Human-caused nitrogen deposition has been indirectly “fertilizing” forests, increasing their growth and sequestering major amounts of carbon, a new study in the journal Nature suggests.
The findings create a more complex view of the carbon cycle in forests, where it was already known that logging or other stand-replacement events – whether natural or not – create periods of 5-20 years when there is a net release of carbon dioxide from forests to the atmosphere, instead of sequestration as they do later on.
The
end result is a highly
variable forest carbon cycle that appears to be heavily influenced by
the
footprint of humans, one way or another. It’s a complicated
process with
powerful driving forces that were poorly understood, said scientists
from 10
institutions in the
Until this report, researchers had never quantified the effect of continuous low levels of nitrogen deposition – about 5-10 percent of the amount used by a farmer each year - to spur net carbon uptake by forests and actually offset a significant amount of greenhouse gases into the atmosphere.
This
broad study analyzed the
carbon balance across a network of forest sites that represent nitrogen
deposition in most of
“What
is surprising is that the
net sequestration is quite large for a relatively low level of nitrogen
addition,” said Beverly Law, a professor of forest science at
“Through our forests, fertilization by nitrogen deposition is to some degree offsetting our carbon dioxide emissions – at least right now,” she said.
It was first recognized in the 1980s that human activities, by releasing unprecedented amounts of active nitrogen into the atmosphere, were not just altering the global nitrogen cycle but also causing the eutrophication of large parts of the biosphere, the researchers said in their report. Nitrogen – produced by automobile engines, factories, and intensive agriculture – is often a key, limiting nutrient in forests and other ecosystems.
Early forest growth puts a severe nitrogen stress on the ecosystem initially, and then the forest continues to grow and remove carbon from the atmosphere for the rest of the management or life cycle, accumulating wood at a high rate on the small additional nitrogen inputs.
This growth and sequestration is achieved without applications of fertilizer that would likely result in nitrous oxide emissions, another greenhouse gas, that would offset the benefits to the atmosphere of carbon removal.
However, it’s known that large additions of nitrogen to ecosystems can also be damaging above a certain threshold, researchers say, and it’s unclear how long this process will continue.
“The results demonstrate that mankind is ultimately controlling the carbon balance of temperate and boreal forests, either directly through forest management or indirectly through nitrogen deposition,” the study authors said.
Ultimately,
mature forests, at
least in northern latitudes, absorb and sequester substantial amounts
of carbon
from the atmosphere.
##
Contact:
Beverly Law
bev.law@oregonstate.edu
541-737-6111
Oregon State University
This text
derived from:
http://oregonstate.edu/dept/ncs/newsarch/2007/Jun07/carbonsink.html