Tender

Strategies for Rapid, Long-Term Structural Remediation of Compacted Agricultural Soils

DEPARTMENT OF ENVIRONMENT, FOOD AND RURAL AFFAIRS

This public procurement record has 1 release in its history.

Tender

19 Jan 2026 at 18:27

UK4 - Tender Notice
Summary of the contracting process

The Department of Environment, Food and Rural Affairs in the United Kingdom is currently in the tender stage of a public procurement process focused on "Strategies for Rapid, Long-Term Structural Remediation of Compacted Agricultural Soils." This project, under the industry category of research services, aims to mitigate soil degradation issues in agricultural settings. The procurement is taking place in London, with key deadlines for inquiry submissions by 20th February 2026 and tender submissions by 6th March 2026. The expected contract duration is from 13th April 2026 to 30th March 2029, with the possibility of a one-year extension. The procurement method employed is an open procedure, allowing for wide participation from potential suppliers.

This tender offers significant opportunities for businesses specialising in agricultural research, environmental services, and sustainable land management practices. Companies with expertise in soil improvement strategies or those capable of conducting large-scale agricultural experiments will find this project well-suited to their capabilities. The tender process prioritises both price and quality, ensuring that innovative solutions are rewarded alongside competitive pricing. Small and medium-sized enterprises (SMEs) and those with a social enterprise orientation are particularly encouraged to participate, providing a chance to grow their business in collaboration with a central government public authority.

How relevant is this notice?

Notice Information

Notice Title

Strategies for Rapid, Long-Term Structural Remediation of Compacted Agricultural Soils

Notice Description

Background Conventional intensive agriculture has, for the past 70 years, relied on a system of agricultural interventions to grow food, characterised by intensive tillage, use of agrochemicals and frequent periods of bare soils or monocultures. This regime has resulted in widespread soil degradation, with our arable soils containing the least carbon, lowest diversity of soil fauna and highest density of all UK soils (Countryside Survey, 2007 soils report). Regenerative agriculture now hopes to address this soil degradation while maintaining productivity by adopting techniques that more closely mirror natural processes, such as avoiding soil disturbance, sowing diverse crops, maintaining plant cover, and ensuring ongoing supply of organic matter. However, despite abundant evidence that, in the long-term, regenerative techniques are better for maintaining soil structure and function, a transition from a previously degraded soil to a regenerative, e.g. no till, approach may result in little recovery from soil degradation, provide poor returns for the farmer, and may result in farmers returning to the conventional techniques they'd previously abandoned. Approaches are required to rapidly return a degraded soil to a state which is resistant to degradation and resilient to the impacts of regenerative techniques, to enable farmers to fully embrace regenerative approaches and benefit from them in the long term, and which can be encouraged through agri-environment schemes, as part of the wider drive to improve soil health. This project aims to conduct a large-scale field experiment to evaluate a range of approaches to rapidly alleviate soil degradation and deliver resilient soils suited to long-term regenerative agriculture, and to use this to identify and develop clear management guidance for farmers on how to repair degraded soils to deliver lasting resilience. In this project the Authority is concerned with structural degradation, rather than purely chemical or biological degradation (e.g. land contamination or loss of biodiversity). It is recognised that structural degradation will have interactive effects with soil chemistry and biology, and that both these factors may influence recovery. Structural degradation is broadly synonymous with compaction, and results from weak soil aggregates collapsing into pore spaces, to leave a structureless mass with few, poorly connected, large pores. It can be indicated by various techniques such as measurement of bulk density, visual evaluation, infiltration, x-ray tomography etc. The resilience or susceptibility of soils to degradation or rapid loss of structure may be indicated by aggregate stability, or assessments of physical soil strength. Recovery of physical condition would be viewed as the soil reaching a self-sustaining state characterised by a greater volume of larger, better connected, pores. This would usually be accompanied by an increase in overall soil volume, achieved by upwards movement of soil material. Such upwards movement might be achieved by mechanical disruption of the soil, but also through biological activity, frost heave, or shrink-swell. A resistant or resilient structure may be maintained by strengthened aggregates, presence of more non-tessellating soil particles, or by ongoing dynamic soil movement by soil organisms. Compaction of soils may occur in different locations in the soil profile. Repeated cultivation to a standard depth, using heavy machinery, often results in compaction below the cultivated layer which is exacerbated by each machinery pass. Subsoil is usually wetter than topsoil and may therefore compact more readily under machinery weight. A compacted subsoil will limit root growth and may provide a slowly permeable or impermeable layer which may result in waterlogging in the topsoil. However, regularly cultivated topsoil also compacts. The topsoil is the layer of soil which interacts with rainfall, receives traffic, receives surface fertilisers and other agrochemicals and receives inputs of organic matter. It is the location of most decomposition, nutrient cycling and where the majority of soil life lives. While temporary reduction in density is delivered by cultivation, the rapid re-compaction of a poorly functioning topsoil will result in increased runoff, lower support of machinery or other traffic, poorer processing of fertilisers and chemicals, slower recycling of organic matter, and poorer biodiversity. Furthermore, the success of reduced or no-till agriculture relies initially on the ability of the topsoil to maintain its structure and function without the need for physical intervention. While it is recognised that compacted subsoils are a matter of concern, the primary focus of this project is on compacted topsoils under combinable arable cropping rotations. A recent systematic review and meta-analysis was commissioned by Natural England (not yet published) to explore the evidence base for approaches to deliver soil structural remediation. This project identified that reduction of cultivation intensity, addition of organic materials, increased rotational diversity and minimising vehicular traffic all showed longer-term benefits to soil structure, and would be likely to interact positively. However, this conclusion was based on separate studies and did not investigate this interaction effect. Furthermore, the review revealed only the impact of system-based, long-term approaches, and did not identify studies that could indicate the most rapid way to initiate the regeneration of improved soil structure on structurally damaged, degraded soils. No studies were mentioned that identified mechanical soil loosening or cultivation as a mechanism for delivering long term reductions in soil structural degradation. However, many organisations and advisors continue to suggest some form of cultivation as an important, even necessary, component of management to remediate damaged soil structure. Previous Defra-funded studies (BD5001) have looked at the impacts of soil loosening and introduction of diverse grassland plants on soil compaction in grassland soils, but the study was limited in its ability to look at compaction alleviation, partly due to nature of the experimental study sites, in which the soils were only moderately compacted. The study concluded that the impacts of loosening in grasslands had a temporary effect on infiltration and visual soil assessment but did not significantly affect bulk density or microbial communities or processes (N2O flux). However, in the one site where earthworms were studied, soil loosening had a detrimental effect on earthworms, particularly anecic (deep burrowing) earthworms that are most likely to deliver decompaction of soils by deposition of soil as worm casts on the soil surface. The Authority requires that these issues are explored using experimental approach that demonstrates the comparative and interactive success of a range of approaches to remediate severely compacted soils in England, using existing compacted soils, exploring the role of cultivation, organic matter, and diverse plants, as means to accelerate the delivery of resilient, improved soil structure. The project should consider measuring the impacts of treatments on subsoils but should not focus on remediation treatments that are aimed solely at subsoil compaction unless these are known to be a significant constraint to the adoption of regenerative agriculture.

