🏔 The Gries Glacier is a significant alpine glacier located in the 🇨🇭 Swiss Alps, in the canton of Valais.
Recent field measurements indicate that the glacier is melting at an accelerated rate. Between 2000 and 2023, it retreated by around 800 metres. Summer 2025 heavily affected the glacier, leading to a reduction in ice thickness of around six metres within just a few months.
This image, acquired by one of the Copernicus #Sentinel2 satellites, illustrates the retreat of the glacier over the past 9 years by comparing conditions on 23 August 2016 and 26 August 2025.
The open data acquired by the #CopernicusEU Sentinel-2 satellites, with its high spatial and temporal resolution, enables consistent monitoring of glacial dynamics.
🔗 to #ImageOfTheDay album in the bio.
Governments are shifting from voluntary measures to regulated mandates as escalating heat and carbon commitments reshape sustainable construction worldwide. The UK’s new National Heat Risk Commission signals that sustainable building design must now integrate overheating resilience as a measurable criterion of environmental sustainability in construction. Global policy trends reinforce this shift, with UN-backed frameworks promoting passive-first, low carbon building strategies across climate-stressed regions.
The Future Homes Hub’s Embodied Carbon and Resource Efficiency Board underscores how embodied carbon and resource efficiency are redefining compliance. Whole life carbon assessment, lifecycle assessment and environmental product declarations (EPDs) are becoming the baseline for sustainable building practices, linking design decisions directly to life cycle cost and long-term performance. The carbon footprint of construction is no longer a theoretical concern but a regulated metric influencing tenders, specifications and procurement standards.
Manufacturers are responding by prioritising low embodied carbon materials and renewable building materials within circular economy strategies. Products supported by verified data on embodied carbon in materials are emerging as preferred options for specifiers pursuing net zero whole life carbon outcomes. Bio-based solutions such as wood fibre insulation now exemplify eco-design for buildings, combining thermal performance with low carbon design that supports energy-efficient buildings and net zero carbon targets.
Across the sector, sustainable material specification and resource efficiency in construction are converging into measurable frameworks aligned with BREEAM and BREEAM v7 standards. These support decarbonising the built environment through circular construction strategies, end-of-life reuse in construction and green building products designed for longer lifecycle performance.
The direction is clear: policy, market and climate conditions are embedding whole life carbon thinking into every stage of sustainable construction. Those leading with verifiable data, sustainable design principles and circular economy in construction models will define the next generation of low-impact, carbon neutral construction aligned with global sustainability goals.
Whole Life Carbon is a platform for the entire construction industry—both in the UK and internationally. We track the latest publications, debates, and events related to whole life guidance and sustainability. If you have any enquiries or opinions to share, please do
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