Magic dirt

There鈥檚 a magical world beneath our feet. Academics and scientists at Waite are working tirelessly to help improve soil health across the nation.听

TERN training activity

Ben Sparrow and Nikki Francis-Martin lead a TERN training activity describing soil properties including colour and texture.

Soil researcher has a serious case of job satisfaction.听

The Senior Mortlock Fellow at the spends his days researching the interactions between carbon and nutrient geochemistry in agricultural systems. Ehsan was born in Iran and moved to Australia in 2005 to continue his studies. After completing his Master of Science in Agriculture at the University of New England in New South Wales, he moved to Adelaide in 2007 to pursue his PhD at Waite.听

鈥淚 was lucky to be funded by the (GRDC) for a scholarship,鈥 he says. 鈥淲orking at Waite campus is not a nine-to-five job. It鈥檚 all about passion.鈥澨

Ehsan has plenty of passion. Anyone working in soil research does. They have the potential to change the world we live in, and it is a responsibility they take seriously.听

鈥淲e are sitting in one of the most influential locations in the world,鈥 Ehsan says, as he settles in for a chat at Waite鈥檚 Beltana Caf茅. 鈥淚t has produced so much practical knowledge towards advancement of agriculture and environmental and food production. The campus includes the School of Agriculture, Food and Wine鈥檚 co-located partners, such as , , the , and.听

鈥淥ver the past 100 years, they have collectively made significant contributions towards improving the productivity and sustainability of agriculture in Australia 鈥 and globally.鈥澨

Ehsan and his peers carry our future on their shoulders through their research. 鈥淢y real interest is to come up with technology that can be adopted by farmers to improve their productivity, sustainability, and eventually impact the Australian economy,鈥 he says. 鈥淎 back-of-an-envelope calculation shows that every year, across the northern, southern and western part of the country, we lose about $3.4 billion by not unlocking the potential that remains in soil.鈥

Fortunately, the brains trust at Waite is powerful.

鈥淚鈥檝e been exposed to some of the best scientists and academics that you can wish for,鈥 Ehsan says. 鈥淥ne of the people that really changed my life was , a plant scientist who still works here.鈥

Another source of inspiration was , a chemist who applied his knowledge of chemistry to the environment.

鈥淭here鈥檚 a lot of rapid changes in chemistry, and chemical engineering in bacterial science,鈥 Ehsan says. 鈥淎griculture is often really traditional, but the innovation here is to adopt the latest advances in nanotechnology and the latest advances in chemical engineering, to come up with innovation for agriculture.鈥

To Ehsan, no work could be more important. 鈥淲hen you think about agricultural soils in Australia, more than 75 per cent of our soils are suffering from one, or more than one problem,鈥 he says. 鈥淎pproximately 98.8 per cent of our food comes directly from soil. That is significant.鈥

researches soil and environmental chemistry, ecotoxicology, risk assessment, food quality, crop nutrition and fertiliser technology. He also travelled to Australia to complete his PhD, after studying in his homeland of Ireland, and in the UK and South Africa.

鈥淚 came to Australia because of Waite鈥檚 reputation in soil science,鈥 he says. 鈥淚 did my PhD at Waite and worked for CSIRO for many years, before joining the University in 2004. I鈥檝e worked a lot on soil contamination by heavy metals, how they get into soil and trying to come up with environmental regulations to safely use fertilisers on soil.鈥澨

Michael describes himself as a soil chemist. 鈥淚鈥檝e used chemistry in both the contamination areas and the soil fertility area,鈥 he says. 鈥淢ore recently, it鈥檚 almost verging into engineering, where we got into a relationship with a major multinational fertiliser company [Mosaic] in 2004. Since then, we鈥檝e been helping them develop new products to reduce听environmental losses of nutrients to waterways or to the air, and to improve crop recovery of nutrients that we apply to the land.鈥

TERN

In a research career spanning more than four decades, Michael has seen it all. He says the advent of modern instrumentation has totally transformed the way soil science research is conducted. He describes the global 鈥渕ood shift鈥 as heartening.

