of the most significant challenges stemmed from the condition of the site itself. Decades of industrial activity had left behind polluted soils and substantial infrastructural remnants. A deep soil remediation process - reaching depths of up to 12 meters - was required before any development could begin. This necessary intervention also offered the opportunity to reshape the topography and increase permeable surfaces, thus improving rainwater infiltration and boosting the site's resilience to climate change. Another key challenge involved balancing heritage preservation with new uses. The former Browning factory, for instance, had to be partially dismantled, structurally reinforced, and reimagined, while retaining its historical identity.Save this picture!In terms of construction, the project focused on reusing existing structures wherever possible. The factory's original metal frame was preserved and strengthened, and a new timber roof was added to create a covered public hall. Adjacent to it, the garden integrates remnants of the steel framework, which now supports wild vegetation and forms a robust, weather-resistant landscape feature. These gestures embody the project's commitment to circularity and a low environmental footprint.Save this picture!Save this picture!Save this picture!Save this picture!The spatial layout of the park was carefully designed to accommodate a wide variety of users and age groups. Along the main pedestrian spine, a sequence of diverse atmospheres and uses unfolds: a skatepark, a playground, picnic areas, outdoor fitness zones, a square with a fountain, a woodland area, and a flower garden. All these features are barrier-free and fully accessible.Save this picture!The project was developed in close dialogue with the people of Herstal and future park users. A series of public consultations and co-creation workshops were held throughout the design process, ensuring the park would reflect local needs and aspirations. The involvement of municipal services, which will oversee the long-term maintenance of the park, the hall, and the intergenerational house, was also crucial to ensuring the project's durability and success.Save this picture! Project gallerySee allShow less Project locationAddress:Herstal, BelgiumLocation to be used only as a reference. It could indicate city/country but not exact address.About this office MaterialSteelMaterials and TagsPublished on June 05, 2025Cite: "Browning Industrial Park / MULTIPLE Architecture & Urbanism" 05 Jun 2025. ArchDaily. Accessed . <https://www.archdaily.com/1030623/browning-industrial-park-multiple-architecture-and-urbanism&gt ISSN 0719-8884Save世界上最受欢迎的建筑网站现已推出你的母语版本!想浏览ArchDaily中国吗?是否 You've started following your first account!Did you know?You'll now receive updates based on what you follow! Personalize your stream and start following your favorite authors, offices and users.Go to my stream

Ookwemin Minising Aerial photo with project area outline. Credit: Waterfront Toronto Global professional services company, GHD, and Danish nature-based design studio, SLA, have been awarded the role of prime consultant by Waterfront Toronto for phase one of infrastructure and streetscape design for a new island community. Formerly known as Villiers Island, Ookwemin Minising is a new island born from an ambitious flood protection and river restoration project. The Don River, a historic gathering place, will be at the heart of this future community. The island, which is planned to be home to more than 15,000 people, will also be a destination where people will visit to relax and explore. The first new residents of this island community are expected to move in by 2031. For the project, GHD, the prime consultant and technical lead, and SLA, design lead for urban realm and landscape, will deliver a new urban environment that aims to honour the legacy of the Don River through an approach rooted in resilient infrastructure, cultural memory and deep ecological integration. Drawing inspiration from global precedents and local Indigenous knowledge, the team’s “Growing Streets” concept proposes streetscapes that evolve like living ecosystems. “This project represents a significant milestone for Toronto’s waterfront revitalization,” said Chris Hunter, GHD chief executive officer for the Americas. “By integrating innovative engineering with responsive design, our team will help create infrastructure that’s not just functional, but truly adaptive to community needs while honoring the ecological transformation nearing completion at the Don River mouth. This approach exemplifies our commitment to building resilient systems that evolve with the communities they serve.” The team, which includes architects Allies and Morrison, will integrate design for streetscapes and public realm with a review of the density and built form on the island, building on years of planning to realize this new neighbourhood. “Tri-government investment unlocked the potential of the Port Lands, allowing us to create a brand new island,” says Chris Glaisek, chief planning and design officer at Waterfront Toronto. “Now, renewed investment in waterfront revitalization means this new island is ready to launch. By integrating design for streets and public realm with a review of built form on the island, this team can build on the planning done by the City of