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This article explores the serious problem of water pollution caused by agriculture, including the pollution sources such as nutrients, slurry, pesticides, chemicals, milk and silage effluents, animal carcasses, heavy metals, erosion, and seeds. It discusses the factors that contribute to water pollution and the laws controlling pollution. The article provides recommendations on how to reduce pollution and highlights hope for the future.
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Vicki Chapman • Vanina Guevel • Anne Newson • Tony
Situation • Before : organic waste as fertilizers • environment not a priority • Now : intensive agriculture • improved techniques • mineral fertilizers • pesticides • tests available
Nutrients Slurry Pesticides Chemicals Milk effluents Silage effluents Animal carcasses Heavy metals Erosion Seeds What factors pollute water?
Nutrients • Main nutrients - nitrogen, phosphorus, potassium • Source - fertiliser, manure, rainfall, sewage, silage, etc. • EC Limit - rivers must not exceed the 50 mg N /litre of water
Stimulate crop growth. A limit of 250 kg total N/year/ha is recommended from livestock manures • The loss of the nutrients through soil percolation and land runoff, into the waterways causes disruption to the balance of the aquatic habitat.
Slurry • Source – a mixture of animal dung and urine, Est. 200 million tonnes undiluted excreta produced annually in UK, 50% slurries. • Most slurry stored in earth bank lagoons estimated total volume is 15.5 million m3
Virtually all livestock waste is recycled to the land causing 17% of water pollution from agriculture to come from slurry. • There is a restriction of 10m 'no spreading' zone adjacent to all water courses, direct spillage is highly prosecuted. • Improvements in available grants have improved slurry stores, decreasing incidence from 99 incidents in 1991 to 28 in 1996.
Pesticides • Herbicides • Fungicides • Insecticides • Molluscicides • Rodenticides • Growth regulators • Sheep dips • … about 450 different products
Get into river by run-off into drains, leaching from soil, spray drift into watercourse, washings • High persistence and toxicity • Kill fish, amphibians, invertebrates and plants • Accumulation in lipids and sediments • Trace concentrations hard to measure • Long-term effects often unknown
Milk and chemicals • Milking parlour washing effluents • Waste milk spread on the fields • Udder wash • 400x more polluting than untreated domestic sewage
Silage effluent • Very harmful and concentrated pollutant • BOD level = 30,000 – 80,000mg/l. Compare to 20-60mg/l for treated sewage. • Very corrosive. Hard to break down. Kills fish.
Erosion • = the wearing away of the soil by wind/water • Soil clogs waterways • Excludes light from water • Aquatic plants die • No oxygen for fish and other aquatic life
SUMMARY Summary
Conclusion:How to reduce pollution • Agricultural animals should have no direct contact with running water courses. • Silage and slurry containers should be 100% leak-proof. • Organic wastes, fertilisers, etc. should not be applied closer than 10m from the river (buffer strip) or 50m from wells or bore holes.
No intensive agriculture in “High risk areas” e.g. frozen ground, floodplain, etc. • Better use of pesticides • Plant new crops in stubble to reduce ploughing (see right)
Laws controlling pollution • Water Act 1989 – Farmers can be fined up to £20,000 for causing pollution! • Environmental Protection Act 1990 – an integrated pollution control system for safe disposal of wastes. • Classification of pesticides – • Class I : forbidden (HCH, DDT, etc.) • Class II : to be reduced (PCSDs, etc.)