鈥淧articularly in the last five years, the World Health Organization Food and Agriculture Organisation (FAO) have really done a lot to improve the understanding of the importance of soils,鈥 Michael says. 鈥淪ocial media is helping to educate a lot of people in cities about the importance of soil science, through LinkedIn, X, and Facebook, and in Australia we鈥檝e been really lucky to have a national soils advocate, set up by the government.

鈥淭he Soil Science Society has really engaged with the National Soils Initiative, and through those new communication channels, I think a lot more people in urban areas now understand about soil.鈥

Forward thinking is also a major part of 鈥 work. Thomas is currently focusing on the complex interactions between under-vine cover crops, soil health and perennial horticulture crops.

鈥淚鈥檓 trying to understand how different cover cropping mixes influence almond orchards,鈥 he says. 鈥淲e鈥檝e got one trial site in Loxton in the Riverland and one near Griffith in New South Wales. We鈥檙e putting a lot of money into sensors at our primary site in the Riverland, and we鈥檙e gearing up for a lot of data collection over the next few years.鈥澨

Thomas鈥檚 work includes industry outreach.听

鈥淭he general angle is that farmers and growers need to think about the decisions they鈥檙e making that influence the soil,鈥 he says. 鈥淵ou don鈥檛 have to maintain really tight control over everything by using heaps of herbicides; instead, you can have groundcovers and if you select a good mix of species and allow them to establish an ecosystem, you can get a lot of benefits without the downsides traditionally ascribed to having weeds in a vineyard or orchard.鈥澨

It鈥檚 a long game.听

鈥淚t鈥檚 really tricky. For almonds, their lifespan is 30 years, so if you want to make a big change, you don鈥檛 want to pull the trees out and start again. Having said that, almond growers are extremely interested in developments and better ways of doing things,鈥 Thomas says. 鈥淔undamentally, if you鈥檝e got roots in the ground, as opposed to bare earth, then those plants are putting beneficial compounds into the soil and building life there. If you have life in the ground, it has the capacity to help the other plants; it provides habitat for fungi and microbes.鈥澨

On the whole, Thomas is optimistic about the direction in which Australian agriculture is going. 鈥淚t鈥檚 a real gear change to shift from controlling a thing to within an inch of its life 鈥 almost like a 鈥榟ydroponics in the soil鈥 sort of system 鈥 to a place where you鈥檙e working with an ecosystem rather than against it,鈥 he says.听

Nearby, the team at the (TERN) is also focused on future-proofing. , Program Lead of TERN鈥檚 Ecosystem Surveillance Research Infrastructure, leads a team of approximately 30 people devoted to collecting data for scientists. The result is a comprehensive national soil library of sorts, stored in a large shed, tucked away on the Waite campus.听

The samples were meticulously collected over more than 10 years, and the world-class research infrastructure helps scientists monitor changes to the environment and climate. The volume of samples is astounding.听

鈥淢y team here works on monitoring changes to Australian environments by collecting standardised information on soil and vegetation from across the whole continent,鈥 Ben says. 鈥淲e鈥檝e enabled some pretty amazing research using the samples and data that we鈥檝e collected. The idea is that anyone can access the data online, or apply to use our physical samples 鈥 from academics to land managers.鈥澨

The important work also helps to enable predictions of future risks.听

鈥淚t鈥檚 not about what we find, it鈥檚 more about what we enable others to find,鈥 Ben says. 鈥淚鈥檓 one of the earlier employees on the team, and I was really involved with helping design what we do and what we measure. I get a fair bit of satisfaction when people use the data or the samples we have collected for things you never intended, especially when they find some really exciting results.鈥澨

Though there are problems to be solved and potential to be unlocked, the future of Australian soil is in good hands at the Waite.听

鈥淪ome of the best global talent has studied here or are still here educating the next generation of people,鈥 Ehsan says. 鈥淭hey are the next generation and arrive with ideas, enthusiasm, and a hardworking attitude.鈥澨

Written by Katie Spain

Photography by 成人大片 and Nicolas Rakotopare

Tagged in Lumen Waite 100, TERN, Research