Lot Information

Lot 1

Renewal: Possibility of 1 year no cost extension to allow for any delays as a result of unseasonal weather or other unforeseen causes of delays in the field experiment.

Notice Details

Publication & Lifecycle

Open Contracting ID
ocds-h6vhtk-06094d
Publication Source
Find A Tender Service
Latest Notice
https://www.find-tender.service.gov.uk/Notice/004554-2026
Current Stage
Tender
All Stages
Tender

Procurement Classification

Notice Type
UK4 - Tender Notice
Procurement Type
Standard
Procurement Category
Services
Procurement Method
Open
Procurement Method Details
Open procedure
Tender Suitability
SME, VCSE
Awardee Scale
Not specified

Common Procurement Vocabulary (CPV)

CPV Divisions

73 - Research and development services and related consultancy services

CPV Codes

73110000 - Research services

Notice Value(s)

Tender Value
£700,000 £500K-£1M
Lots Value
£700,000 £500K-£1M
Awards Value
Not specified
Contracts Value
Not specified

Notice Dates

Publication Date
19 Jan 2026Today
Submission Deadline
6 Mar 20262 months to go
Future Notice Date
Not specified
Award Date
Not specified
Contract Period
12 Apr 2026 - 30 Mar 2029 2-3 years
Recurrence
Not specified

Notice Status

Tender Status
Active
Lots Status
Active
Awards Status
Not Specified
Contracts Status
Not Specified

Buyer & Supplier

Contracting Authority (Buyer)

Main Buyer
DEPARTMENT OF ENVIRONMENT, FOOD AND RURAL AFFAIRS
Contact Name
DgC
Contact Email
procurement@defra.gov.uk
Contact Phone
03459335577

Buyer Location

Locality
LONDON
Postcode
SW1P 4DF
Post Town
South West London
Country
England
Major Region (ITL 1)
TLI London
Basic Region (ITL 2)
TLI3 Inner London - West
Small Region (ITL 3)
TLI35 Westminster and City of London
Delivery Location
Not specified
Local Authority
Westminster
Electoral Ward
St James's
Westminster Constituency
Cities of London and Westminster

Further Information

Notice Documents

Open Contracting Data Standard (OCDS)

View full OCDS Record for this contracting process

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The Open Contracting Data Standard (OCDS) is a framework designed to increase transparency and access to public procurement data in the public sector. It is widely used by governments and organisations worldwide to report on procurement processes and contracts. 

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While temporary reduction in density is delivered by cultivation, the rapid re-compaction of a poorly functioning topsoil will result in increased runoff, lower support of machinery or other traffic, poorer processing of fertilisers and chemicals, slower recycling of organic matter, and poorer biodiversity. Furthermore, the success of reduced or no-till agriculture relies initially on the ability of the topsoil to maintain its structure and function without the need for physical intervention. While it is recognised that compacted subsoils are a matter of concern, the primary focus of this project is on compacted topsoils under combinable arable cropping rotations. A recent systematic review and meta-analysis was commissioned by Natural England (not yet published) to explore the evidence base for approaches to deliver soil structural remediation. 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Previous Defra-funded studies (BD5001) have looked at the impacts of soil loosening and introduction of diverse grassland plants on soil compaction in grassland soils, but the study was limited in its ability to look at compaction alleviation, partly due to nature of the experimental study sites, in which the soils were only moderately compacted. The study concluded that the impacts of loosening in grasslands had a temporary effect on infiltration and visual soil assessment but did not significantly affect bulk density or microbial communities or processes (N2O flux). However, in the one site where earthworms were studied, soil loosening had a detrimental effect on earthworms, particularly anecic (deep burrowing) earthworms that are most likely to deliver decompaction of soils by deposition of soil as worm casts on the soil surface. 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