SEFARI Gateway (Scotland’s Centre of Expertise for Knowledge Exchange and Innovation) drives knowledge exchange and innovation at the science–policy interface, ensuring research addresses Scotland’s urgent climate, biodiversity, and food security challenges. Through specialist advisory groups, fellowships, and cross-sector partnerships, Gateway links research outputs to policy and practice, maximising impact across government priorities.
This study investigated whether peatland restoration increases liver fluke (Fasciola hepatica) risk to livestock. Conducted in Shetland with NatureScot and local crofters, the research combined diagnostic testing (faecal egg counts), habitat surveys, and molecular testing of mud snails (Galba truncatula). Restored peatlands were found to be acidic, waterlogged, and largely mud-free, making them unsuitable for the snail host. Consequently, infection risk on restored sites was low, with fluke presence confined to marginal grazing areas such as paths and drains.
We show how much Scotland’s climate has already changed and how it may potentially change in the future, including extremes what this means for Scotland’s Natural Capital. Outputs achieved substantial impact through raising awareness amongst policy teams, agencies and businesses. It achieved capacity building within policy teams and politicians and associated conceptual change though recognition of urgency for action due to improved understanding of the scale of change and spatial and temporal variability of climate impacts and consequences.
SPICE (Social Prescribing for Improving Communities’ Eating Practices) explores the feasibility of embedding a brief, MAP-informed (Motivation–Action–Prompts model) healthy eating intervention within Aberdeen’s social prescribing service. Co-designed with Link Practitioners and informed by GP questionnaires, as well as interviews with community food providers and their service users, the intervention addresses food insecurity and poor diet through person-centred, non-judgmental conversations.
Living Labs (LL) seek to enable people living in remote, rural and island communities to tackle place-based challenges. Through an inherently action-based and participative approach, the research supports dialogue between different layers of governance. LLs respond to the needs of communities and aim to understand the effectiveness of interventions implemented in them, revealing new insights into well-known problems and including lesser heard voices.
The assessment of carbon stores, flood mitigation potential and bird, bat and small mammal occurrence within characteristic upland farmland, semi-natural and natural habitats is allowing the multiple environmental benefits arising from different habitats on upland farms to be better understood. A particular focus has been put on the innovative use of acoustic sensors and camera-traps to assess biodiversity and digital sensors to monitor water levels.
In response to growing concerns about biodiversity loss in agriculture, SEFARI scientists are evaluating the environmental impacts of antiparasitic treatments used in UK livestock farming. These essential veterinary medicines, whilst critical for animal health and welfare, can adversely affect non-target species such as dung beetles, soil and aquatic fauna. Insects contribute to healthy farm ecosystems including nutrient cycling, soil health, pest suppression and serving as a food source for wildlife.
Team members of the SRP-funded Healthy Soils for a Green Recovery project are supporting a transition towards Regenerative Agriculture in Scotland. Working with leading experts, practitioners, and using data from SRP-funded projects such as Healthy Soils, team members led the writing of and contributed to an influential evidenced-based British Ecological Society report and a UK government POSTNote on Regenerative Agriculture.
Cattle Tracing System (CTS) data analysis underpins a series of evidence papers to policymakers. Initial analysis informed a conceptual paper on opportunities for the introduction increased conditionality in the Scottish Suckler Beef Support Scheme. Bespoke analysis was then undertaken for the SSBSS Reform Stakeholder Group in helping it form advice on scheme design to officials and Ministers.
Integrated technologies are used to improve livestock productivity and welfare, making it easier for farmers to track individuals and individual responses. Two different systems are being developed: one using in abattoir real-time imaging technologies to assess carcass traits and quality, giving moderate-high accuracy and the second one based on a calf ear-tag sensor combined with environmental and automatic feeder data.
The statistical design of a soil monitoring framework influences the questions that it may be able to answer and the magnitude of change that will need to have taken place before a trend is detectable. We are developing options for how best to use valuable legacy data to underpin a monitoring framework and methodologies for the integration of data collected through different sampling schemes and at different spatial scales. This will allow a range of policy questions to be addressed by providing a better overall understanding of soil condition and change and the associated uncertainties
Nature-Based Solutions (NbS) have been identified as one solution to many water related environmental pressures but the widespread rollout of NbS is slow. Here, we highlight findings from several measure types (e.g., leaky barriers, river restoration, 3D buffers) to show how measures can be optimised to deliver benefits to the water environment. We will do this with case study examples and show how measure designs have been utilised by stakeholders.
