Details of Award

NERC Reference : NE/L008491/1

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Quantifying ecosystem resilience: catastrophic collapse and recovery of a large river food web

Grant Award

Principal Investigator:: Professor G Woodward, Imperial College London, Life Sciences
Co-Investigator:: Professor CD Sayer, University College London, Geography
Co-Investigator:: Professor T Bell, Imperial College London, Life Sciences
Co-Investigator:: Dr ME Ledger, University of Birmingham, Sch of Geography, Earth & Env Sciences
Co-Investigator:: Professor M Trimmer, Queen Mary University of London, Sch of Biological & Behavioural Sciences
Co-Investigator:: Professor AJ Dumbrell, University of Essex, Life Sciences
Grant held at:: Imperial College London, Life Sciences

Science Area:: Freshwater
Overall Classification:: Freshwater

Science Classification details

ENRIs:: Biodiversity; Environmental Risks and Hazards; Natural Resource Management; Pollution and Waste
Science Topics:: Community Ecology; Environmental Genomics; Pollution; Ecosystem Scale Processes

Abstract:: In early July 2013 the impacts of one of the UK's largest pesticide pollution events were first detected by citizen scientists involved in biomonitoring of riverfly populations along the River Kennet, as local extinctions of invertebrate life were reported along 15km of the river's length. The Environment Agency were notified and the source of the spill has so far been tracked back to a water treatment works in Marlborough, where it appears the widely-used organophosphate pesticide Chlorpyrifos was accidentally discharged into the river. Further discharges from the treatment works were immediately suspended: thus we are dealing with a single point source event that has affected over 1/3 of the entire river. This Urgency Grant is designed to sample the river's biota as comprehensively as possible over multiple scales in space (from local patches to 100m reaches, over 6km of the river's length) and time (from days to one year after the spill) and across multiple levels of biological organization (from genes-to-ecosystems). The samples we will collect will enable us to assess both the impact and initial recovery following the spill. We also have access to extensive citizen scientist biomonitoring data collect by ARK volunteers on a monthly basis from dozens of sites along the river both before and after the impact., which will complement our new intensive sampling. Our sample collection will be spaced through time at approximately logarithmic intervals from the date of the spill, so we can front-load it towards the initial acute and direct phase, while also being able to track chronic and indirect effects as the perturbation ripples through the food web. This unique case study will give us invaluable new insights into of the fragility and resilience of natural systems, and especially of how pesticide effects are felt far beyond those of their usual target organisms (invertebrates in this case). We have selected 6 study reaches (3 upstream and 3 downstream of the spill, separated by 1km intervals), and profound effects are already evident beyond those of invertebrate extinctions: for instance, fish are being left without food and microbes without consumers to keep them in check. The food web is therefore already undergoing profound restructuring, which we predict will continue to intensify in the immediate aftermath of the spill before entering the recovery phase - the pesticide has a very short residence time, so effects being manifested now are the consequences of its extirpation of the invertebrate fauna. As Urgency grants are limited to 1 year of funding and #65k we are focusing on urgent sample collection and preliminary laboratory processing, with minimal analytical work targeting a subset of samples, dates and sites. We will apply to process the remainder via other funding schemes (e.g. NERC Standard Grants). Our interdisciplinary team will collect an unprecedented breadth and depth of samples: from molecular metasystematics, to quantitative food web characterization and multiple measures of ecosystem functioning. The data will allow us to ask numerous novel questions in both pure and applied ecology, and to investigate the still largely unknown links across organizational levels. For instance, do the microbial biofilms switch on specific genes to process the pesticide and do their blooms when released from control by invertebrates threaten the local fish populations by pushing the system towards anoxia at night as respiration strips the oxygen from the water? Such complex, indirect effects cannot be detected in traditional laboratory ecotoxicological studies - they can only be seen in large field perturbations, but such a comprehensive and co-ordinated coverage of responses to a pesticide spill have never been attempted before. This study will deliver uniquely valuable samples - and ultimately data - to address this glaring gap in our current knowledge of stressor impacts in fresh waters.

Period of Award:: 20 Sep 2013 - 19 Sep 2014
Value:: £52,321

(FY details)

Authorised funds only

NERC Reference:: NE/L008491/1
Grant Stage:: Completed
Scheme:: Urgency
Grant Status:: Closed
Programme:: Urgent Grant

This grant award has a total value of £52,321

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DA - Estate Costs	DI - Staff	DI - T&S	DA - Other Directly Allocated
£8,388	£5,058	£9,362	£1,740	£25,344	£2,338	£92

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