Regrowing forests are absorbing just a small proportion of the carbon dioxide released from widespread deforestation in the Amazon, according to new evidence
From Lancaster University
September 28, 2020 -- After calculating
how much carbon had been lost through deforestation, scientists have discovered
that, in more than 30 years, the regrowth of secondary forests in the Brazilian
Amazon has offset less than 10 per cent of emissions from the loss of old-growth
forests.
Secondary forests -- areas of new forest
growing on land that has previously been deforested -- form a key part of
policies aiming to tackle net carbon emissions and mitigate climate change.
In 2017 there were nearly 130,000 square
kilometers of secondary forest in the Brazilian Amazon -- roughly equivalent to
the size of England.
Despite their scale and importance for
climate targets, our understanding of their contribution to the tropical carbon
balance is incomplete. It was not clear to what extent carbon emissions from
deforestation have been offset by secondary forest growth, or how this has
varied over time.
A new study by an international team of
researchers from the UK and Brazil, published by Global Change Biology,
used open source MapBiomas data to map the age, extent and carbon stock of
secondary forests across the Brazilian Amazon between 1986 and 2017.
After calculating how much carbon had
been lost through deforestation, the scientists discovered that, in more than
30 years, the regrowth of secondary forests in the Brazilian Amazon has offset
less than 10 per cent of emissions from the loss of old-growth forests.
Charlotte Smith, a PhD researcher at
Lancaster University and lead author of the study, said: "Secondary
forests have an incredible potential to store large quantities of carbon.
However, it takes a long time for them to build this carbon stock, so without a
drastic decline in the rate of deforestation their environmental benefits will
continue to be undermined."
Despite a fifth of deforested land now
being covered in secondary forest, the researchers found that most secondary
forests are relatively young -- more than 85 per cent are younger than 20 years
old and almost half (42 per cent) are less than five years old.
This is because secondary forests are
also subject to deforestation. Areas of land have been repeatedly deforested --
thus limiting secondary forests' effectiveness as a carbon store. "Of all
the secondary forest mapped over the 32-year period, 60 per cent had been
deforested again by 2017," said Charlotte.
The researchers then looked at other
factors known to affect secondary forest growth and carbon up-take, such as
climate, landscape and proximity to old-growth forests, which can act as a
source of seeds.
They found that the majority of
secondary forests are situated far from primary forests, in the drier parts of
the Amazon. These factors suggest they will be relatively poor for taking-up
carbon.
The findings highlight that halting
deforestation, particularly of old-growth forest, is essential and that
secondary forest growth alone is not sufficient to control carbon emissions in
the Amazon.
Co-author, Professor Jos Barlow, said:
"Although secondary forests could be an important part of the solution to
climate change, it is also important not to overstate their relevance.
Deforestation rates in the Brazilian Amazon surpassed 10,000km2 last year, and
will almost certainly surpass that in 2020."
The researchers hope that these results
will help inform policies and management proposals that can mitigate climate
change more effectively. "We show that preventing further deforestation
remains the most urgent priority to mitigate climate change," said
Charlotte.
https://www.sciencedaily.com/releases/2020/09/200928152848.htm
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