Some STEC are priority zoonotic pathogens that place a significant burden on Scottish health services, for example: the 2024 O145 outbreak and increasing human clinical non-O157 STEC cases. To augment existing knowledge about livestock reservoirs in Scotland, we’ve investigated STEC occurrence in Scottish sheep, farmed deer, and dairy cattle.
Sows giving birth and suckling their piglets are kept in farrowing crates which severely restrict their movements and behavioural freedom. Momentum for change to free or flexible (i.e. temporary) farrowing systems is growing, with voluntary or legal bans coming in across EU countries, and a major debate in the UK pig industry. SRUC has a 40-year history of applied research and knowledge exchange in this area, influencing farming stakeholders, regulators and policy makers.
The National Soil Archive and Scottish Soils Database (Underpinning National Capacity) include georeferenced samples and data from systematic National Soil Inventory surveys (NSIS 1978-87, NSIS2 2007-9). Within the current SRP, advanced statistical and machine learning approaches are being applied to complex multivariate NSIS2 datasets of chemical, physical and biological characteristics (e.g., infrared spectra, X-ray diffraction, phospholipid profiles).
As part of a multi-disciplinary biosecurity project, we have developed practical resources to help farmers prevent and manage disease transmission in livestock. Initially targeting Johne’s Disease, PRRS, and Roundworm, our work now promotes broader on-farm biosecurity practices. Outputs include discussion support tools, a sampling game, videos, animations, and AI-powered tools, designed for farmers, vets, advisors, and students. By making biosecurity engaging, accessible, and easy to embed in everyday practice, these resources encourage reflection and behaviour change.
The sustainability of rural economies requires a healthy population structure and local availability of necessary skills. This
can be achieved by retaining the current population and attracting new dwellers. Accordingly, the Scottish Government’s
National Population Strategy aims to promote “a population [that] is more balanced and distributed across Scotland.”
While often desirable from the naturalistic point of view, rural, island and remote locations are generally characterised
The Scotland’s Land Reform Futures project (JHI-E3-1), as well as additional policy responsive projects, have involved dataset review, integration, and novel analyses seeking to inform the development of the Land Reform (Scotland) Bill (currently passing through Parliament). This has included work identifying and characterising large landholdings that may fall in scope of provisions set out in the Bill and explores the impact of spatial contiguity of large landholdings (at the request of the Land Reform Bill team).
Nutritional interventions to reduce enteric methane or ammonia emissions from cattle are applied with no consideration for trade-offs with other gaseous emissions. Lack of facilities measuring multiple gases simultaneously means there is little data to investigate trade-offs. We conducted a meta-analysis of published studies investigating enteric methane or ammonia mitigation from dairy cows where both gases were measured or one could be estimated by proxy. We found potential for win-win scenarios, particularly with ammonia mitigation strategies.
Work in the current, and previous, Strategic Research Programmes has developed a new vaccine to control louping ill, a tick-borne disease primarily affecting sheep and red grouse. Louping ill causes significant economic losses for farmers and grouse estates in Scotland and is increasing in prevalence. Working together with key industry partners, and with funding from farming and moorland stakeholders, a novel approach is now being taken to commercialise the vaccine.
Gold-standard welfare assessments of dairy cattle, e.g., Qualitative Behaviour Assessment (QBA), require training and are time consuming in a sector with labour constraints. Utilising existing sensors on farm for management purposes (e.g. oestrus detection) for welfare evaluation could benefit farmers and the wider industry. As with QBA, sensors enable early detection of health/welfare issues, supporting management decisions and productivity, without substantial labour demands.
Using capacity developed since 2008 (Brian Pack inquiry, Agricultural Support), SRP research shaped the 2015 reform of payment regions. The 2022-27 SRP has supporting policy options from the Vision for Agriculture. In particular, the analysis, of the impact and uptake of Enhanced Conditionality (EC) measures (with SRP experts from biodiversity, soils and waters). EC will fundamentally reshape what public subsidies deliver for climate and biodiversity crises.
Disease-related crop losses threaten UK potato production, with £50 million spent annually controlling late blight alone. Potato cyst nematodes further endanger the seed industry. Genomic tools, particularly diagnostic Resistance gene enrichment Sequencing (dRenSeq), have transformed resistance breeding. Our research generated high-resolution disease resistance gene profiles for 657 commercial cultivars and 200 wild accessions worldwide.
