Quantifying the combined nutrient enrichment, pathogenic, and ecotoxicological impacts of livestock farming on UK rivers

Lead Research Organisation: University of Bristol
Department Name: Geographical Sciences

Abstract

Livestock farming is the dominant farming type and source of organic matter pollution in UK freshwaters, with over 9.65M cattle and 32.7M sheep on 10M hectares of grassland, representing 57% of all agricultural land in the UK.

When organic matter from livestock excreta is flushed to waters it drives changes in their physical, chemical and ecological quality and function. These include changes to the turbidity (and therefore light penetration), conductivity, benthic substrate character and oxygen regimes of the receiving waterbody, the delivery of agrochemicals including anti-microbial (antibacterial, antifungal, antiparasitic and antihelminth agents) and hormone compounds, both natural and derived from veterinary pharmaceutical use, all of which are likely to drive ecotoxicological impacts in receiving waters. They also contain nutrient-rich dissolved and particulate organic matter likely to drive eutrophication impacts in freshwater ecosystems, while also presenting a significant challenge for waters abstracted for human consumption. Pathogens, including bacteria and viruses, add to this portfolio of stressors, presenting a persistent problem for recreational water use, fisheries and shellfisheries in livestock farming areas.

These stressors are likely to be present in most livestock excreta, but the extent to which different production systems and manure handling practices remove or reduce their concentration prior to their transfer to freshwaters is poorly understood. Nor do we understand the impact of the environmental character of the receiving waterbody on these ecotoxicological and nutrient enrichment impacts and pathogen persistence. Climate change-induced increases in water temperature and alterations in flow regime may then accelerate biological processing of this material, while the increased frequency of rainfall events predicted for the UK may overwhelm on-farm storage capacity, confounding efforts to reduce livestock impacts on freshwaters.

There is thus an urgent need to understand interactions between these stressors, environment and management in driving changes in UK freshwater quality.

QUANTUM will address this substantial knowledge gap, allowing us to better understand livestock farming as a key driver of changing UK quality in the livestock-dominated catchments of Wales, Scotland and Northern Ireland, and throughout the north and west of England. This new knowledge will help us create models that can better predict how UK freshwater quality functions in the presence of these multiple stressors, and how it is likely to change in future in response to climate change and mitigation efforts.

We will achieve this by:

1. Developing evidence on the composition of livestock excreta, how this varies according to manure handling and management, and their chemical and microbiological persistence in freshwaters, which will provide a new framework to define and contextualise pressures they exert on UK freshwaters.

2. Exploring how different freshwater biota respond to this portfolio of stressors, allowing us to develop a predictive understanding of likely ecosystem responses to livestock management practices across the UK.

3. Understanding how livestock excreta perturb the state of freshwater ecosystems, and how the multiple stressors in these fluxes interact with each other and environmental character, which is essential if we are to understand how these freshwater communities assemble, function and respond to changing livestock farming practices, under current, mitigated and climatically-altered conditions.

4. Identifying the livestock production practices and management approaches likely to generate the lowest possible impacts on freshwater chemistry and ecosystems, which will provide critical underpinning for the developing policy and practice by our project partners, to minimise livestock farming impacts on UK freshwaters under ambient and changing climate.

Publications

10 25 50
 
Description NERC QUANTUM Project Partner 1 - Defra 
Organisation Department For Environment, Food And Rural Affairs (DEFRA)
Country United Kingdom 
Sector Public 
PI Contribution Working in collaboration with Defra to test current policy and practice through field experimental research in Work Packages 1-4.
Collaborator Contribution Project Advisory Board member. Contribution to scenario development in Work Package 5.
Impact Delivery of experimental design, and provision of advice via Project Advisory Board.
Start Year 2023
 
Description NERC QUANTUM Project Partner 2 - Harper Adams Univeristy 
Organisation Harper Adams University
Country United Kingdom 
Sector Academic/University 
PI Contribution Collaboration on the development of livestock excreta sampling techniques for Work Package 1.
Collaborator Contribution Member of Project Advisory Board. Direct support for excreta sampling for Work Package 1 at Harper Adams University farm. Will contribute in addition to the development of scenarios for Work Package 5.
Impact Samples collected for Work Package 1 in the first of 3 seasons of sampling (autumn/winter 2023/24).
Start Year 2023
 
Description NERC QUANTUM Project Partner 3 - Natural Resources Wales 
Organisation Natural Resources Wales
Country United Kingdom 
Sector Public 
PI Contribution Discussion of site selection for our Work Package 2 experiments. Briefing to NRW staff on the QUANTUM programme focus and objectives.
Collaborator Contribution Project Advisory Board member. Will contribute in addition to specification of scenarios for Work Package 5.
Impact Development of understanding of the extent and nature of sheep and cattle farming impacts on Welsh rivers.
Start Year 2023
 
Description NERC QUANTUM Project Partner 4 - Wessex Water 
Organisation Wessex Water
Country United Kingdom 
Sector Private 
PI Contribution Long-standing research collaborator with the project PI. Regular exchange of advice on catchment science, policy and management, and evidence from multiple NERC and other funded projects including this one. Provision of access to research findings from our work across Work Packages 1-5.
Collaborator Contribution Provision of access to Wessex Water data assets, provision of staff advice, member of Project Advisory Board.
Impact Advice to project team on site selection and available data assets for Work Package 2 experiments. Provision of advice across the programme via Project Advisory Board membership.
Start Year 2023
 
Description NERC QUANTUM Project Partner 5 - UK Water Industry Research (UKWIR) 
Organisation UK Water Industry Research Ltd
Country United Kingdom 
Sector Charity/Non Profit 
PI Contribution Working with UKWIR staff via the Project Advisory Board, to shape scenarios for Work Package 5.
Collaborator Contribution Advice on scenarios for Work Package 5. Project Advisory Board member. Facilitating connection to the UKWIR network and data assets.
Impact Advice via Project Advisory Board.
Start Year 2023
 
Description NERC QUANTUM Project Partner 6 - Natural England 
Organisation Natural England
Country United Kingdom 
Sector Charity/Non Profit 
PI Contribution Long-standing research partner across multiple NERC- and other funded programmes. Working with Natural England on QUANTUM to secure sites for Work Package 2, design of experiments, and to develop scenarios for Work Package 5.
Collaborator Contribution 15 days Senior Specialist support on Water Quality via Project Advisory Board and ad hoc. 15 days field support from Catchment Sensitive Farming team. Contribution to specification of scenarios for testing under Work Package 5.
Impact Successful selection of site for Work Package 2. Advice via Project Advisory Board.
Start Year 2023
 
Description NERC QUANTUM Project Partner 7 - Welsh Water (Dwr Cymru) 
Organisation Welsh Water
Country United Kingdom 
Sector Private 
PI Contribution Working with Welsh Water (Dwr Cymru) to secure access to data assets for field sites in Wales, particularly for Work Package 5 Tier 2 upscaling, and co-design of scenarios for Work Package 5 modelling.
Collaborator Contribution Provision of advice as member of the Project Advisory Board. Staff advice on field sites and provision of access to data assets and resources. Contribution to formulation of scenarios for Work Package 5 modelling.
Impact Provision of access to data assets and resources for Welsh sites.
Start Year 2023