Toronto, Waterfront Toronto and CreateTO to deliver as much new housing as possible, while building a truly world-class neighbourhood.” At the heart of the team’s vision for Ookwemin Minising lies a next-practice model for climate-adaptive urbanism. Guided by seven core principles, including surface-level rainwater management, soil repurposing, native vegetation and social spaces that foster mobility and interaction, the design will champion active mobility through integrated pedestrian and biodiversity corridors woven throughout the island. These corridors can provide optimal microclimates for outdoor comfort while managing storm water, linking and strengthening ecologies and connecting people with nature. Informed by leading examples from cities like Copenhagen, Oslo, and London, the design will seek to maximize sustainability without relying on future technologies. “We’re thrilled to bring our Growing Streets vision to life in Toronto,” said Rasmus Astrup, design principal and partner at SLA. “This is urban design at its most alive – where trees, water, wind, soil and people grow and flow together. The streetscape design of Ookwemin Minising is not just about infrastructure, it’s about creating a living cityscape that breathes with the seasons, nurtures biodiversity and supports everyday life in inspiring, joyful ways. In Ookwemin Minising, every street becomes a celebration – of the land, of the water, of our heritage and of all the life of Toronto.” The infrastructure designs for Ookwemin Minising will incorporate  plantings, nature-integrated public seating, and climate-buffering vegetation to create a vibrant and adaptive civic experience. The team envisions a design that would build public awareness of ecological processes while enhancing urban resilience and well-being. The vision embraces a holistic design approach that integrates street configurations, building scales, and public spaces to create a cohesive and sustainable community. Rooted in the values of the surrounding Port Lands and celebrating the area’s enduring industrial, maritime and Indigenous histories, the team’s design for Ookwemin Minising will aim to set a new benchmark for culturally and ecologically responsive waterfront development in North America. The project will be brought to life by a group of industry-leading consultants, including:  GHD (prime consultant): Engineering design services, planning services, environmental services and construction administration SLA: Design lead for urban realm and landscape Trophic Design: Co-designer with SLA for Indigenous landscape design and knowledge Transsolar: Sustainability and low-carbon infrastructure systems Monumental Projects: Public engagement and community outreach Level Playing Field: Accessibility services Allies and Morrison: Architectural lead   The post GHD and SLA teaming up to deliver major infrastructure design for Toronto’s newest island appeared first on Canadian Architect.

Photo credit: Checkwitch Poiron Architects Discover Montessori School, a project by Checkwitch Poiron Architects, consists of a 10-classroom Montessori farming school on the Agricultural Land Reserve outside of Nanaimo, on Vancouver Island. The client was committed to the idea of sustainability embedded in the Montessori principles of interconnectedness, citizenship and minimalism. Photo credit: Checkwitch Poiron Architects The zoning required that the site be easily returnable to farm use and more specifically precluded the use of a concrete slab on grade. This led Checkwitch Poiron Architects to identify low carbon construction as an achievable sustainable target. The budget was limited, and as such, all design decisions considered the implications on cost, schedule and carbon footprint. This included an analysis of various foundation strategies, including concrete piers and helical piles, prepared by structural engineers Fast and Epp with life cycle analysis by Introba. Photo credit: Checkwitch Poiron Architects The design uses recycled Douglas Fir floorboards as exterior cladding, and interior corridors are lined with Hemlock tiles using waste diverted from a lumber mill. The mechanical consultant (Introba) used the correlation between low precipitation levels and low school use during summer months to design one of the first rainwater catchment systems in British Columbia to be certified for commercial use. Photo credit: Checkwitch Poiron Architects This project demonstrates how low-carbon and sustainable construction can be achieved, despite budget limitations, by identifying opportunities and the use of practical, cost efficient design. Discover Montessori recently achieved CAGBC Zero Carbon Building Standard Certification, was the Overall Winner of the Vancouver Island Commercial Building Awards, and was awarded the BC Embodied Carbon Award for Large Buildings by the Carbon Leadership Forum (CLF). Photo credit: Checkwitch Poiron Architects The project also incorporates water-saving design strategies and collects rainwater for potable water use, as the first project of this kind approved in BC. Photo credit: Checkwitch Poiron Architects Technical Sheet: Location: Nanaimo, BC Client: Discover Montessori Size: 12,492 sf Status: Completed 2023 The post Discover Montessori School achieves CAGBC Zero Carbon certification appeared first on Canadian Architect.

