This team is developing new techniques and methods that help to understand the complex processes that occur under our cities and towns.
We utilise BGS databases and records to produce high-resolution 3D models. With these, we show how a better knowledge of ground conditions, artificial ground, soils, drainage and archaeology can help manage existing and future developments.
The geosciences have an important, but often underappreciated part to play in securing sustainable global cities. They can support urban innovation and city performance, reduce our environmental footprint and ensure we are resilient to natural hazards such as flooding and ground instability. This brochure provides information about our urban capability, highlighting case studies, technology and data products, to help provide solutions to city challenges.
Humans have had such an impact on the environment that scientists are debating whether we have entered a new geological time Epoch — The Anthropocene.
Many cities are developing 'future city' programmes where knowledge dissemination, cooperation, policy reform and urban design run in parallel with big data and smart technologies. We are working with those at the forefront of future cities thinking to ensure that urban geoscience research and data is embedded in this process and the value of the ground beneath cities is realised.
SuDS are drainage solutions that provide an alternative to the direct channelling of surface water through networks of pipes and sewers to nearby watercourses. What issues need to be considered? What information can BGS provide?
Developing a dynamic geoenvironmental model for the London area to address the 'anomalous' ground conditions of the biggest development programme in the UK for over 50 years.
Geophysical and geochemical work in the estuary, and around the River Clyde and its urban tributaries. Understanding the present levels and distribution of natural and contaminant chemistry in the estuary and river-bed sediments, and in urban and peri-urban soils
2D and 3D modelling of ground conditions and natural hazards.
With eight grand challenges, five bold future visions and 200 co-creators, the UK Water Partnership opened the debate on water for our future cities.
Stephanie explores the ideas emerging from a session at the 2015 Royal Geographical Society conference and the mix of social perspectives and practical applications...
Contact Stephanie Bricker for more information.