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Nitrogen
– the silent species eliminator
European
Science Foundation
Nitrogen
pollution from agriculture and fossil fuels is known to be seriously
damaging grasslands in the
When
Carly Stevens finished her PhD in 2004, her findings were so significant
they were published in Science. Not only that, they were selected as
contributing to one of the top ten scientific breakthroughs of that year
– quite something for a PhD student. Stevens had found the first
evidence that nitrogen deposition from the atmosphere was depleting
numbers of plant species in British grasslands. “There was
experimental evidence that this could happen, but we were the first to
show the effect is real and happening now,” says David Gowing, one of
Stevens’ PhD supervisors at The Open University in the
Stevens
studied acid grasslands – upland pastures with relatively infertile
soils. She found that in places where more nitrogen is deposited, there
are fewer plant species. The gradient was so pronounced that one species
has been lost for each additional 2.5 kg of nitrogen per hectare
deposited every year. Nitrogen from man-made sources, like intensive
farming and cars, causes significant air pollution in the
The
approach to protecting wildlife from nitrogen pollution is to calculate
critical load values for different ecosystems – how much nitrogen a
system can accumulate every year before damage occurs. Infertile
habitats, like heathlands and bogs, are the most vulnerable. But
Stevens’ research showed that species are being lost even where
deposition is ‘beneath’ the critical load for grasslands.
“The
species aren’t going extinct,” Stevens stresses, “but if this is
happening everywhere, we are moving towards much more species-poor
grasslands, and we have no idea what the knock-on effects of that will
be.”
So last
year, Stevens, her UK colleagues David Gowing, Nancy Dise and Owen
Mountford, and a team of experts from Germany, the Netherlands and
France, embarked on a Europe wide project, part of the European Science
Foundation (ESF) EuroDIVERSITY Programme. The project’s aim is to see
if the effects are the same on a wider range of grasslands, across the
entire Atlantic side of Europe. “The low countries and northern
Germany are the epicentre of European nitrogen deposition,” says
Gowing.
70 new
grasslands in at least nine countries have been added to the picture,
including different types of grassland. So far, the first year’s field
results seem to adhere to the pattern, showing that species loss is
directly related to long term deposition of nitrogen. “The loss in
Great Britain is much larger than people had imagined,” says Dise.
“It’s almost 25% of species at the average deposition rate. If this
is occurring across Europe, it will be a very important find.”
Wildflowers and other broad-leaved species, rather than grasses, are the
hardest hit.
The team
has started experiments to see if they can establish how extra nitrogen
has these effects. They hope to predict what will happen in the future.
“Nitrogen deposition in Europe probably peaked in the 1990s, and is
coming down now in many places,” says Gowing. But it may not be
appropriate for policymakers to relax. “Having been accumulating
nitrogen for 40 years,” he continues, “we might be near the edge of
the cliff where communities will suddenly change. Perhaps we’ll be
able to say: you have another five years of accumulating at this rate,
so now is the time to act.”
What
should be done? “We are hoping for a clear signal that you can
maintain species richness [under nitrogen deposition] by biomass
stripping,” says Gowing. That means extra mowing and grazing. “If we
find one, we can offer a management strategy for nature conservation.”
Information
for editors:
1. This
project is called Biodiversity of European grasslands – the impact of
atmospheric nitrogen deposition (BEGIN). It is funded under the European
Science Foundation’s (ESF) EuroDIVERSITY Programme, which fosters
pan-European collaborative research on biodiversity.
2. It
involves scientists from the Open University, UK; the University of
Bordeaux, France; Utrecht University, the Netherlands; the University of
Bremen, Germany; Manchester Metropolitan University, UK and the
Norwegian Institute for Nature Research, Norway. Associated projects are
run by the Centre for Ecology and Hydrology, UK; the University of Lund,
Sweden; Katholieke University, Leuven, Belgium; the University of Metz,
France; the University of Sheffield, UK; The Institute of Ecosystem
Studies, Millbrook, USA; Radboud University of Nijmegen, Netherlands;
the University of Minnesota, USA and the University of Bergen, Norway.
3. EuroDIVERSITY
brings together scientists studying biodiversity from different angles.
It allows those working in very disparate areas, such as microbes,
oceans, and grasslands, to network and collaborate. It also encourages
the study of social and economic aspects of biodiversity change.
4. The
work was presented at the first EuroDIVERSITY conference, held in Paris
from 3-5 October 2007.
5. For
more information on this research, contact the project leader David
Gowing (d.j.gowing[at]open.ac.uk).
Nancy Dise (n.dise[at]mmu.ac.uk;
tel: +44 (0)161 247 1593) and Carly Stevens (c.j.stevens[at]open.ac.uk;
tel: +44 (0)1524 388500, +44 (0)7791 101233) are also available for
comment.
6. EuroDIVERSITY
is one of several European Collaborative Research (EUROCORES) Programmes
coordinated by ESF.
7.
The original papers described in this article are:
Stevens,
C.J., Dise, N.B., Mountford, J.O. and Gowing, D.G. 2004.
Impact of nitrogen deposition on the species richness of grasslands.
Science 303: 1876-1879.
Stevens,
C.J., Dise, N.B. Gowing, D.G. and Mountford, J.O. 2006. Loss of forb
diversity in relation to nitrogen deposition in the UK: regional trends
and potential controls. Global Change Biology 12: 1823-1833.
Category:
Media Centre, EUROCORES, LESC, Homepage, Press Releases 2007
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NOTE: In accordance with Title 17 U.S.C. section 107, any copyrighted
material herein is distributed without profit or payment to those
who have
expressed a prior interest in receiving this information for
non-profit
research and educational purposes only. For more information go
to: http://www.law.cornell.edu/uscode/17/107.shtml
Source: http://www.esf.org/media-centre/press-releases/ext-single-news/
article/nitrogen-the-silent-species-eliminator-341.html