Love or hate them, leaf blowers are undeniably effective: They have have transformed the chore of clearing leaves off your property from a back-straining misery into a (very noisy) stroll across it. And while it’s true that old-school gas-powered leaf blowers have been maligned as loud, polluting scourges, these days you can get a clean, battery-powered model that won’t ruin your relationship with your neighbors while actively destroying the climate.And you might have good reason to. While leaf blowers are seemingly simple, single-use tools (you know, blowing leaves into piles), they’re a lot more versatile than that. By my count, my leaf blower is actually at least six tools in one.Gutter cleanerYour home's gutters protect your property by directing rainwater away from your foundation and walls. But to keep doing that, gutters need maintenance and regular cleaning to ensure they’re not filled with leaves, birds’ nests, and other debris.Cleaning gutters can be a dangerous and dirty chore—or you can buy yourself a gutter cleaning kit that attaches to your leaf blower. Using your leaf blower in this way allows you to stay firmly on the ground, keeps you far away from the mulch-y, damp stuff collecting in your gutters, and makes the job much faster, because you don’t have to keep resetting a ladder every five minutes.Snow shovelClearing snow from your sidewalk, driveway, and other areas of your property can cause back strain, heart attacks, and a generally grim view of the world in general. But if you have a leaf blower, you don’t need a shovel. Leaf blowers are surprisingly effective at clearing away snow as long that's relatively dry and powdery—admittedly, if the snow is dense and wet you’re probably still going to need a shovel to clear it. But if you’re looking at a lot of fresh, light snow, that leaf blower will make short work of it.A portable air dryerLeaf blowers aren’t complex—they blow air out one end, and that’s it. This means yours can act as a portable air dryer. Just washed your car and don’t want to spend the next half hour drying it off by hand? A leaf blower will gently dry it for you. Having guests over and your patio furniture is damp? Leaf blower to the rescue. In fact, just about anything and anyplace where water beads up can be quickly dried with a leaf blower.Filter cleanerHave a vacuum, furnace, or other filter that's dirt-clogged to the point of unsuitability? Cleaning it will make the machine it fits into run better, but it's a chore: Shaking it out isn’t very thorough, and rinsing it with water means you have to build in time for it to dry before you put it back in place. So use a leaf blower to blow out that filter in seconds and put it right back to work.Caution: Some suggest using your leaf blower to clear out your dryer vent. While this may appear to work, it’s also a bad idea: The leaf blower can compact lint inside the vent, making its performance worse and increasing the chance of a fire greater. Stick with cleaning out those filters via another method.Seed spreaderGot a lawn to seed but short on time? Pick up a seed spreader attachment for your leaf blower (this is a real thing I am not making up). It works really well at spraying seeds (or herbicides, or muck pellets, or anything else you want to spread over a large area) quickly and efficiently. (You can even make your own with a drill, saw, a plastic bottle or funnel, and some tape.)Wire threaderIf you’ve ever tried to thread a wire through a conduit, you know there’s a certain amount of black magic involved—even the most straightforward conduit can have you feeling like it leads through an alternate dimension where the laws of physics don’t apply. But with your trusty leaf blower and a plastic bag, you can run that wire through the conduit in seconds: Attach the wire to a standard lightweight plastic bag, drop it in one end of the conduit, and let your leaf blower blow that bag straight through to the other end.

LUBBOCK — Every winter, after the sea of cotton has been harvested in the South Plains and the ground looks barren, technicians with the High Plains Underground Water Conservation District check the water levels in nearly 75,000 wells across 16 counties. For years, their measurements have shown what farmers and water conservationists fear most—the Ogallala Aquifer, an underground water source that’s the lifeblood of the South Plains agriculture industry, is running dry. That’s because of a century-old law called the rule of capture. The rule is simple: If you own the land above an aquifer in Texas, the water underneath is yours. You can use as much as you want, as long as it’s not wasted or taken maliciously. The same applies to your neighbor. If they happen to use more water than you, then that’s just bad luck. To put it another way, landowners can mostly pump as much water as they choose without facing liability to surrounding landowners whose wells might be depleted as a result. Following the Dust Bowl—and to stave off catastrophe—state lawmakers created groundwater conservation districts in 1949 to protect what water is left. But their power to restrict landowners is limited. “The mission is to save as much water possible for as long as possible, with as little impact on private property rights as possible,” said Jason Coleman, manager for the High Plains Underground Water Conservation District. “How do you do that? It’s a difficult task.” A 1953 map of the wells in Lubbock County hangs in the office of the groundwater district. [Photo: Annie Rice for The Texas Tribune] Rapid population growth, climate change, and aging water infrastructure all threaten the state’s water supply. Texas does not have enough water to meet demand if the state is stricken with a historic drought, according to the Texas Water Development Board, the state agency that manages Texas’ water supply. Lawmakers want to invest in every corner to save the state’s water. This week, they reached a historic $20 billion deal on water projects. High Plains Underground Water District General Manager Jason Coleman stands in the district’s meeting room on May 21 in Lubbock. [Photo: Annie Rice for The Texas Tribune] But no one wants to touch the rule of capture. In a state known for rugged individualism, politically speaking, reforming the law is tantamount to stripping away freedoms. “There probably are opportunities to vest groundwater districts with additional authority,” said Amy Hardberger, director for the Texas Tech University Center for Water Law and Policy. “I don’t think the political climate is going to do that.” State Sen. Charles Perry, a Lubbock Republican, and Rep. Cody Harris, a Palestine Republican, led the effort on water in Austin this year. Neither responded to requests for comment. Carlos Rubinstein, a water expert with consulting firm RSAH2O and a former chairman of the water development board, said the rule has been relied upon so long that it would be near impossible to undo the law. “I think it’s better to spend time working within the rules,” Rubinstein said. “And respect the rule of capture, yet also recognize that, in and of itself, it causes problems.” Even