Wednesday, February 4th, 2015

New research from the University of Adelaide suggests monitoring ecosystems that appear to be stable is more effective than fixing them once they have collapsed.

The study, led by PhD student Giulia Ghedini from the University’s Environment Institute, examined the canopy-forming algae that create extensive underwater forests all around Australia. The research is published in the prestigious international journal Ecology Letters.

“These underwater forests are host to a wide variety of other smaller plants and animals. When these forests become stressed by human activity, smaller algae that are normally only present in low numbers can rapidly expand. This takes space from the plants that originally formed the canopy, and forests are progressively replaced by beds of low-lying algae,” says Ms Ghedini.

This process gradually transforms green, prolific underwater forests into deserted, much less habitable environments.

“Despite the widespread presence of human disturbances in these environments, such as pollution, many of these underwater forests still exist, showing resistance to stress,” she says.

Ms Ghedini used these forests as a model to better understand the mechanisms of stress resistance. “When nature is strained by human activity, it fights back to remain stable. The more pressure we apply, whether in the form of pollution or carbon dioxide emissions, the harder nature fights back. This fight often remains invisible to us because there is no overall change,” she says.

“Essentially, nature is a bit like a duck on water. The harder the current flows, the harder the duck’s legs have to work, but you see no overall change in the duck’s position. All appears calm until the point at which the duck cannot move its legs fast enough to keep stable. This is when nature starts to change or collapse because the stress is too intense.”

Scientists usually focus on natural systems that are changing under stress to guide their interventions. However, Ms Ghedini’s research suggests it would be possible to intervene prior to nature reaching this point.

“When changes start to occur it is often too difficult to stop and reverse the situation,” she says.

“Understanding how these processes that counter stress work and acting to reduce human stress before ecosystems head for collapse would be a much more efficient approach to manage and preserve nature. Prevention is better than cure,” Ms Ghedini says.

Image caption:
(Left) a kelp forest, which can be found along many temperature coasts; (right) when ecological disturbance it too great, underwater forests can collapse, replaced by turf-forming algae, such as this image from the Adelaide metropolitan coast. 

Media Contact:

Giulia Ghedini
PhD student 
School of Biological Sciences
Environment Institute

The University of Adelaide
Phone: +61 8 8313 1484
Mobile: +61 476 377 273
[email protected]

David Ellis
Media and Communications Officer
The University of Adelaide
Phone: +61 8 8313 5414
Mobile: +61 (0)421 612 762
[email protected]

 

Keywords

Water Ecology

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