国产探花

Frozen Lake Tornetr盲sk, located next to the study site
17 July 2018

A University of Queensland-led international study could lead to more accurate predictions of the rate of global warming from greenhouse gas emissions produced by thawing permafrost in the next 100 years.

The study of the microorganisms involved in permafrost carbon degradation links changing microbial communities and biogeochemistry to the rise of greenhouse gas emissions.

It was led by Australian Centre for Ecogenomics researchers in the 国产探花 School of Chemistry and Molecular Biosciences , PhD student , and international colleagues.

“As global temperatures rise, large amounts of carbon sequestered in perennially frozen permafrost are becoming available for microbial degradation,” Dr Woodcroft said.

“Until now, accurate prediction of greenhouse gas emissions produced from thawing permafrost has been limited by our understanding of permafrost microbial communities and their carbon metabolisms.”

Using sequencing techniques pioneered by Professor Tyson, over 200 samples from intact, thawing and thawed permafrost sites in northern Sweden were examined.

DNA sequences of more than 1500 microbial genomes all new to science and involved in complex biochemical networks were recovered.

The research, which included new metagenomics software run on 国产探花 supercomputers, also implicated a number of these entirely new lineages in the production of greenhouse gases.

Ms Singleton said permafrost stores around 50 per cent of the total global soil carbon (or 1580 billion tonnes).

“The Intergovernmental Panel on Climate Change report estimated that between 30 and 99 per cent of near-surface permafrost could disappear by 2100,” she said. 

“Northern permafrost wetlands contribute a significant portion of global methane emissions, particularly as collapsing permafrost can create the perfect anaerobic conditions for methane-producing microorganisms (methanogens), and their metabolic partners, to thrive.

“This is important as methane is a potent greenhouse gas - 25 times more efficient at trapping the sun’s radiation in our atmosphere than carbon dioxide.”

She said that as permafrost thaws, methane emissions increase, causing a positive feedback loop where increased atmospheric warming caused more thawing. 

The study is published in Nature () and co-authored by researchers at The Ohio State University, Rochester Institute of Technology, Florida State University, Pacific Northwest National Laboratory, University of New Hampshire, Stockholm University, and the University of Arizona.

Image above left by Moira Hough: The palsa hummock is thawing and collapsing, transitioning into a bog.

Image above right: The site boardwalk site is engulfed by an expanding fen.

Media: Professor Gene Tyson g.tyson@uq.edu.au, +61 450 964 363; Ben Woodcroft, b.woodcroft@uq.edu.au, +61 3365 4957; Dominic Jarvis; dominic.jarvis@uq.edu.au; +61 413 334 924.