This kit is on a farm recycling urban wastes to farm land and reducing/avoiding the use of mineral fertilisers. Not so obvious but globally vitally – it is taking Carbon out of the atmosphere and locking it up in soil.
According to World Bank figures, the global production of urban waste is above 2 billion tonnes and rising. My own experience of composting urban wastes suggests that, technically (if the regulators could come to terms with this) maybe 25% of that could be composted and put to farm land, and possibly more if put to forestry land. If the compost contained only 2% of each of N, P and K, then that would be 10 million tonnes of each. One tonne of N nutrient, made in a modern USA factory, takes 21,000 kWh to make and deliver. So, or the N alone, that would save the use of 210,000,000 kWh of electrical power generation, most of which comes from burning coal and oil. Bearing in mind most N production in the world is several times less efficient than in the USA, and that the rest of the figures err on the side of caution, then recycling urban waste by composting to land would save probably around 1 trillion KWh pa and the associated Carbon dioxide production. .
There is a bonus, crops grown on high organic Carbon soils need less irrigation and less crop protection sprays. Cereal crop lodge (fall flat) less. Crops yield more. What we need is active, controlled enabling, not ever-increasing suppression and indifference form government.
Bill Butterworth, Land Research Ltd. 24 October 18
Desert in Suffolk, UK. Some years, this area really is within the UN definition of desert.
And also see ” articles on the top ribbon of this website home page.
Bill Butterworth, Land Research Ltd, 30 Aug 18
In direst drilling, getting even depth of placement and good seed-soil contact is important.
Some will be old enough to remember the Bettinson 3D drill. Direct drilling went out of fashion in the early 1990’s but it is back and what a year in 2018 to start direct drilling! Drought is a killer in the seedbed and cultivations drive off water. So, this year will take a bit of managing and some luck, too. Harrow to get the weed seeds to chit. Shower of rain, please. Green up. Spay off with glyphosate. Direct drill. Showers of rain please. Roll if useful. Would that it were as easy as that. However, it is still much easier than trying to get a wider range of conventional cultivations through. Direct drilling is lower cost, faster and therefore there is a timeliness gain, conserves soil moisture, over-all does give a little better yields, certainly at lower cost.
Bill Butterworth, Land Research Ltd, August 18
A lot of this, this year. Yields down too. It is largely avoidable.
A sandy soil will hold about its own weight in water. A clay 2 or 3 times. A typical natural peat around 16 times!
A compost made from urban green waste will hold up to 10 times its own weight in water, maybe only 5 times if it is made from woody cuttings in winter (and it would have less N). However, compost made from urban green waste plus industrial wastes will (depending on the wastes used) hold 8 to 14 times its own weight in water and possibly a lot more NPK. Although the Environment Agency will restrict quantities, the truth is that the Fens, when Vermuyden drained them some 300 years ago, were up to 40 foot deep of almost pure compost. (Organic soils do not leak excessive N.) It is also true that high organic, well-composted soils, can halve cultivation energy inputs and reduce chemical spraying.
So, there really should be a national policy of maximizing urban waste recycling to urban farm land. Suggest get a copy of “Survival”, read it and send a copy to your MP.
Bill Butterworth, Land Research Ltd, 1 August 18
“Recreational tillage” soothes the soul but it really does dramatically increase organic mater oxidation and loss. Forcing a tilth with a power harrow is the worst offender.
The problem with forcing a tilth with power harrows, or any other cultivation tools, is that organic matter is oxidised at a rate corresponding to power input. This was first shown by Sarah Wright working at the famous USDA research centre at Beltsville in the USA. It was reinforced by research I did for ICI Plant Protection back in the 70’s and early 80’s; then, a fair guide in most soils was that conventional, high-power-input cultivations would oxidise and lose around 35 % of the humus per annum but direct drilling would limit the losses to around 10%.
There are two results of this loss which are, amongst others, worthy of note in this context. Firstly, the more organic matter is lost, the greater the cultivation power needed next time around, leading to a declining soil structure, demanding progressively more power in a downward spiral. Secondly, N losses progressively rise in parallel. Further, as organic matter level falls, so does water-retaining capability. This, in turn, allows more soluble N to be leached out.
What Michal Gove needs to do it look at the energy we could save by recycling more to land, using science-based process to encourage it, rather than allowing regulation to progressively restrict it.
Bill Butterworth, Land Research Ltd.,12 June 2018
There is one fundamental rule in nature: Given enough dilution, given enough time, Nature will handle anything. The trick is to know how much dilution and how much time. To some extent, the two factors are interchangeable. Fortunately, humus (that complex mixture of hydrocarbons, carbo-hydrates and proteins with significant colloidal capacity) is a very effective chemical “buffer” which will smooth out release of toxins and nutrients. There is also a biological buffer in that the mycorrhizae can be selective and take what they need (and no more) from an otherwise too high a concentration of a toxin or nutrient in a feedstock (such as compost). These mechanisms add enormously to the safety of recycling to land.
Having said that, like all living mechanisms, don’t push it too far, knowing how far depends on reading the research, using common sense and not rushing the fence – build up slowly and learn to manage the stress in the system.
Also see “How to make on-farm composting work”, by Bill Butterworth, MX Publishing, London 1998,
Bill Butterworth, Land Research Ltd, 6 June 2018
Britain has too much rain this spring. Nevertheless, farming may pay more for its water in future.
Facing a Global Water Crisis” in a piece written by Leah Schleifer. With credit to them, I try here to relate those lessons to British farming and maybe farming elsewhere in developed counties that do not really think water may be a significant economic problem sooner rather than later.
Reason 6. Water Is Wasted
The water in our water main grid is “potable”, i.e. drinkable. Yet half the water used in domestic households is used to flush toilets, enters the sewage system and is treated and dumped into rivers. It is true that some of that water may be extracted lower down the river and re-used, but this is an incredibly wasteful system.
The washing down of dairies and other livestock enterprises on farms is similarly wasteful.
Conservation farming action;
- Harvest water off shed roofs and concrete areas,
- Wash down sensibly, limiting use to what is necessary.
- Get everyone to remember that water is a valuable and increasingly expensive resource.
Bill Butterworth, Land Research Ltd., 7 April 18