| Maintain and enhance biodiversity: Aquatic - reduce nutrient impacts |
 |
Reduced eutrophication |
 |
Reduced nitrogen in water |
|
Reduce losses of nitrogen fertiliser via surface run-off |
 |
Prevent manure from entering watercourses |
|
Reduce the amount of manure washed off fields into watercourses |
|
Decrease surface run-off / increase infiltration |
|
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve soil structure on grassland |
 |
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Prevent / reduce the creation of flow pathways |
|
Avoid tramlines over winter |
| |
Tramlines run across slopes where practical not down slopes leading to a watercourse |
| |
Cultivate and drill across the slope |
| |
Reduce topsoil saturation (waterlogging) |
|
Install artificial sub-surface drains |
| |
Increase in earthworm population |
|
Minimal tillage |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Zero tillage |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
 |
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Ensure all stock tracks are well-drained and sited away from watercourses |
| |
Locate out-wintered stock and sacrifice areas away from watercourses |
| |
Do not store manure in a field liable to flooding or becoming waterlogged |
| |
Do not spread fertiliser when the soil is waterlogged, flooded or snow covered or has been frozen for more than 12 hours in the previous 24 hours |
| |
Rapid incorporation of FYM and slurry into the soil (24 hours at the latest, preferably within 6 hours of application) |
| |
Do not spread manure within 10 metres of surface water |
| |
Reduce manure / urine deposition in fields |
|
Reduce manure production |
|
Increase number of ruminant livestock |
|
Convert arable land to extensive grassland |
| |
Reduce livestock stocking rates |
| |
Reduce the length of the grazing day or grazing season |
| |
Restrict livestock access to watercourses |
| |
Construct livestock crossings for watercourses regularly used by livestock |
| |
Do not use manufactured nitrogen fertiliser |
| |
Do not apply fertiliser to land that has a slope greater than 12 degrees |
| |
Avoid losses of nutrients from the storage of fertiliser |
|
Ensure that your fertiliser store is secure and located more than 10m away from a watercourse and/or drain |
| |
Do not use manufactured nitrogen fertiliser |
| |
Avoid losses of nutrients from the storage of manure |
|
Reduce leaks and losses from manure stores |
|
Ensure there is sufficient storage capacity for all the manure that will be produced on the farm |
| |
Solid poultry manure used on arable farms that does not have bedding mixed into it is covered with an impermeable material |
| |
Do not store manure that can leak effluent in fields |
| |
Avoid direct application of nitrogen fertiliser into water bodies |
|
Do not spread fertiliser within 2 metres of surface water |
| |
Do not use manufactured nitrogen fertiliser |
| |
Use fertiliser spreading equipment with a low spreading trajectory, that is, below 4 metres from the ground |
| |
Reduce leaching losses of nitrogen to water |
|
Reduce nitrogen mineralisation |
|
Minimal tillage |
| |
Zero tillage |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Reduce cultivations |
|
Convert arable land to extensive grassland |
| |
Zero tillage |
| |
Minimal tillage |
| |
Do not use manufactured nitrogen fertiliser |
| |
Reduced excess nitrogen accumulation in grassland soils |
|
Apply nitrogen in excess of grassland requirements |
| |
Increase vegetative uptake of nutrients by grassland |
|
Improve soil structure on grassland |
|
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Accurate application of nutrients to grassland |
|
Accurate calculation of nutrient requirements of grass/forage crops |
| |
Calibrate fertiliser spreader used on grassland |
| |
Regular soil nutrient testing on grassland |
| |
Accurate spreading of fertiliser on grassland |
| |
Accurate calculation of nutrients available in livestock manure used on grassland |
| |
Reduce nutrient inputs to grassland |
|
Do not use manufactured nitrogen fertiliser |
| |
Place limits the amount of nitrogen applied to grassland |
| |
Accurate application of nutrients to grassland |
|
Accurate calculation of nutrient requirements of grass/forage crops |
| |
Calibrate fertiliser spreader used on grassland |
| |
Regular soil nutrient testing on grassland |
| |
Accurate spreading of fertiliser on grassland |
| |
Accurate calculation of nutrients available in livestock manure used on grassland |
| |
Reduce manure / urine deposition in fields |
|
Reduce manure production |
|
Increase number of ruminant livestock |
|
Convert arable land to extensive grassland |
| |
Reduce livestock stocking rates |
| |
Reduce the length of the grazing day or grazing season |
| |
Restrict applications of nutrients to grassland when plant uptake is low |
| |
Do not locate field manure heaps in any single position on grassland for more than 12 consecutive months |
| |
Do not locate field manure heaps on grassland in the same place as an earlier one constructed within the last two years |
| |
Solid poultry manure used on grassland farms that does not have bedding mixed into it is covered with an impermeable material |
| |
Reduced excess nitrogen accumulation in arable soils |
|
Increase vegetative uptake of nutrients by arable crops |
|
Cover crop after harvest through the winter |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Improve arable crop establishment |
 |
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve arable crop nutrition |
|
Accurate calculation of nutrient requirements of arable crops |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Convert arable land to extensive grassland |
| |
Apply nitrogen in excess of arable crop requirements |
| |
Solid poultry manure used on arable farms that does not have bedding mixed into it is covered with an impermeable material |
| |
Do not locate field manure heaps on arable land in the same place as an earlier one constructed within the last two years |
| |
Do not locate field manure heaps in any single position on arable land for more than 12 consecutive months |
| |
Restrict applications of nutrients to arable crops when plant uptake is low |
| |