though groundwater districts were created to regulate groundwater, the law effectively stops them from doing so, or they risk major lawsuits. The state water plan, which spells out how the state’s water is to be used, acknowledges the shortfall. Groundwater availability is expected to decline by 25% by 2070, mostly due to reduced supply in the Ogallala and Edwards-Trinity aquifers. Together, the aquifers stretch across West Texas and up through the Panhandle. By itself, the Ogallala has an estimated three trillion gallons of water. Though the overwhelming majority in Texas is used by farmers. It’s expected to face a 50% decline by 2070. Groundwater is 54% of the state’s total water supply and is the state’s most vulnerable natural resource. It’s created by rainfall and other precipitation, and seeps into the ground. Like surface water, groundwater is heavily affected by ongoing droughts and prolonged heat waves. However, the state has more say in regulating surface water than it does groundwater. Surface water laws have provisions that cut supply to newer users in a drought and prohibit transferring surface water outside of basins. Historically, groundwater has been used by agriculture in the High Plains. However, as surface water evaporates at a quicker clip, cities and businesses are increasingly interested in tapping the underground resource. As Texas’ population continues to grow and surface water declines, groundwater will be the prize in future fights for water. In many ways, the damage is done in the High Plains, a region that spans from the top of the Panhandle down past Lubbock. The Ogallala Aquifer runs beneath the region, and it’s faced depletion to the point of no return, according to experts. Simply put: The Ogallala is not refilling to keep up with demand. “It’s a creeping disaster,” said Robert Mace, executive director of the Meadows Center for Water and the Environment. “It isn’t like you wake up tomorrow and nobody can pump anymore. It’s just happening slowly, every year.” [Image: Yuriko Schumacher/The Texas Tribune] Groundwater districts and the law The High Plains Water District was the first groundwater district created in Texas. Over a protracted multi-year fight, the Legislature created these new local government bodies in 1949, with voter approval, enshrining the new stewards of groundwater into the state Constitution. If the lawmakers hoped to embolden local officials to manage the troves of water under the soil, they failed. There are areas with groundwater that don’t have conservation districts. Each groundwater districts has different powers. In practice, most water districts permit wells and make decisions on spacing and location to meet the needs of the property owner. The one thing all groundwater districts have in common: They stop short of telling landowners they can’t pump water. In the seven decades since groundwater districts were created, a series of lawsuits have effectively strangled groundwater districts. Even as water levels decline from use and drought, districts still get regular requests for new wells. They won’t say no out of fear of litigation. The field technician coverage area is seen in Nathaniel Bibbs’ office at the High Plains Underground Water District. Bibbs is a permit assistant for the district. [Photo: Annie Rice for The Texas Tribune] “You have a host of different decisions to make as it pertains to management of groundwater,” Coleman said. “That list has grown over the years.” The possibility of lawsuits makes groundwater districts hesitant to regulate usage or put limitations on new well permits. Groundwater districts have to defend themselves in lawsuits, and most lack the resources to do so. A well spacing guide is seen in Nathaniel Bibbs’ office. [Photo: Annie Rice for The Texas Tribune] “The law works against us in that way,” Hardberger, with Texas Tech University, said. “It means one large tool in our toolbox, regulation, is limited.” The most recent example is a lawsuit between the Braggs Farm and the Edwards Aquifer Authority. The farm requested permits for two pecan orchards in Medina County, outside San Antonio. The authority granted only one and limited how much water could be used based on state law. It wasn’t an arbitrary decision. The authority said it followed the statute set by the Legislature to determine the permit. “That’s all they were guaranteed,” said Gregory Ellis, the first general manager of the authority, referring to the water available to the farm. The Braggs family filed a takings lawsuit against the authority. This kind of claim can be filed when any level of government—including groundwater districts—takes private property for public use without paying for the owner’s losses. Braggs won. It is the only successful water-related takings claim in Texas, and it made groundwater laws murkier. It cost the authority $4.5 million. “I think it should have been paid by the state Legislature,” Ellis said. “They’re the ones who designed that permitting system. But that didn’t happen.” An appeals court upheld the ruling in 2013, and the Texas Supreme Court denied petitions to consider appeals. However, the state’s supreme court has previously suggested the Legislature could enhance the powers of the groundwater districts and regulate groundwater like surface water, just as many other states have done. While the laws are complicated, Ellis said the fundamental rule of capture has benefits. It has saved Texas’ legal system from a flurry of lawsuits between well owners. “If they had said ‘Yes, you can sue your neighbor for damaging your well,’ where does it stop?” Ellis asked. “Everybody sues everybody.” Coleman, the High Plains district’s manager, said some people want groundwater districts to have more power, while others think they have too much. Well owners want restrictions for others, but not on them, he said. “You’re charged as a district with trying to apply things uniformly and fairly,” Coleman said. Can’t reverse the past Two tractors were dropping seeds around Walt Hagood’s farm as he turned on his irrigation system for the first time this year. He didn’t plan on using much water. It’s too precious. The cotton farm stretches across 2,350 acres on the outskirts of Wolfforth, a town 12 miles southwest of Lubbock. Hagood irrigates about 80 acres of land, and prays that rain takes care of the rest. Walt Hagood drives across his farm on May 12, in Wolfforth. Hagood utilizes “dry farming,” a technique that relies on natural rainfall. [Photo: Annie Rice for The Texas Tribune] “We used to have a lot of irrigated land with adequate water to make a crop,” Hagood said. “We don’t have that anymore.” The High Plains is home to cotton and cattle, multi-billion-dollar agricultural industries. The success is in large part due to the Ogallala. Since its discovery, the aquifer has helped farms around the region spring up through irrigation, a way for farmers to water their crops instead of waiting for rain that may not come. But as water in the aquifer declines, there are growing concerns that there won’t be enough water to support agriculture in the future. At the peak