Study maps global regrowth carbon capture potential

By on 7 October, 2020

Australian Poplar box regrowth. Image: CSIRO/Stephen Roxburgh.

CSIRO scientists have joined researchers across the globe to produce a 1km resolution map of carbon accumulation potential from forest regrowth.

Published in Nature, the study is the first of its kind, producing a ‘wall to wall’ global map that highlights forested areas with greatest carbon returns if allowed to regrow naturally.

The researchers found that average default forest regrowth rates used by the UN Intergovernmental Panel on Climate Change (IPCC) may have been underestimated by 32 percent.

“We know there is no single, one-size-fits-all solution for addressing climate change. Our goal with this study was to show where forests can capture carbon fastest on their own,a mitigation strategy that complements keeping forests standing,” said co-author Dr. Nancy Harris from World Resources Institute.

“If we let them, forests can do some of our climate mitigation work for us.”

Australia’s Commonwealth science agency, the CSIRO, supplied datasets for the study including 72 Australian forest stands, areas surveyed for biomass carbon.

Led by the Nature Conservancy, the study redefined international estimates and highlighted the role of natural forest regrowth in carbon accumulation, according to Report co-author and CSIRO Principal Research Scientist Dr. Stephen Roxburgh.

“The global study complemented recent Australian work on carbon accumulation rates for planted and naturally regenerating stands of woody biomass across Australia,” he said.

“The datasets were collected for the Australian Government’s national greenhouse gas accounting program, and were also used to better understand the carbon storage potential from restoring degraded woody vegetation.”

Human induced natural regeneration of woody vegetation is a substantial contributor to carbon storage activities being carried out under Australia’s Emissions Reduction Fund.

Dr. Roxburgh said the study found climate, rather than past land use, was the most important driver of potential carbon accumulation, with the work providing an important benchmark to assess the global potential of forest regrowth as a climate mitigation strategy.

The full report is available from Nature, with an overview of the data published on the Natural Climate Solutions World Atlas, a project by Nature4Climate (N4C) –a coalition established by The Nature Conservancy with Conservation International, World Resources Instituteand other partnersto increase global investment and action on nature-based solutions.

Stay up to date by getting stories like this delivered to your mailbox.
Sign up to receive our free weekly Spatial Source newsletter.

You may also like to read:

, , , , , , , , , , , ,


Sign up now to stay up to date about all the news from Spatial Source. You will get a newsletter every week with the latest news.

  • This field is for validation purposes and should be left unchanged.
Spatial Digital Twin helps track mouse plague
Landholder sightings of mice are now in the NSW Spatial Digi...
Precise positioning is unleashing innovation
Australia’s National Positioning Infrastructure Capability...
Geoscape partners with GeoX for AI boost
Geoscape Australia will use GeoX’s machine vision and deep...
NT aims to tap into US$43b drone industry
The Territory sees itself as being ideally placed for activi...
C.R. Kennedy becomes distributor for Matterport
Matterport develops hardware and software for reality captur...
Wingtra launches the WingtraOne GEN II
Wingtra has announced the availability in Australia of the W...