Abstract
There is growing evidence that climate
change causes an increase in variation in conditions
for plant and animal populations. This increase in
variation, e.g. amplified inter-annual variability in
temperature and rainfall has population dynamical
consequences because it raises the variation in vital
demographic rates (survival, reproduction) in these
populations. In turn, this amplified environmental
variability enlarges population extinction risk. This
paper demonstrates that currently used nature conservation
policies, principles, and generic and specific
design criteria have to be adapted to these new
insights. A simulation shows that an increase in
variation in vital demographic rates can be compensated
for by increasing patch size. A small, short-lived
bird species like a warbler that is highly sensitive to
environmental fluctuations needs more area for compensation
than a large, long-lived bird species like a
Bittern. We explore the conservation problems that
would arise if patches or reserve sizes would need to
be increased, e.g. doubled, in order to compensate for
increase in environmental variability. This issue has
serious consequences for nature policy when targets
are not met, and asks for new design criteria.
Original language | English |
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Pages (from-to) | 1289-1298 |
Journal | Landscape Ecology |
Volume | 25 |
DOIs | |
Publication status | Published - 2010 |
Keywords
- climatic change
- biodiversity
- habitat corridors
- birds
- key-patch approach
- habitat fragmentation
- landscape
- metapopulation
- conservation
- fluctuations
- persistence
- ranges