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September 2021 - 2:42 pm IST

Science

Scientists fight to fix the world's soils

Scientists fight to fix the world's soils

Published:14 September 2021

On a rural Bangladesh farm, Sonatan holds special blessing ceremonies for a small, cheap tractor that changed his life.

Australia | On a rural Bangladesh farm, Sonatan holds special blessing ceremonies for a small, cheap tractor that changed his life. It's been a remarkable few years for the former clay-pot maker who always struggled to feed his family. The problem Sonatan faced was that traditional farming methods in rural Bangladesh—where extreme poverty and malnutrition are among the highest in the world—were too slow and arduous to make a decent living. With equipment traditionally pulled by buffalo, by the time rice was harvested the land was dry and depleted and it was impossible to grow dietary staples, such as lentils and chickpeas.

Now, Murdoch University soil scientists are transforming the lives of thousands of south Asian farmers with a small seeding machine that demands more sustainable farming techniques. Soil and land management specialist Professor Richard Bell says it means families can afford education, better housing, and vital health care and medications—while also radically improving the quality of soils farmed. "If a farmer adopts our whole package and uses it for two or three crops a year... there is something like $300 to $350 per hectare extra to be made a year," Professor Bell said. "It doesn't sound like a lot, but it is a lot in terms of small farm-holders in Bangladesh."

When used on small farms, the system uses up to 86 percent less fuel for crop establishment, 34 percent less labor and up to 33 percent less water, Professor Bell said. "This means anywhere from a 48 percent to 560 percent increase in profits for Bangladeshi farmers, according to our surveys." It's life-changing work in a land where a growing population nudging 163 million people has pushed food production onto tiny pockets of land—often no bigger than the average Australian backyard—to make way for housing.

The problem beneath our feet

But while landowners in developed countries have much better access to machinery, a soil crisis caused by intensive farming practices, deforestation and wind erosion plagues farmers across the globe. According to the United Nation's Food and Agricultural Organisation, a third of the world's soil is degraded and suffering from a loss of soil biodiversity, increased salinity, pollution, acidification and compaction. In Western Australia, Murdoch University soil scientists are bringing these barren soils back to life in work that hopes to secure food sources for generations to come. The new practices are being developed at the Food Futures Institute and utilize bioplastics, the ability to grow more with less water and fuel, and soil regeneration.

SoilsWest director Associate Professor Frances Hoyle says the key is understanding the complex functionality of soil and using it to help fight climate change.

Growing a chance of survival

More than seven billion microorganisms live inside every handful of soil and these microbes consume carbon as food to survive. "There is growing interest about how soils can also be active in suppressing carbon and trading it within a carbon trading framework," Dr. Hoyle said. Dr. Hoyle has been studying the sandplains in the South-West of Western Australia to uncover how different farming practices changed the amount of carbon stored in the ground. She is comparing soil samples taken 15 years ago to today.

It's about understanding the drivers and the mechanisms that alter the rate of soil organic carbon decomposition and therefore how much we are utilizing and how much we are building," says Associate Professor Hoyle. Dr. Hoyle has teamed up with industry and government and found that moisture and temperature play a key role in altering the carbon levels of soils. "Carbon is balanced by inputs and outputs. So, the inputs are based on rainfall and how plant biomass can grow, the outputs (or losses) are associated with how quickly it decomposes. "With every 10C increase in temperature the rate of decomposition doubles," she said.

Dr. Hoyle wants to exploit perennial pasture systems on the cooler south-coast of Western Australia to store new carbon. "It's cool and it's wet, so we can grow lots of biomass and it's not breaking down as rapidly, so it has a greater potential to store new carbon compared to something in the northern agricultural region."

A playbook for better soils

Agriculturalist Professor Richard Harper has measured carbon sequestration for hundreds of small six meter evergreen tagasaste trees planted 180km north of Perth, near the Wheatbelt town of Moora. In an area where nothing was growing under agriculture, the tagasaste planting put three tons of carbon dioxide each year into the soil and another six tons per year in the biomass of the trees. In another project, run by Associate Professor Rachel Standish and Greening Australia, planting on Peniup farm turned infertile soils from land unable to grow crops into a carbon sink alive with trees.

While these type of projects are realizing opportunities in unproductive land, microbiologist Professor Daniel Murphy is equipping farmers with a playbook for how to better manage productive and marginal land. The latest tool in their arsenal is a new book called "Soil Quality 6: Soil Compaction," which contains recommendations based decades of research that can help sustain agriculture into the future. "It includes information on beneficial and disease-causing organisms and the influence of the environment and management on soil habitats which impacts soil production and resilience," Professor Murphy said.

Dr. Hoyle, who is co-author on the book, says her research is helping to provide solutions for the world's major food and environmental challenges by giving farmers the mechanisms, causes and factors that impact soil quality, including from a biological, chemical and physical aspect.

The research forms a key part of the Food Futures Institute's mission to secure and sustain the food bowls of the future. "Intensification of agriculture over the past 50 years has increased food production, but urban expansion, erosion, nutrient run-off, salinity, biodiversity loss and climate change are posing enormous challenges," said Professor Peter Davies, Pro Vice Chancellor of the Food Futures Institute.

"This work will help us contribute solutions to some of these challenges by delivering answers to the pressing questions that farmers have."


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