Manure spreader

Organic materials, including livestock manures, biosolids, compost and digestate contain valuable plant nutrients which can save farmers money on their fertiliser bills, and organic matter which can help improve soil quality.

To maximise the value of the nutrients contained in organic materials, make sure you do the following

Know the nutrient content

Accurate information on the nutrient content is essential to make the best use of organic materials. ‘Standard’ or ‘typical’ figures are available in Section 2 of AHDB Nutrient Management Guide (RB209). These are average figures based on the analysis of a large number of samples. However, the nutrient content of organic materials will vary depending on many factors, such as livestock feed composition, variable use of bedding, storage period and for slurries dilution by rainwater, and therefore if possible farmers are encouraged to get a laboratory analysis of their organic material. A laboratory analysis should include dry matter, total N, P, K, S and Mg and ammonium-N, and for poultry manures uric acid N.

Minimise nitrogen losses
 

Where possible, applications of organic materials should be managed to minimise nitrogen (N) losses to the environment. The risk of N losses is greatest following applications of high readily available N materials such as livestock slurries, poultry manures and digestate. Minimise the risk of nitrate leaching losses by applying high readily availability N materials in the spring/summer rather than the autumn/winter period, or if applying in the autumn spread to crops with an autumn N requirement such as oilseed rape and grass. Reduce ammonia volatilisation losses by applying slurries or digestate with bandspread or shallow injection rather than broadcast equipment, or by incorporating organic materials soon after application.

 

Know your application rate and spread accurately and evenly
 

To calculate the application rate you need to know the capacity of the spreader and number of ‘loads’ spread over the field area, or alternately for slurries apply using a pump with a known output. For solid materials, the best way to assess the capacity of the spreader is to weigh it empty and then full. Make sure the organic material is spread accurately and evenly. For broadcast spreaders, this means overlapping the bouts to get an even application across the field. Generally overlap the bouts by about half (this means the bout width is about half of the spreading width).

It is recommended to check your application rate and evenness of spread at least annually. However, data from Defra Farm Practice Survey indicates that only 35% of farms that spread manures using farm equipment adequately calibrated their spreaders and half of farms that spread manures never calibrated their manure spreaders.

Build into farm nutrient management plan
 

Management strategies that minimise environmental N losses can be expected to maximise crop N recovery and therefore increase the fertiliser N replacement value of the manure, reducing the need for manufactured fertiliser application to meet crop requirements. In order to realise the value of manure applications, it is important to accurately predict the crop available N supply and reduce inorganic fertiliser use accordingly.

 

Section 2 of the AHDB Nutrient Management Guide includes guidance on crop available N supply from organic materials. Alternatively, farmers can use the MANNER-NPK software.  MANNER-NPK (MANure Nutrient Evaluation Routine) is a decision support tool to quantify manure crop available N supply and is available to download for free from www.planet4farmers.co.uk.

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Share your ideas and experience of how to improve nutrient efficiency and reduce dependence on artificial fertilisers

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Organic materials, including livestock manures, biosolids, compost and digestate contain valuable plant nutrients which can save farmers money on their fertiliser bills, and organic matter which can help improve soil quality.

With the high prices of synthetic N fertiliser there have been suggestions that more nutrients could be utilised from manures.  Indeed George Eustice suggested that there was enough organic manure available to totally displace the use of mineral fertilisers. This page discusses the realities and the opportunities - Join the Group to edit and add to the page, or comment below.

Soil organic matter (OM) is all living or once-living materials in the soil.  OM provides a direct source of energy/food for many soil organisms: it is the fuel in the soil food web.  Turnover of OM successively releases and immobilises elements vital to the nutrition of crops. 

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This Topic doesn't yet have a Stewarded summary, but connected groups, content and organisations show below. Click the 'Ask to Join' button if you would like to be a Steward for this Topic and provide a summary of current knowledge and recommend useful resources, organisations, networks and projects. "Like" this Topic if you would like to see it prioritised for providing a wikipedia style summary.

Bokashi is the Japanese word for “well-fermented organic matter”. Bokashi Manure Treatment is becoming increasingly popular, and involves microorganisms breaking down animal bedding and dung.  It is said to have many benefits, including increased nutrient content of manure and animal welfare improvements. But there is no published work which has shown clear evidence of the benefits of Bokashi manures to UK farmers, crops, soils or the environment. Two farmers in Scotland would like to run a field lab / on-farm trials to evaluate the potential benefits of Bokashi manure treatment on their farms, supported by Innovative Farmers.  As well as measuring the benefits, they are keen to trial the management process, and find out how easy it is to handle and spread the bokashi-treated manure compared with other manures, and to compare their carbon footprints.  The benefits Bokashi Manure Treatment is said to have a number of benefits, including: Improved health of housed animals; Lower odours; Drier bedding; Reduced incidence of flies; Reduced nutrient losses in the finished manure; Reduced manure management costs; Reduced carbon footprint associated with manure management.   Trial design The trials will take place on two farms over a three-year trial.  Animal bedding and dung in the housing will be sprayed with a liquid mixture of microorganisms (known as Effective Microorganisms or EM®) .  This will be provided by Agriton. Once the animals have been removed from the housing, the bedding and dung are taken out, mixed and covered with an impermeable membrane (usually plastic) and left for at least 6 to 8 weeks. The resulting dung can be used in the same way as dung produced by other means Manures made through the Bokashi process will be compared with those made using standard farming practice on both farms Basic soil testing and evaluation will be conducted at the start of the 3 year project (before application of the Bokashi manures/control manures) and at the end of the project. Discussions will also take place with other farmers and community farms in the Field Lab who will also be trialling the bokashi method, to draw on their experiences of using the process.

At a time when sustainable agriculture and environmental stewardship are vital, improving the nutrient use efficiency (NUE) of organic manures is a crucial goal.

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