of irrigation development, more than 8.5 million acres were irrigated in Texas. About 65% of that was in the High Plains. In the decades since the irrigation boom, High Plains farmers have resorted to methods that might save water and keep their livelihoods afloat. They’ve changed their irrigation systems so water is used more efficiently. They grow cover crops so their soil is more likely to soak up rainwater. Some use apps to see where water is needed so it’s not wasted. A furrow irrigation is seen at Walt Hagood’s cotton farm. [Photo: Annie Rice for The Texas Tribune] Farmers who have not changed their irrigation systems might not have a choice in the near future. It can take a week to pump an inch of water in some areas from the aquifer because of how little water is left. As conditions change underground, they are forced to drill deeper for water. That causes additional problems. Calcium can build up, and the water is of poorer quality. And when the water is used to spray crops through a pivot irrigation system, it’s more of a humidifier as water quickly evaporates in the heat. According to the groundwater district’s most recent management plan, 2 million acres in the district use groundwater for irrigation. About 95% of water from the Ogallala is used for irrigated agriculture. The plan states that the irrigated farms “afford economic stability to the area and support a number of other industries.” The state water plan shows groundwater supply is expected to decline, and drought won’t be the only factor causing a shortage. Demand for municipal use outweighs irrigation use, reflecting the state’s future growth. In Region O, which is the South Plains, water for irrigation declines by 2070 while demand for municipal use rises because of population growth in the region. Coleman, with the High Plains groundwater district, often thinks about how the aquifer will hold up with future growth. There are some factors at play with water planning that are nearly impossible to predict and account for, Coleman said. Declining surface water could make groundwater a source for municipalities that didn’t depend on it before. Regions known for having big, open patches of land, like the High Plains, could be attractive to incoming businesses. People could move to the country and want to drill a well, with no understanding of water availability. The state will continue to grow, Coleman said, and all the incoming businesses and industries will undoubtedly need water. “We could say ‘Well, it’s no one’s fault. We didn’t know that factory would need 20,000 acre-feet of water a year,” Coleman said. “It’s not happening right now, but what’s around the corner?” Coleman said this puts agriculture in a tenuous position. The region is full of small towns that depend on agriculture and have supporting businesses, like cotton gins, equipment and feed stores, and pesticide and fertilizer sprayers. This puts pressure on the High Plains water district, along with the two regional water planning groups in the region, to keep agriculture alive. “Districts are not trying to reduce pumping down to a sustainable level,” said Mace with the Meadows Foundation. “And I don’t fault them for that, because doing that is economic devastation in a region with farmers.” Hagood, the cotton farmer, doesn’t think reforming groundwater rights is the way to solve it. What’s done is done, he said. “Our U.S. Constitution protects our private property rights, and that’s what this is all about,” Hagood said. “Any time we have a regulation and people are given more authority, it doesn’t work out right for everybody.” Rapid population growth, climate change, and aging water infrastructure all threaten the state’s water supply. [Photo: Annie Rice for The Texas Tribune] What can be done The state water plan recommends irrigation conservation as a strategy. It’s also the least costly water management method. But that strategy is fraught. Farmers need to irrigate in times of drought, and telling them to stop can draw criticism. In Eastern New Mexico, the Ogallala Land and Water Conservancy, a nonprofit organization, has been retiring irrigation wells. Landowners keep their water rights, and the organization pays them to stop irrigating their farms. Landowners get paid every year as part of the voluntary agreement, and they can end it at any point. Ladona Clayton, executive director of the organization, said they have been criticized, with their efforts being called a “war” and “land grab.” They also get pushback on why the responsibility falls on farmers. She said it’s because of how much water is used for irrigation. They have to be aggressive in their approach, she said. The aquifer supplies water to the Cannon Air Force Base. “We don’t want them to stop agricultural production,” Clayton said. “But for me to say it will be the same level that irrigation can support would be untrue.” There is another possible lifeline that people in the High Plains are eyeing as a solution: the Dockum Aquifer. It’s a minor aquifer that underlies part of the Ogallala, so it would be accessible to farmers and ranchers in the region. The High Plains Water District also oversees this aquifer. If it seems too good to be true—that the most irrigated part of Texas would just so happen to have another abundant supply of water flowing underneath—it’s because there’s a catch. The Dockum is full of extremely salty brackish water. Some counties can use the water for irrigation and drinking water without treatment, but it’s unusable in others. According to the groundwater district, a test well in Lubbock County pulled up water that was as salty as seawater. Rubinstein, the former water development board chairman, said there are pockets of brackish groundwater in Texas that haven’t been tapped yet. It would be enough to meet the needs on the horizon, but it would also be very expensive to obtain and use. A landowner would have to go deeper to get it, then pump the water over a longer distance. “That costs money, and then you have to treat it on top of that,” Rubinstein said. “But, it is water.” Landowners have expressed interest in using desalination, a treatment method to lower dissolved salt levels. Desalination of produced and brackish water is one of the ideas that was being floated around at the Legislature this year, along with building a pipeline to move water across the state. Hagood, the farmer, is skeptical. He thinks whatever water they move could get used up before it makes it all the way to West Texas. There is always brackish groundwater. Another aquifer brings the chance of history repeating—if the Dockum aquifer is treated so its water is usable, will people drain it, too? Hagood said there would have to be limits. Disclosure: Edwards Aquifer Authority and Texas Tech University have been financial supporters of The Texas Tribune. Financial supporters play no role in the Tribune’s journalism. Find a complete list of them here. This article originally appeared in The Texas Tribune, a member-supported, nonpartisan newsroom informing and engaging Texans on state politics and policy. Learn more at texastribune.org.

