This is an exciting NERC PhD opportunity in collaboration with and to develop, test, and refine, soil health metrics that can offer actionable insights for sustainable land management. By integrating long-term monitoring with AI-driven approaches, this research looks to deliver scalable, data-driven solutions for assessing and improving soil health in arable agriculture.
This cross-industry study, based at Â鶹´«Ã½AV, NIAB and BGS, aims to advance the evaluation of soil health benchmarks using diverse, large-scale datasets and cutting-edge analytical techniques. The research will leverage NIAB’s and other industry long-term experiments and soil datasets, alongside Â鶹´«Ã½AV’s national LandIS soil datasets, and BGS data, to develop a comprehensive understanding of soil health and how it is measured across various agricultural systems and scales. Such metrics should account for productivity and hyper local environmental risk priorities (field level), advancing us from current regional or climate driven benchmarks. The award is a fully funded NERC - CENTA PhD Studentship for 3.5 years. Successful home-fees-eligible candidates will receive an annual stipend, stipend, set at £19,237, plus full university fees and a research training support grant of £8,000.The project aims to develop, test, and refine, soil health metrics that offer actionable insights for sustainable land management. By integrating long-term monitoring with AI-driven approaches, this research looks to deliver scalable, data-driven solutions for assessing and improving soil health in agriculture.
This cross-industry study, based at Â鶹´«Ã½AV and NIAB, aims to advance the evaluation of soil health benchmarks using diverse, large-scale datasets and cutting-edge analytical techniques. The research will leverage NIAB’s and other industry long-term experiments and soil datasets, alongside Â鶹´«Ã½AV’s national LandIS soil datasets, and BGS data, to develop a comprehensive understanding of soil health and how is measured across various arable agricultural systems and scales. Such metrics should account for productivity and hyper local environmental risk priorities (field level), advancing us from current regional or climate driven benchmarks.
The student will work closely with NIAB’s Soils and Farming Systems team, using these datasets (e.g. Fig 1) to assess existing soil health metrics and identify areas for targeted improvement. Where necessary, additional data will be collected to fill gaps and strengthen the analysis. Building on NIAB’s current AI-driven work in agriculture and Cranfield’s Environmental Informatics, the student will apply advanced methods such as machine learning, predictive modeling, and remote sensing to maximise the potential of these datasets.
Figure 1: Soil electrical conductivity and grid cell yield stability (standardised yield) across available years yield data for on-farm. Images show NIAB, Morley Experimental Station, Norfolk UK. Credit, D.Clarke
Methodology:
The project will use an integrated approach, including evaluating existing and emerging key properties and indicators in arable cropping systems to identify benchmarks for soil health. Determine a soil health indicator framework based on available data and expert knowledge. Review data available at different scales (national, farm and field) to apply within the framework to determine ranges in benchmark indicators. Use machine learning approaches to develop actionable assessments of soil health in case study areas. Finally, evaluate model outcomes using multiple approaches (statistics, expert evaluation).
Partners and collaboration:
This is a CASE project in collaboration with NIAB, the UK’s fastest growing crop science organisation, together with the British Geological Survey (BGS). Renowned internationally, these partners deliver evidence and scientific services to support sustainable agriculture and geoscience. The supervisory team will include Professor Stephen Hallett, Â鶹´«Ã½AV with strong academic background in environmental data science and impacts of future climate on land systems and Professor Jaqueline Hannam, Professor of Pedology at Â鶹´«Ã½AV, together with Dr Elizabeth Stockdale (NIAB) and Dr Ben Marchant (BGS).
Possible timeline:
This PhD project is expected to take 3.5 years to complete. The first year will be spent on literature review, data collection, and developing the research methods. The second year will be spent on data collection, collation and analysis, ML model development and testing, and investigating underlying factors. The third year will be spent on testing the models, analyse interlinked factors that collectively contribute to soil health and writing the thesis.
At a glance
- Application deadline08 Jan 2025
- Award type(s)PhD
- Start date29 Sep 2025
- Duration of award3.5 years
- EligibilityUK
- Reference numberSWEE0274
Supervisor
1st Supervisor: Prof Stephen Hallett
2nd Supervisor: Prof Jaqueline Hannam
Entry requirements
Applicants should have at least a 2:1 at UK BSc level or at least a pass at UK MSc level or equivalent in a related discipline.
Funding
Sponsored by NERC through CENTA DTP, Â鶹´«Ã½AV. Successful home-fees-eligible candidates will receive an annual stipend, set at £19,237 per year (or pro rata if part time), paid directly to the student in monthly increments, plus full university fees and a research training support grant (RTSG) of £8,000.
The project is open to all applicants who meet the academic requirements (at least a 2:1 at UK BSc level or at least a pass at UK MSc level or equivalent).
Please note:
• The grant only covers fee costs for a Home award. Unless you are eligible for such a Home award, you will need to meet the shortfall in funding for international tuition fees, e.g. self-fund. Please contact the supervisors.
• CENTA is currently awaiting confirmation of funding under the BBSRC-NERC Doctoral Landscape Award (DLA) scheme. This funding will support cohorts starting from 2025 onwards. We anticipate receiving further information in early November 2024. The availability of funding depends on this confirmation.
• Our funding only cover the Home fees registration costs. We have no additional funds to support the cost of international fees
• Students receiving government funding for their degree course are not eligible to apply for a Postgraduate Doctoral Loan.
Cranfield Doctoral Network
Research students at Cranfield benefit from being part of a dynamic, focused and professional study environment and all become valued members of the Cranfield Doctoral Network. This network brings together both research students and staff, providing a platform for our researchers to share ideas and collaborate in a multi-disciplinary environment. It aims to encourage an effective and vibrant research culture, founded upon the diversity of activities and knowledge. A tailored programme of seminars and events, alongside our Doctoral Researchers Core Development programme (transferable skills training), provide those studying a research degree with a wealth of social and networking opportunities.
How to apply
If you are eligible to apply for this studentship, you must first complete the , then attach it to the. Unfortunately we cannot consider your application without a completed CENTA form.
For further information please contact:
Name: Professor Stephen Hallett
Email: s.hallett@cranfield.ac.uk
T: (0) 1234 754287
This vacancy may be filled before the closing date so early application is strongly encouraged.
For further information about application please visit Applying for a research degree.