Mycotoxins are toxic fungal food contaminants which pose an emerging health risk and major cost to cereal production. Regulatory mycotoxin limits in food are developed by the EU and UK, and significant data gaps exist in mycotoxin occurrence and risk factors impacting prevalence. This project has demonstrated frequent mycotoxin occurrence in Scottish cereals and cereal foods. Data on occurrence of regulated mycotoxins and mycotoxin metabolites have been submitted to the Food Standards Agency and Food Standards Scotland as well as the European Food Safety Authority.
Work undertaken in SRUC-E2-2 (Reimagined policy futures: Shaping sustainable, inclusive and just rural and island communities in Scotland) has reviewed the evolution of rural policies and policy approaches in Scotland. This work has informed policy design in Scotland - particularly the forthcoming Rural Delivery Plan and recently launched Rural Assessment Toolkit - and beyond, including the guidance that has been issued by the European Commission to shape the rural proofing activities of Member States, and by the WHO and OECD on rural proofing in global contexts.
Estimating future behaviours is a key uncertainty in policy planning. Farming practice adoption work has mainly focused on farmers, often ignoring how the practice would fit in the farm operations and the role of policy and industry. We are investigating how the ADOPT tool (https://adopt.csiro.au/), which considers these aspects, can be useful in policy planning and how, and whether, it can aid comparative discussions on policy interventions. We selected two practices of high interest for Scottish Government: cover crops and 3-NOP.
Scottish hill and upland sheep are adapted to produce high-quality protein from poor-quality marginal land. With increased focus on climate change, efficiency and environmental impact of livestock production, “Breeding and managing Scottish hill sheep to meet future economic, environmental and climatic challenges” assesses genetic selection and/or crossbreeding, alongside management strategies, to achieve these goals.
Through Diageo funding from 2023-2025 we undertook soil health testing across Scotland (20 farms and 80 fields) utilising biological, chemical and physical indicators of soil health. Ongoing and historic research within the strategic research programme supported the development of these agricultural soil health indicators and guided sampling. Developed indicators have been validated on our research platforms (for example the Centre for Sustainable Cropping and organic amendment platform) and at plot scales, supporting the deployment of robust indicators at farm and field scales.
Reform of Scottish Agricultural policies imply environmental objectives are incorporated within traditional goals of food security and farm income viability. However, setting realistic but ambitious targets across economic, environmental, and biophysical dimensions remains a major challenge for policymakers. We present work using four years of the Farm Business Survey data showing the use of estimation approaches to identify best practices across income, environmental and food security domains.
C4 WP4 research provides robust evidence to accelerate Scotland’s transition from single-use to reusable packaging. A national study on returnable packaging identified adoption-ready consumer segments, key behavioural barriers, and the packaging attributes that shape decisions. Complementary experiments on single-use cups demonstrated that a 25–30p charge can halve disposable use. Together, these findings specify charge thresholds, deposit structures, and targeting strategies.
This research project focusses on understanding the social and behavioural aspects of transition to a circular economy in Scotland. The project aims to better understand the dynamics of behaviour change over time from the perspective of individuals, households and organisations. A lack of data on uptake of household circular economy behaviours and an absence of available validated instruments to measure uptake across relevant behaviours led to the development of the Circular Behaviours Scale, drawing on knowledge of best practice in psychometric methods.
An advanced toolkit of statistical methods enables quantification of hidden spread of pests and diseases in Scotland making best use of limited data. It estimates costly-to-measure characteristics and produces risk assessments to target control efforts. Insights support non-academic partners, including advice to Scottish Forestry on great spruce bark beetle spread related to changes to the West of Scotland Pest Free Area.
Virus infection in seed potato crops has surged across Europe over the last five years, threatening Scotland’s global reputation for producing high-quality seed. A multi-pronged approach was developed: mapping changing aphid and virus populations and their traits, using AI to create national early warning systems for forecasting risk, and field-testing integrated pest management (IPM) strategies—combining monitoring with companion crops and pesticide alternatives. This real-world approach guides best practice, helping growers time interventions and improve crop protection.
Growing crop mixtures can increase yields, reduce input costs and support biodiversity. We have identified species/variety combinations, management conditions, and machinery adaptations that optimise these benefits from crop mixtures. This work has direct impact on farming practice and uptake by Scottish farmers through >50 collaborative trials to grow mixtures on farms across Scotland. By working with farmers to design and monitor trials, we are quantifying mixture performance relative to monocrops and demonstrating the technical feasibility of mixture cropping.
