Abstract
Grasslands provide many ecosystem services
including carbon storage, biodiversity preservation and
livestock forage production. These ecosystem services will
change in the future in response to multiple global environmental
changes, including climate change and increased
nitrogen inputs. We conducted an experimental study over
3 years in a mesotrophic grassland ecosystem in southern
England. We aimed to expose plots to rainfall manipulation
that simulated IPCC 4th Assessment projections for
2100 (+15 % winter rainfall and −30 % summer rainfall)
or ambient climate, achieving +15 % winter rainfall
and −39 % summer rainfall in rainfall-manipulated plots. Nitrogen (40 kg ha−1 year−1) was also added to half of the
experimental plots in factorial combination. Plant species
composition and above ground biomass were not affected
by rainfall in the first 2 years and the plant community
did not respond to nitrogen enrichment throughout the
experiment. In the third year, above-ground plant biomass
declined in rainfall-manipulated plots, driven by a decline
in the abundances of grass species characteristic of moist
soils. Declining plant biomass was also associated with
changes to arthropod communities, with lower abundances
of plant-feeding Auchenorrhyncha and carnivorous Araneae
indicating multi-trophic responses to rainfall manipulation.
Plant and arthropod community composition and
plant biomass responses to rainfall manipulation were not
modified by nitrogen enrichment, which was not expected,
but may have resulted from prior nitrogen saturation and/or
phosphorus limitation. Overall, our study demonstrates that
climate change may in future influence plant productivity
and induce multi-trophic responses in grasslands.
Original language | English |
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Pages (from-to) | 1173 - 1185 |
Number of pages | 13 |
Journal | Oecologia |
Volume | 176 |
Issue number | 4 |
DOIs | |
Publication status | First published - 2014 |
Keywords
- Biodiversity
- Climate change
- Drought
- Ecosystem functioning
- Nitrogen addition