Impoundments on rivers are often critical for purposes such as power generation and water supply yet they can also reduce or prevent the natural movement of sediment downstream. Accumulation of sediment behind an impoundment can pose a risk to its intended use and result in adverse ecological consequences downstream due to sediment not being naturally replenished. This project developed initiatives to raise awareness of the commercial and environmental risks associated with sediment discontinuity caused by impoundments.

In recent years there has been an increased awareness of the need to address surface water runoff in urban environments. This includes understanding where flood risks may arise, increase, or change in the future due to climate change and increased urban creep, the increased conversion of gardens and other vegetated areas which help to soak up rain. To support resilient surface water management in urban environments, the identification, efficacy, cost effectiveness and prioritisation of implementable flood risk management solutions is essential.

This project aimed to compile an evidence base and offer recommendations informing policy and practice regarding how land use changes may impact the amount of water available to private water supplies (PWS). The focus was on the impacts to water availability from emerging land use trends of tree planting (afforestation and agroforestry) and wind farm development in Scotland.

PFAS are a large group of synthetic chemicals with many industrial and domestic applications. In Scotland, a drinking water standard o

Scotland’s various policies to protect its soils from degradation create economic benefits. In this project the economic costs of soil degradation in Scotland were estimated. Using the best available data the impacts of soil compaction, sealing and contamination were assessed. The extent of these degradation processes was then used to calculate the costs across Scotland. Compacted soils can cost farmers £15 to £209 per ha in extra fuel use. The annual combined impact on crop yields and fuel use across Scotland is likely to cost between £25 million and £75 million.

Scotland’s climate is changing, and we expect to see further changes in seasonal precipitation patterns that may increase the frequency and severity of water scarcity conditions, including droughts. Drought is a prolonged period of abnormally low rainfall, leading to water scarcity and environmental stress (formally defined in Scotland as when river water levels are less than 5% of their normal flows, for more than 30 days). Overall, droughts are predicted to increase particularly in the eastern parts of Scotland.

The aim of this project was to inform, prioritise, and coordinate actionable monitoring and policy-based approaches to identify, assess, and mitigate risks from substances of increasing concern to Scotland’s water environment. Contaminants of increasing concern (CICs) comprise a diverse range of substances and organisms, including chemical groups such as pharmaceuticals and pesticides; biological contaminants such as pathogens and antimicrobial-resistant (AMR) genes; nanomaterials; and microplastics.

Climate change is increasing our exposure to fluvial flooding in Scotland. Physical and mental health are negatively impacted by flooding, with the greatest health impacts in the UK and Scotland on mental health. This CREW Policy Brief reviews the literature on the public health impacts of fluvial flooding, including physical and mental health impacts, and identifies factors that influence health resilience to flooding.