Masterplan & Sports Complex La Paz | © Jaime Navarro In La Paz, Baja California Sur, the transformation of El Cajoncito, a neglected dry riverbed central to the city’s stormwater system, marks a strategic urban intervention led by CCA | Bernardo Quinzaños. The Masterplan La Paz addresses the fragmented nature of the city’s spatial fabric by reconceiving this infrastructural void as a connective civic spine. The project is not merely about landscape or recreation; it functions as an integrated ecological, hydrological, and social framework. Masterplan & Sports Complex La Paz Technical Information Architects1-6: CCA | Bernardo Quinzaños Location: La Paz, Baja California Sur, México Gross Area: 22,727 m2 | 245,000 Sq. Ft. Completion Year: 2025 Photographs: © Jaime Navarro We envisioned the Masterplan La Paz not just as infrastructure, but as a catalyst for social integration, where public space becomes a bridge between ecological resilience and community well-being. – Bernardo Quinzaños Masterplan & Sports Complex La Paz Photographs © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro © Jaime Navarro Reframing the Urban Void: Context and Design Intent The master plan is rooted in a clear intention: to bridge socio-spatial divides and enhance resilience in a region highly susceptible to seasonal flooding. El Cajoncito, which becomes impassable during the rainy season, historically reinforced urban disconnection. Residents of adjacent neighborhoods were required to circumvent it by traveling between four and eight kilometers despite the separation being no more than 200 meters. The master plan reconceives this gap not as a barrier but as an opportunity to integrate infrastructure and urban life. Informed by a collaborative process involving technical consultants, municipal authorities, and the local community, the project articulates infrastructure as a tool for civic repair. Public space, mobility, and water management are synthesized into a singular spatial proposal, creating a precedent for interventions in Latin American secondary cities facing similar socio-environmental challenges. Masterplan & Sports Complex La Paz Spatial Strategy At the heart of the project is a linear spatial strategy that reorients movement and redefines thresholds within the city. The Paseo Lineal, a continuous pedestrian and cycling path, forms the connective tissue of the master plan. Stretching from the city’s marina to the new sports complex, this spine is both infrastructural and ecological. It incorporates rainwater mitigation systems, shaded rest areas, and integrated bus shelters, creating a multimodal corridor that prioritizes non-motorized transport and public transit. A critical architectural gesture within this system is the bridge that spans El Cajoncito. It addresses the acute lack of connectivity by enabling direct, safe passage between neighborhoods, fundamentally altering local movement patterns. Rather than serving as an isolated object, the bridge is embedded in a network of social and ecological flows. The project avoids monofunctional zoning and instead embraces layered programming that intersperses recreational, cultural, and environmental uses. This pluralism is essential to its success as a public space. The spatial organization acknowledges the diversity of its users, from athletes and children to commuters and spectators, ensuring the infrastructure supports everyday and exceptional activities. Architectural Language and Material Intelligence The Conjunto Deportivo La Paz forms a key anchor of the master plan. Its architecture is defined by modularity, climatic responsiveness, and material economy. The baseball pavilions, arranged as four repeated units, are designed with variations in field size and complexity to accommodate a wide range of users, from young children to professional-level athletes. The modular approach streamlines construction while allowing for phased expansion. Material decisions respond directly to the site’s climatic conditions. Steel frames provide structural clarity and durability, while open facades and ridge vents enable passive cross-ventilation. Shaded seating areas and integrated benches serve spectators and athletes, offering thermal comfort in the region’s high temperatures. These elements are not ornamental but spatial devices rooted in environmental performance and user comfort. The multipurpose building further expands the programmatic scope. Two offset gabled volumes house classrooms, offices, a library, and spaces for cultural activities such as dance and music. The flexible structure supports simultaneous functions without formal separation and encourages informal overlaps and civic interaction. Its open-air double-height space is a community forum that blurs the boundary between the building and the plaza. The architectural language is intentionally restrained. The use of organic forms in certain shaded structures softens the sports complex’s visual rigidity and fosters a more approachable atmosphere without compromising programmatic clarity. Infrastructure as a Social Catalyst The project’s impact extends beyond physical infrastructure. By decentralizing public amenities, the masterplan challenges the historic concentration of civic life along La Paz’s malecón. The project redistributes access to recreation, culture, and mobility by repositioning investment in