1. P Stripping of Agricultural Runoff Or Integrated Runoff Management Plans for Farms Paul Quinn and Sebastian Tellier

2. The Rural P Problem Surplus P in the land bank Saturation of P in the soil P losses associated with sediment losses High P in ditch and river sediments – a ‘conveyer belt’ Enough P to keep eutrophication risk high for the next 50 years WFD & P– has no chance unless a more proactive approach is taken

3. Addressing the problem Traditional approach Soil management and P applications Land use change OR a new paradigm P is locked into soil (soil amendment?) i.e for plant consumption only Stripped from the flow at source (in ponds and ditches) Suppress P impacts in rivers and lakes by scavenging P.

4. high low clay poor clay rich low risk high risk Nutrient Export Risk Matrix Fertiliser applications and Soil Management Soil Type Flow Connectivity and Remediation features N loss or P loss

5. IRMP Overall Vision To create an Integrated Runoff Management Plan (IRMP) for a demonstration site at Nafferton Farm, where a series of proactive measures will be taken to control runoff flow paths and the physical and chemical properties of the water before the flow enters the Whittle Burn – thus reducing flood peaks and diffuse pollution levels.

6. IRMP Objectives To control overland flow runoff from intensely farmed fields by using strategically placed, within-field bioreactors/ponds; To reduce runoff from hardstandings by forcing flow back into fields containing bioreactors/ponds; To create a series of small and un-intrusive sediment traps within the ditch network and the sediment recovered and recycled to land; To create a phosphorus (P) stripping zone using ochre pellets (a recycled minewater treatment waste material). P saturated pellets, the trapped sediment and the ochre will be recycled back to land as fertilizer; To create a denitrifying potential to treat the bulk of the flow leaving Nafferton farm; To evaluate the potential of the storage and attenuation features to reduce the magnitude of flood risks as caused by UK farming systems.

7. Nafferton Farm Study

10. Pilot study 1 1 single bag ~ 25 kg ochre pellets Bag inserted Major Event Bag moved

11. P bag deployment Easy to handle and deploy Geotextile bag – 10 kg of ochre pellets

12. Pilot study 2 1 Ambient TP levels 2 Disturbed TP levels Little effect on TDP (though flows were quite high)

13. P stripping issues Sedimentation rates are very high Ditch preparation? Lined or not lined? Flashy hydrologic regime 10 l/s to 200 l/s. can all the flow be processed (attenuated)? Sediment management plan Ochre recovery plan – when, how much? Benefits to agriculture Perception of putting waste to land

14. Scavenging P in rivers and lakes Gabions of ochre pellets in the water column A – suspended in water column B- resting on the channel bed (at a suitable location) In place at times of high risk removed from the water column and returned to land P loss Low flow level flow A B Bed Sediments

15. Proposed Runoff Plot Experiment Cockle Park Farm -10 plots Large scale soil amendment experiments Biomass production and buffer strip impacts Nutrient and metal fluxes 10 m 30 m control sludge ochreSludge/ ochre Lime 1Lime 2

16. Conclusion Huge potential but the waste to land issue needs to be tackled Practical issues to be resolved. Remediation should work as part of a multi-disciplinary plan for all pollutants, biodiversity and flood reduction Defra funded schemes need to consider proactive measures compared to traditional passive methods. WFD - must strip P and protect larger rivers and lakes