Life-filled and life-giving, soil is too precious to waste
As you walk outside, watching birds take flight or a squirrel run up a tree, take a moment to consider the activity beneath your feet. A new study shows more than half the world’s life is in soil — including 90 per cent of fungi, 85 per cent of plants and more than 50 per cent of bacteria. Just a teaspoon of healthy soil can contain up to a billion bacteria and more than a kilometre of fungi, Nature reports.
That makes soil “the singular most biodiverse habitat on Earth,” according to the study, published in the Proceedings of the National Academy of Sciences. We often take soil, and the biodiversity it supports, for granted, but it’s critical to understand it.
“Organisms in soil play an outweighed impact on the balance of our planet. Their biodiversity matters because soil life affects climate change feedbacks, global food security, and even human health,” lead researcher Mark Anthony, an ecologist at the Swiss Federal Research Institute for Forest, Snow and Landscape Research, told the Guardian.
Soil, which makes up the top layer of Earth’s crust, is where we grow almost all our food and it’s second only to the ocean for carbon storage. We should dig deeper into understanding it — especially because topsoil degradation and loss are a growing ecological problem. The United Nations says one-third of global soil has already been affected, mainly by intensive agricultural practices that cause and speed up erosion and runoff, nutrient and organic matter depletion and disruption of natural processes and cycles.
To address the global heating that’s causing weather to become more extreme and unpredictable, making farming challenging, we must shift to renewable energy, used efficiently and wisely.
Soil can also be susceptible to drought and floods, especially where sustainable agricultural practices aren’t employed. Dry soils don’t support life well and can be too baked to absorb water, making them prone to erosion and nutrient loss during sudden rains, with potential flooding below from runoff.
To address the global heating that’s causing weather to become more extreme and unpredictable, making farming challenging, we must shift to renewable energy, used efficiently and wisely. But there are immediate, proven ways to protect and make better use of the soils we need to grow food — and they come with climate benefits.
Quick-growing cover plants like clover, alfalfa, barley, oats, wheat and legumes can prevent erosion, fix nitrogen, replenish nutrients, control weeds and pests, slow evaporation and reduce ground-level temperatures.
Because ploughing up topsoil to plant seeds for monoculture crops has contributed to soil loss and depletion, no-till farming — gaining widespread acceptance worldwide — also helps, especially combined with cover crops.
The Biggest Little Farm documentary film illustrates (on a relatively small scale) how working with nature can keep soils in place and healthy while producing nutrient-rich, flavourful food, even under increasingly volatile California weather conditions.
As the farm’s website says, “healthy soil is built from the top down, which means every decision we make above it matters. In short this is why ecologically regenerative farming methods that restore biodiversity above and within the soil (cover cropping, compost application, managed grazing, etc.) create some of the most nutrient-dense and flavorful food that only nature can provide.”
Healthy soil is built from the top down, which means every decision we make above it matters.
Other methods such as agroforestry (integrating trees and shrubs with agriculture), urban and vertical agriculture, a shift toward plant-based diets and more can help maintain and enrich soils while safeguarding the climate, food systems, waterways, lands and ocean.
We must also protect and restore natural lands and the soils within them. We can’t keep paving or planting over forest and wetland soils through which mycelial networks and root systems connect with nutrients, chemical processes, plants, animals and each other, providing services our health and lives depend on — oxygen production, flood control, food, carbon sequestration, animal habitat, recreational opportunities and more.
The study on soil life also reminds us that, although we’ve been developing large-scale agriculture as if we had a complete understanding of natural systems, our knowledge has been and is still lacking. The researchers note that their study’s margin of error is large and that there’s much still to learn. And yet, we’ve been treating this essential, life-filled, life-giving layer of Earth like we treat the rest of the planet: as if it’s there to exploit without fear of consequences.
But we’re now seeing devastating consequences. Adopting better conservation, restoration and agricultural practices would help soil, food security, climate and health.
David Suzuki
David Suzuki, Co-Founder of the David Suzuki Foundation, is an award-winning scientist, environmentalist and broadcaster. David is renowned for his radio and television programs that explain the complexities of the natural sciences in a compelling, easily understood way.
Education
As a geneticist. David graduated from Amherst College (Massachusetts) in 1958 with an Honours BA in Biology, followed by a Ph.D. in Zoology from the University of Chicago in 1961. He held a research associateship in the Biology Division of Tennessee’s Oak Ridge National Lab (1961 – 62), was an Assistant Professor in Genetics at the University of Alberta (1962 – 63), and since then has been a faculty member of the University of British Columbia. He is now Professor Emeritus at UBC.
Awards
In 1972, he was awarded the E.W.R. Steacie Memorial Fellowship for the outstanding research scientist in Canada under the age of 35 and held it for three years. He has won numerous academic awards and holds 25 honourary degrees in Canada, the U.S. and Australia. He was elected to the Royal Society of Canada and is a Companion of the Order of Canada. Dr. Suzuki has written 52 books, including 19 for children. His 1976 textbook An Introduction to Genetic Analysis(with A.J.F. Griffiths), remains the most widely used genetics text book in the U.S.and has been translated into Italian, Spanish, Greek, Indonesian, Arabic, French and German.
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