underrepresented neighborhoods. Since its opening, the sports complex has functioned as a venue and a civic platform. It accommodates various events, including tournaments and cultural festivals, activating the site throughout the day and seasons. Providing official-quality baseball fields is particularly significant in a city with a strong sporting culture but limited infrastructure. The center fosters intergenerational engagement and strengthens communal ties. The Masterplan La Paz exemplifies how architecture, when embedded in broader territorial and social strategies, can exceed form-making limits. It demonstrates that infrastructural projects, often perceived as technical or neutral, can instead serve as active instruments for equity, resilience, and civic expression. The work of CCA | Bernardo Quinzaños offers a thoughtful model for integrating architecture and landscape into the city’s life, not through spectacle but through the careful choreography of space, structure, and use. Masterplan & Sports Complex La Paz Plans Master Plan | © CCA I Bernardo Quinzaños Master Plan | © CCA I Bernardo Quinzaños Bridge Floor Plan | © CCA I Bernardo Quinzaños Master Plan | © CCA I Bernardo Quinzaños Floor Plan | © CCA I Bernardo Quinzaños Section | © CCA I Bernardo Quinzaños Elevation | © CCA I Bernardo Quinzaños Section | © CCA I Bernardo Quinzaños Masterplan & Sports Complex La Paz Image Gallery About CCA | Bernardo Quinzaños CCA | Bernardo Quinzaños is a Mexico City-based architecture studio led by architect Bernardo Quinzaños. The firm focuses on socially driven and contextually responsive design, strongly emphasizing public infrastructure, urban regeneration, and environmental resilience. Through multidisciplinary collaborations and community engagement, CCA develops projects that integrate architecture with broader cultural and ecological systems. Credits and Additional Notes Lead Architect: Bernardo Quinzaños Design Team: Santiago Vélez, Begoña Manzano, Andrés Suárez, Carlos Molina, Cristian Nieves, Miguel Izaguirre, Sara de la Cabada, André Torres, Abigaíl Zavaleta, Víctor Zúñiga, Pablo Ruiz, Scarlett Díaz Client: SEDATU (Secretaría de Desarrollo Agrario, Territorial y Urbano), Municipality of La Paz Builder: HABA, Alan Haro Photographer: Jaime Navarro Video Production: Jaime Navarro Estudio, Ricardo Esquivel, Fernanda Ventura

Got a project that’s too wild for this world? Submit your conceptual works, images and ideas for global recognition and print publication in the 2025 Vision Awards, June 6th marks the end of the Main Entry period — click here to submit your work. What does the future of architecture hold? How will tomorrow’s buildings look, feel, and interact with the existing human-made environment? Which innovations are primed to help us reduce the footprint of construction, improve liveability, and redefine our idea of and relationship to space? These are the questions Architizer’s Vision Awards look to answer (or, at least offer some suggestions in lieu of concrete answers). Dedicated to the planned and unbuilt, which may or may not ever be, nominations represent one of our most unique human traits — the ability to imagine possibilities and impossibilities, to dream big and think well into unchartered territory. Unbuilt architecture, whether it is planned for construction or destined to remain on “paper,” should be more present in a newscycle of press releases for recently constructed or newly opened buildings. Indeed, many of the ideas presented in such projects directly respond to emerging crises exacerbated by our continued reliance on 20th-century practice’s approaches and materiality. Meanwhile, the evolution of architectural visualization allows architects to develop their wildest ideas and to communicate their boldest visions with more clarity and urgency than ever before. Kyathos I Mass Timber Arena by KAAF I Kitriniaris Associates Architecture Firm, Βεΐκου, Galatsi, Greece Many studios are looking to re-write the script with high tech innovations that simply would not have been possible in the recent past, or emphasize the urgent need to get back to traditional building styles that utilize natural resources and passive principles in a bid to bring down carbon emissions and other outputs with negative environmental impact. The Kyathos Mass Timber Basketball Arena proposal does both. It’s fitting that we should look at this concept in spring 2025. The Osaka Expo recently opened in Japan and features the largest free-standing wooden structure ever built. The Grand Ring encases the event site and a section of its coastal waters with a circumference of 61,035 square meters (656,975 square feet). To us, it reflects what is possible when modern engineering meets one of the world’s most sustainable materials. Likewise, realizing a size previously unthinkable with wood, Alexander Kitriniaris’ KAAF I Kitriniaris Associates Architecture Firm‘s plans for this Greek sports stadium offer a new vision for the athletic facility typology.  