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Monash expert: The development of terrestrial ecosystems emerging after glacier retreat

Monash University 2 mins read

A Monash University expert from the Australian Research Council research program Securing Antarctica's Environmental Future is available to comment on ‘The development of terrestrial ecosystems emerging after glacier retreat’ published in Nature.

Dr Levan Tielidze, Research Fellow in the Securing Antarctica's Environmental Future, School of Earth Atmosphere and Environment, Faculty of Science, Monash University
Contact: +61 3 9903 4840 or media@monash.edu or Levan.Tielidze@monash.edu 
Read more of Dr Tielidze’s commentary at The Conversation

The following can be attributed to Dr Tielidze:

“The retreat of glaciers is one of the most evident signs of climate change. Across the globe, from the Alps to the Arctic, glaciers are shrinking, leaving increasingly larger areas exposed both in mountainous regions and around polar ice caps. If the current rate of retreat continues, by the end of the century, the area left bare by glaciers worldwide could be equivalent to the entire surface area of Italy. Understanding what happens to these areas and how organisms colonize them is crucial for managing them in the face of the rapid changes ahead. 

“Over the past 10 years, an international team has reached multiple retreating glacier areas around the world, from the Alps to the Himalayas, from the Andes to the Arctic. The team collected over 1200 soil samples near fifty glaciers and brought them to the laboratory to study the soil and the biodiversity associated with it. Using innovative approaches based on environmental DNA, we were able to comprehensively analyse all the organisms living in these areas, including animals, plants, and microorganisms. 

“Colonisation following glacier retreat follows a surprisingly coherent dynamic worldwide. In the very first years, only microorganisms are present, which can develop surprisingly rich communities shortly after the glaciers retreat. It takes about a decade for plants to begin colonising these areas, and they, in turn, facilitate the arrival of animals. As time goes on, it becomes more likely that new organisms will colonise these areas. However, interactions between organisms appear to be the most important process for the dynamics of these ecosystems. Microorganisms help plants and promote the development of fertile soils. Plants create new habitats and increase food availability for animals. Various animals interact with each other, both in predator-prey relationships and as ‘ecosystem engineers,’ such as earthworms, which improve nutrient availability in the soil.”

For any other topics on which you may be seeking expert comment, please contact the Monash University Media team on +61 3 9903 4840 or media@monash.edu

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