Reduce nutrient inputs to arable land |
|
Place limits the amount of nitrogen applied to arable crops |
| |
Do not use manufactured nitrogen fertiliser |
| |
Accurate application of nutrients to arable crops |
|
Calibrate fertiliser spreader used on arable land |
| |
Accurate calculation of nutrients available in livestock manure used on arable crops |
| |
Accurate spreading of fertiliser on arable land |
| |
Regular soil nutrient testing on arable land |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Accurate calculation of nutrient requirements of arable crops |
| |
Convert arable land to extensive grassland |
| |
Accurate application of nutrients to arable crops |
|
Calibrate fertiliser spreader used on arable land |
| |
Accurate calculation of nutrients available in livestock manure used on arable crops |
| |
Accurate spreading of fertiliser on arable land |
| |
Regular soil nutrient testing on arable land |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Accurate calculation of nutrient requirements of arable crops |
| |
Increase nitrogen immobilisation |
|
Increase vegetative uptake of nutrients by arable crops |
|
Cover crop after harvest through the winter |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Improve arable crop establishment |
|
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve arable crop nutrition |
|
Accurate calculation of nutrient requirements of arable crops |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Convert arable land to extensive grassland |
| |
Increase vegetative uptake of nutrients by grassland |
|
Improve soil structure on grassland |
|
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Reduced phosphorus in water |
|
Reduce soil erosion from arable fields |
|
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Decrease surface run-off / increase infiltration |
|
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve soil structure on grassland |
|
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Prevent / reduce the creation of flow pathways |
|
Avoid tramlines over winter |
| |
Tramlines run across slopes where practical not down slopes leading to a watercourse |
| |
Cultivate and drill across the slope |
| |
Reduce topsoil saturation (waterlogging) |
|
Install artificial sub-surface drains |
| |
Increase in earthworm population |
|
Minimal tillage |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Zero tillage |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Reduce overland flow (by barrier) |
|
Minimal tillage |
| |
Zero tillage |
| |
Create grassed strips within arable fields |
|
Create beetle banks |
| |
Maintain vegetative cover on fields |
|
Undersow crops |
| |
Create grassed waterways within arable fields |
| |
Convert arable land to extensive grassland |
| |
Arable land is sown with a crop within 10 days of having been prepared as a seedbed |
| |
Cover crop after harvest through the winter |
| |
Over-wintered stubbles |
| |
Avoid losses of nutrients from the storage of fertiliser |
|
Ensure that your fertiliser store is secure and located more than 10m away from a watercourse and/or drain |
| |
Do not use manufactured nitrogen fertiliser |
| |
Avoid losses of nutrients from the storage of manure |
|
Reduce leaks and losses from manure stores |
|
Ensure there is sufficient storage capacity for all the manure that will be produced on the farm |
| |
Solid poultry manure used on arable farms that does not have bedding mixed into it is covered with an impermeable material |
| |
Do not store manure that can leak effluent in fields |
| |
Prevent manure from entering watercourses |
|
Reduce the amount of manure washed off fields into watercourses |
|
Decrease surface run-off / increase infiltration |
|
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve soil structure on grassland |
|
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Prevent / reduce the creation of flow pathways |
|
Avoid tramlines over winter |
| |
Tramlines run across slopes where practical not down slopes leading to a watercourse |
| |
Cultivate and drill across the slope |
| |
Reduce topsoil saturation (waterlogging) |
|
Install artificial sub-surface drains |
| |
Increase in earthworm population |
|
Minimal tillage |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Zero tillage |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Ensure all stock tracks are well-drained and sited away from watercourses |
| |
Locate out-wintered stock and sacrifice areas away from watercourses |
| |
Do not store manure in a field liable to flooding or becoming waterlogged |
| |
Do not spread fertiliser when the soil is waterlogged, flooded or snow covered or has been frozen for more than 12 hours in the previous 24 hours |
| |
Rapid incorporation of FYM and slurry into the soil (24 hours at the latest, preferably within 6 hours of application) |
| |
Do not spread manure within 10 metres of surface water |
| |
Reduce manure / urine deposition in fields |
|
Reduce manure production |
|
Increase number of ruminant livestock |
|
Convert arable land to extensive grassland |
| |
Reduce livestock stocking rates |
| |
Reduce the length of the grazing day or grazing season |
| |
Restrict livestock access to watercourses |
| |
Construct livestock crossings for watercourses regularly used by livestock |
| |
Reduced soil erosion from grassland or grazed fields |
|
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Decrease surface run-off / increase infiltration |
|
Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
| |
Improve soil structure on grassland |
|
Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Prevent / reduce the creation of flow pathways |
|
Avoid tramlines over winter |
| |
Tramlines run across slopes where practical not down slopes leading to a watercourse |
| |
Cultivate and drill across the slope |
| |
Reduce topsoil saturation (waterlogging) |
|
Install artificial sub-surface drains |
| |
Increase in earthworm population |
|
Minimal tillage |
| |
Reduce soil compaction |
|
Avoid tramlines over winter |
| |
Use low ground pressure tyres/wheels on machinery |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Reduced poaching by livestock |
|
Regularly change the position of supplementary feeders |
| |
