The three ingredients that will save the world from eventual starvation and famine are so important they can’t be seen.
They’re invisible and, because of that, are often overlooked as essential components in nurturing and growing crops.
In an address this week (Thursday) to Groundswell, an agricultural conference in England, international soil scientist,
Dr John Baker, pointed to the combined effect of humidity, carbon and soil microbes on successfully growing crops and
feeding the world.
Dr Baker explains that humidity is water vapour which can’t be seen unless it condenses as fog, cloud or steam yet is
always there and is vital.
Through 40 years of research, he’s discovered that seeds can germinate in 100 percent humidity without requiring liquid
water and are capable of sustaining seedlings in the soil before they develop their own roots to absorb water.
In addition the soil’s micro organisms thrive and grow better in a humid atmosphere and are more able to decompose the
crop residues and vegetation on top of the ground.
Yet despite the benefits of humidity to successive crops, cultivation (ploughing) continues to destroy the impact it can
make to increasing production. “When soil is cultivated, humidity escapes into the atmosphere and seeds never get to
utilise it for germination,” Dr Baker says.
“The key is to retain humidity in the soil and only low disturbance no-tillage can do that. Retaining humidity is the
silver bullet that makes low disturbance no-tillage so effective and stands it apart from all other crop and pasture
improvements.”
“The problem is people can’t see it and therefore don’t appreciate what it’s doing.”
The second silver bullet is the carbon in the soil which is also invisible to the naked eye.
Dr Baker explains that carbon is the food stuff of soil biology and growing plants. Plants absorb carbon from the
atmosphere through photosynthesis or from decaying organic matter and it’s imperative it remains in the soil.
Yet carbon is being squandered by cultivation. Every time the soil is disturbed, the CO2 is oxidised and escapes into
the atmosphere leading to the serious problem of global warming.
Dr Baker points out there’s more carbon going out than in and the world has reached a stage where the process must be
reversed. When it is, there’ll be a much reduced problem with climate change.
“When carbon escapes it not only robs the soil microbes of their foodstuff, but it contributes to greenhouse gases,” he
says. “Low disturbance no-tillage is the only mechanism that facilitates the recapture of carbon out of the atmosphere
and puts it back in the soil where it belongs.”
‘It’s a win-win.”
Soil microbes, the third ingredient, are so small they can’t be seen. There are six billion microbes in a cup full of
healthy, undisturbed soil. That’s more than the total population of the whole world. Dr Baker says their function is to
kill plant diseases, enrich the soil, gather nutrients on behalf of the plant roots and create soil structure by binding
the primary particles of soil into aggregate.
“They are the invisible trio and they work closely together to harness the biology of the soil and make it work for us
to provide enough food for the generations to come.”
John Baker’s low disturbance no-tillage drills, manufactured in New Zealand, penetrate through the residue or vegetation
on top of the soil to create seed slots beneath it. They sow the seed and fertiliser in separate bands at the same time.
The process traps the humidity, preserves the earthworms, micro-organisms and soil life, increases yields and largely
prevents carbon from escaping into the atmosphere.
“What we’re doing is swapping the balance so there’s more carbon-in than carbon out. The method addresses climate change
and increases the amount of food that the world produces at the same time,” he says.
“The farmers I address in New Zealand and throughout the world realises they haven’t been getting good crop yields
because of the lack of the three invisible factors, humidity, carbon and soil microbes,” he says. “The ability of
farmers to realise and mitigate these three will affect the ability of the world to feed itself by the year, 2050.”
“I wish they’d be visible so people would understand how vital they are to the food chain.”