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Futureproofing public space
Specifiers are often tasked with being fortune-tellers; they use information today to forecast how products will serve their purpose years in the future. We recognise the weight of responsibility you carry in these choices. Each product specification becomes a promise to communities that will depend on these spaces long after we’ve moved on.
It’s why we’ve spent considerable time asking ourselves the same difficult questions about resilience, durability, and genuine sustainability.
Durability emerges as the cornerstone of climate-conscious specification. Products engineered to withstand decades of use reduce replacement cycles, minimise resource consumption, and provide consistent performance regardless of weather extremes. This means understanding material behaviour, joint design, and protective finishes that gracefully handle thermal expansion, UV exposure, and moisture cycles.
Responsible sourcing extends beyond sustainability certificates. Climate-resilient specification requires understanding supply chain vulnerabilities, material provenance, and manufacturing processes that can adapt to changing conditions. Steel sourced from regions with stable energy grids, timber harvested using regenerative practices, and coatings formulated for evolving environmental stresses all contribute to long-term project success.
Modularity offers practical advantages in an unpredictable climate. Designs that allow for component replacement, seasonal adaptation, or incremental enhancement provide flexibility as conditions change. In case a severe weather event damages part of an installation, modular systems enable targeted repair rather than wholesale replacement.
End-of-life planning prevents tomorrow’s waste streams. Climate-resilient products should be designed for disassembly, material recovery, and beneficial reuse. This circular approach recognises that even the most durable products eventually require replacement, and responsible specification anticipates this transition from the outset.
Carbon footprint calculation must encompass the full product lifecycle. Manufacturing energy, transport emissions, installation requirements, maintenance needs, and end-of-life processing all contribute to a product’s climate impact. The lowest-carbon option often proves to be the most durable, locally-sourced solution that requires minimal intervention over its service life.
If you’re hoping to develop climate-resilient spaces, here are a few questions to ask along the way:
Material resilience:
Supply chain stability:
Adaptability:
Lifecycle transparency:
Carbon accounting:
Climate-resilient specification represents both responsibility and opportunity. Products that meet these elevated standards (those designed with long-term thinking, crafted from carefully-sourced materials, and engineered for adaptive reuse) create spaces that serve communities reliably while treading lightly on the planet.
Research into arts-in-nature experiences shows how creative interventions support children’s wellbeing through self-confidence, agency, calmness, and connectedness with their environment. These benefits scale upward, suggesting that all ages benefit from environments that engage both imagination and community spirit.
This impact also extends beyond the immediate vicinity. Areas with distinctive, community-connected public art often see increased foot traffic, stronger local business networks, and what researchers term “social capital” — the trust and reciprocity that makes neighbourhoods more than collections of buildings.
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