Reduce overflows from livestock water troughs |
|
Ball-valves on livestock water troughs are damaged and/or not correctly set |
| |
Ensure ball-valves on livestock water troughs are not damaged and are correctly set |
| |
Avoid unsuitable supplementary feeding |
| |
Reduce livestock stocking rates |
| |
Zero tillage |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
| |
Loosen compacted soil layers on arable land |
|
Shallow spiking, slitting or subsoiling |
| |
Avoid mechanical field operations on arable land when the soil is waterlogged |
| |
Increase soil organic matter on arable land |
|
Incorporate crop residues |
|
Minimal tillage |
| |
Zero tillage |
| |
Do not burn crop residues |
| |
Include a grass/clover ley during the rotation |
| |
Incorporation of FYM into arable land |
| |
Reduce soil organic carbon oxidation on arable land |
|
Convert grassland to arable (by ploughing) |
| |
Zero tillage |
| |
Minimal tillage |
| |
Drain and cultivate peat soils |
| |
Cover crop after harvest through the winter |
| |
Vulnerable river banks protected |
|
Restrict livestock access to watercourses |
| |
Construct livestock crossings for watercourses regularly used by livestock |
| |
Reduce excess soil phosphorus accumulation |
|
Increase vegetative uptake of nutrients by arable crops |
|
Cover crop after harvest through the winter |
| |
Improve soil structure on arable land |
|
Minimal tillage |
| |
Zero tillage |
| |
Undertake mechanical field operations on arable land when the soil is waterlogged |
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Loosen compacted soil layers on arable land |
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Shallow spiking, slitting or subsoiling |
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Avoid mechanical field operations on arable land when the soil is waterlogged |
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Increase soil organic matter on arable land |
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Incorporate crop residues |
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Minimal tillage |
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Zero tillage |
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Do not burn crop residues |
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Include a grass/clover ley during the rotation |
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Incorporation of FYM into arable land |
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Reduce soil organic carbon oxidation on arable land |
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Convert grassland to arable (by ploughing) |
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Zero tillage |
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Minimal tillage |
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Drain and cultivate peat soils |
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Cover crop after harvest through the winter |
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Improve arable crop establishment |
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Arable land is left with a rough surface following operations such as ploughing, discing or tine cultivation |
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Improve arable crop nutrition |
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Accurate calculation of nutrient requirements of arable crops |
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Predict crop nutrient requirements using canopy management or chlorophyll testing |
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Convert arable land to extensive grassland |
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Increase vegetative uptake of nutrients by grassland |
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Improve soil structure on grassland |
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Undertake mechanical field operations on grassland when the soil is waterlogged |
| |
Increase soil organic matter on grassland |
| |
Loosen compacted soil layers on grassland |
| |
Avoid mechanical field operations on grassland when the soil is waterlogged |
| |
Accurate application of nutrients to grassland |
|
Accurate calculation of nutrient requirements of grass/forage crops |
| |
Calibrate fertiliser spreader used on grassland |
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Regular soil nutrient testing on grassland |
| |
Accurate spreading of fertiliser on grassland |
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Accurate calculation of nutrients available in livestock manure used on grassland |
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Reduce nutrient inputs to grassland |
|
Do not use manufactured nitrogen fertiliser |
| |
Place limits the amount of nitrogen applied to grassland |
| |
Accurate application of nutrients to grassland |
|
Accurate calculation of nutrient requirements of grass/forage crops |
| |
Calibrate fertiliser spreader used on grassland |
| |
Regular soil nutrient testing on grassland |
| |
Accurate spreading of fertiliser on grassland |
| |
Accurate calculation of nutrients available in livestock manure used on grassland |
| |
Reduce nutrient inputs to arable land |
|
Place limits the amount of nitrogen applied to arable crops |
| |
Do not use manufactured nitrogen fertiliser |
| |
Accurate application of nutrients to arable crops |
|
Calibrate fertiliser spreader used on arable land |
| |
Accurate calculation of nutrients available in livestock manure used on arable crops |
| |
Accurate spreading of fertiliser on arable land |
| |
Regular soil nutrient testing on arable land |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Accurate calculation of nutrient requirements of arable crops |
| |
Convert arable land to extensive grassland |
| |
Accurate application of nutrients to arable crops |
|
Calibrate fertiliser spreader used on arable land |
| |
Accurate calculation of nutrients available in livestock manure used on arable crops |
| |
Accurate spreading of fertiliser on arable land |
| |
Regular soil nutrient testing on arable land |
| |
Predict crop nutrient requirements using canopy management or chlorophyll testing |
| |
Accurate calculation of nutrient requirements of arable crops |