Three new
studies of how the world works show that seabird excrement plays an unexpected
role, as do polar algae and rotting trees.
The world’s seabirds don’t just live off the land, they also nourish it: their
excrement delivers 591,000 tons of nitrogen and 99,000 tons of phosphorus to
feed plant communities in the soil and the water.
One polar
plant community that happens to be flourishing is now to be found on the
surface of Greenland’s icecap: green things are growing so well they
are darkening the surface, which then reflects less light and absorbs more
warmth. This algal darkening could be responsible for at least 5%, and possibly
10%, of the island’s total ice melt each summer. And
although the Arctic tundra wetlands are known to deliver between 16
and 27 million tons of methane to the atmosphere every year, they have
unexpected competition in the natural greenhouse gas emission stakes.
New research
reveals that the Amazon floodplain’s rainforest itself – most frequently
thought of as a carbon sink for the planet – releases up to 21 million
tons of methane to the atmosphere each year. This is more methane from one
forest than from all the world’s oceans.
This catalogue
of unexpected information has been made available by geographers, climate
scientists and biologists involved in global warming research: each finding is
confirmation that the planet must be considered as an intricate economic
system, involving a continuous traffic between plants, animals, oceans,
icecaps, atmosphere and the rocky surfaces of the continents. It also confirms
that the accounting of these exchanges is still incomplete.
Ironic discovery
The irony is
that in the process of trying to understand the climate change that poses a
potential threat to human civilizations, humans now know their planet better
than ever before.
But each
individual bit of research confirms that there is still some way to go before the
picture is complete. US scientists two years ago confirmed that ammonia from the guano left behind by breeding seabirds in the Arctic played a
role in cloud droplet formation, which in turn reflected sunlight to keep the
Arctic cool.
But Spanish
and Mexican scientists wanted to know more. They report in Nature
Communications that the 320 species of the world’s seabirds probably add
up to 1,045 million individual birds, including 804 million breeding birds and
their chicks.
Seabirds –
gulls, penguins, puffins, guillemots, auks, albatrosses, shearwaters, fulmars,
cormorants and so on – tend to nest in colonies, leaving over many millennia
deposits of guano so rich and thick that in the 19th century nations
fought over this agricultural resource.
Ten species,
they found, contributed more than 60% of the nitrogen and phosphorus, two
elements essential to all life. These contributors might not be the most
numerous: the five penguin species and four albatrosses – big birds that spent
long periods in their colonies – were the biggest contributors per individual.
"The planet must be considered as an intricate economic system,
involving a continuous traffic between plants, animals, oceans, icecaps,
atmosphere and the rocky surfaces of the continents
The nitrogen
gets from the colonies to coastal waters to increase primary plant life. So
what the study’s authors daintily call “ornitheutrophication” has, they say,
“geochemical and environmental relevance on a global scale.”
European and
US scientists who looked at the mysterious darkening of the Greenland snows
each summer were concerned with environmental relevance: Greenland is host to
so much ice that, were it all to melt, sea levels would rise by seven metres,
to drown most of the world’s coastal cities.
They report
in Geophysical Research Letters that algae grow naturally on the ice
surface, to darken the sheet, even more effectively than black carbon and
dust linked to wildfires further south.
They used
instruments every day over a 56-day period to confirm that the ice sheet
reflected significantly less light as the algae grew. They also concluded that
algal growth was responsible for 70% of the variance in the ice sheet’s albedo
(the climate scientist’s term for the capacity of land, ice or water to reflect
solar radiation).
More growth
“As the
climate warms, the area that the algae can grow in will expand, so they’ll
colonise more of the ice sheet,” said Marek Stibal, an ecologist at
Charles University in Prague, who led the research.
“Additionally,
the growing season will lengthen, so the contribution of algae to melting of
the ice will probably increase over time.”
British,
Brazilian, Canadian and US scientists report in the journal Nature that
they monitored methane flow from the stems of 2,357 individual trees at 13
locations on the Amazon floodplain.
Methane –
sometimes called marsh gas – is a natural greenhouse gas linked to
decomposing vegetation, and is around 34 times more powerful than carbon
dioxide at trapping atmospheric heat.
Mosaic of measurement
The scientists
found that methane release from the Amazon trees was 200 times that from
temperate wet forests and tropical peat swamp woodlands.
This finding,
like the evidence from sea bird nutrients and glacial algae, represented yet
another piece in the mosaic of meticulous measurements that provide the basis
for a better understanding of how climate works.
“We are not,
in any way, saying that trees are bad for the environment – this is how natural
forests function. We now have a fuller picture of the sources of greenhouse gas
emissions and this could help to inform how environmental change can have a
knock-on effect on the tropical wetland methane source,” said Sunitha
Pangala, then at the Open University but now at the University of Lancaster in
the UK, who carried out the study.
“Emissions
from these Amazon trees are still only half as much as those created by humans
in the form of landfill and waste, so we should be targeting reductions in
human emissions.”
Tim Radford – Climate News Network
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