Kyathos I Mass Timber Arena by KAAF I Kitriniaris Associates Architecture Firm, Βεΐκου, Galatsi, Greece Employing a composite timber load bearing system, the project — commissioned by Galatsi Municipality — comprises a main court, spectator stands, internal mezzanine and gallery running the perimeter, changing rooms for athletes and referees, toilets, offices, and auxiliary spaces. Its total surface area is 4,000 square meters (43, 055 square feet), all of which complement the location. Designed for the site of an older, smaller wooden gymnasium, which fails to meet modern standards and is scheduled for demolition, the aesthetics reflect the surrounding Mediterranean flora grove. The name Kyathos refers to a type of painted pottery cup popularized in ancient Greece. The design of this was based on the petals of a milkweed belonging to the Euphorbia genus of plants. The countryside in this region is home to around forty such species, making the entire building an ode to indigenous nature and culture that has been here for millennia. When realized, it will stand in sharp contrast to the stereotype of arenas and stadiums most fans across the world have grown accustomed to, which often seem to have landed in situ, from another district if not planet. Kyathos I Mass Timber Arena by KAAF I Kitriniaris Associates Architecture Firm, Βεΐκου, Galatsi, Greece Above the main court level, the building’s structure is composed entirely of engineered wood, including glue-laminated timber, cross-laminated timber, and plywood. A timber support frame wraps the indoor gymnasium in a precise 45-by-30-meter (148-by-98 foot) rectangular grid. The roof is formed by ten identical isostatic frames. Symmetrical in design, these triple-arched assemblies combine beams and posts, reinforced where necessary by discreet metal connectors and stiffeners. Overhead, a lightweight polymer roof — waterproof, UV-resistant, recyclable, and printable — ensures durable protection while minimizing weight. In the renderings, an elegant lattice-like pattern, calls attention to these delicate considerations. At the heart of the design, the firm’s plans and visualizations emphasize, lies a bioclimatic structural shell (pictured below), conceived to provide constant shade while optimizing natural ventilation, daylighting, and passive cooling. Meanwhile, rainwater collected from the roof and shaped surfaces is reused for on-site irrigation, supporting the lush Mediterranean flora of the existing grove. Kyathos I Mass Timber Arena by KAAF I Kitriniaris Associates Architecture Firm, Βεΐκου, Galatsi, Greece This year, Saudi Arabia has begun working towards the World Cup 2034. Set to be held in November that year due to the incompatibility of regional climate and international football — or football at any level — the environmental price tag for this edition of the planet’s biggest soccer tournament is likely to be huge. While recent years have seen major strides taken to improve the impact of competitive sports, with last year’s Paris Olympics achieving more than 50% carbon reduction compared with the previous two Games, there are clear differences in what’s needed to host matches in cities like Jeddah and Riyadh. Not to mention the ultra-futurist urban experiment, NEOM — a metropolis that doesn’t exist yet.   Even during winter months, average temperatures across the desert state sit at a very hot 29°C. Humidity is high in coastal areas, while frost and snow are not uncommon overnight on higher ground. While it’s too early to tell the footprint of the vast mega-stadiums we’ve been promised for the competition, heating and cooling requirements are almost certainly going to be immense. We are, after all, experiencing a surge in global temperatures year-on-year and an increase in weather extremes of all kinds, and this will have significantly worsened in another ten years. More so, whether we’re powered with renewables or dinosaur fossils, high energy consumption of all types is not sustainable in the real sense.  Kyathos I Mass Timber Arena by KAAF I Kitriniaris Associates Architecture Firm, Βεΐκου, Galatsi, Greece Analyzing the legitimacy, authenticity and suitability of Saudi Arabia as a World Cup host nation is a conversation for another time. Perhaps another publication. But the fundamental point is we urgently need to rethink and reprioritize non-essential undertakings for the sake of the climate and our planet. When seen through this lens, the plans for Kyathos in Greece act as a symbol of progress and sets benchmarks for a future in which we acknowledge the need for our passions to be in balance with the Earth, rather imposing upon it. The fact this is achieved through an homage to a history in which we were more aligned to nature, and associated materials, but also utilizes modern engineering techniques and manufacturing methods of those materials, only accentuates the masterful vision behind this design.  Given the number of projects that will be designed between now and the stadium’s project 2028 construction date, and the ever-increasing concentration of carbon in our atmosphere, its urgent that we begin celebrating such plans now — while they’re still plans — rather than waiting for the design to become a physical building. After all, architecture starts before you put two bricks together (or, in this case, two pieces of timber). Learn More About Vision Awards Got a project that’s too wild for this world? Submit your conceptual works, images and ideas for global recognition and print publication in the 2025 Vision Awards, June 6th marks the end of the Main Entry period — click here to submit your work. The post Hoop Dreams: Greece Tips Off a New Vision for Arena Architecture appeared first on Journal.