Media Release: Local bacteria help native seeds take root in arid landscapes

These spinifex seedlings have a greater chance of becoming established with their occupant bacteria. Photo: Frederick Dadzie/Graphic: Shutterstock.

The University of New South Wales

Packaging local bacteria together with the seeds of native plants could replenish the vegetation of ‘dryland’ ecosystems.

Dryland ecosystems cover around 40 per cent of land on earth and support more than 2 billion people, and, once degraded – through overgrazing or inadequate irrigation – they are difficult to restore. One technique for restoring ecosystems with native plants ‘direct seeding’ is promising but has many drawbacks.

“For degraded drylands only around 10 per cent of directly sown seeds actually make it to establishment,” says lead author of the study published in the Journal of Applied Ecology, Frederick Dadzie, PhD candidate at UNSW Sydney’s School of Biological, Earth & Environmental Sciences. “And given native seeds are expensive and often in low supply for the scales required, this is problematic.”

Since one of the potential issues of degraded drylands is an absence of native microorganisms in the soil, the research team acquired native bacteria from undisturbed sites, grew them and introduced them to soil pellets that contained the seeds of native plants – a spinifex and the fire wattle (an acacia) – and planted them in degraded drylands.

“We found that microorganisms were very beneficial for getting the plants established, especially at the earlier stages when they were just seeds making it to a seedling. After that, the relationship was less clear,” says Mr Dadzie.

The success of wattle seed germination, when combined with indigenous microbes, was improved by around 50 per cent. The spinifex, too, had its germination rate improved by around 20 per cent – but only when paired with cyanobacteria (bacteria that photosynthesise).

After germination, however, the presence of indigenous bacteria did not influence plant survival for better or worse. In fact, the average mass of the spinifex was reduced by 11 per cent for those seeds that contained cyanobacteria.

“That microbes improve germination in degraded habitats is good news for ecosystem restoration,” says Mr Dadzie. “And what’s better: this is a simple, two-step process that can be scaled up for restoring dryland ecosystems. First, combining the seeds and soil into pellets, and second, inoculating those pellets with the microbes.”

Exactly which species of indigenous bacteria were present in the soil pellets was not known, but there are a range of mechanisms by which bacteria can improve (and hamper) the germination and growth rate of plants.

“Microorganisms use different mechanisms to improve plant growth, both directly and indirectly. For example microorganisms contribute to moisture infiltration and retention in soils for plants, control soil erosion and enhance nutrient availability to plants. But direct effects of microorganisms on plant growth include the secretion of plant growth-promoting hormones such as auxins that stimulate plant growth.”

Not only are drylands valuable as food bowls for vast numbers of people, but they provide other services, too, says Mr Dadzie. “Due to the vastness of drylands, they have the highest potential to sequester atmospheric carbon and thereby contribute substantially to climate change.”

While this study was conducted at a field site, the seedlings were provided with both shade and water. In the future, the authors say, similar experiments should repeat the methodology but under more naturalised conditions – with environmentally-determined sun and rain.


MEDIA CONTACT: Jesse Hawley,, +61 422 537 392

PAPER: Indigenous bacteria and cyanobacteria can influence seedling emergence and growth of native plants used in dryland restoration [Manuscript is available upon request]


DOI: 10.1111/1365-2664.14293


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These spinifex seedlings have a greater chance of becoming established with their occupant bacteria. Photo: Frederick Dadzie/Graphic: Shutterstock.

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