Monitoring
the changes in the size of a population does not in itself
provide sufficient information on which to base an effective
conservation strategy (Goss-Custard
1993, Furness
& Greenwood 1993). Concurrent monitoring of breeding
performance and survival rates is necessary to allow changes
in population size to be properly interpreted (Temple
& Wiens 1989, Crick
et al. 2003) and, for long-lived species, can
provide early warning of impending conservation problems (Pienkowski
1991).
Where
good long-term data sets for breeding performance and survival
are lacking, conservation action may have to be taken without
an adequate understanding of the mechanisms involved or need
to wait for detailed research to be undertaken. For many species,
however, BTO already has the necessary data, collected by
its volunteers over periods of several decades (Greenwood
2000).
For a
long-lived species, a decline in population may not begin
until a long period of low survival or reduced reproductive
output has elapsed. The classic example is that of the Peregrine,
which in the UK suffered from poor breeding performance during
the 1940s and 1950s due to sub-lethal DDT contamination. This
decreased the capacity of the non-breeding population to buffer
the severe mortality of breeding adults that occurred due
to cyclodiene poisoning from the mid 1950s onwards (Ratcliffe
1993). Monitoring of breeding performance gave an
early warning of subsequent numerical decline (Pienkowski
1991). Another example of a decline in breeding performance
that presaged population decline is the catastrophic breeding
failures of seabirds, particularly Arctic Terns, in Shetland
(Monaghan et
al. 1989, 1992,
Walsh et al.
1995, Mavor et
al. 2003, 2004,
Wanless et al.
2005).
Farmland
birds
During
the mid 1980s, the BTO identified rapid declines in the population
sizes of several farmland bird species (O'Connor
& Shrubb 1986, Fuller
et al. 1995). The BTO has since been able to
investigate the demographic mechanisms underlying these declines,
using its long-term historical data sets (Siriwardena
et al. 1998a, 2000a).
This
investigation, which was Government-funded and undertaken
jointly with Oxford University, looked at changes in population
size, breeding performance and survival rates of a variety
of species in relation to changing farming practice. It showed
that species responded to different aspects of the agricultural
environment, but that typically these aspects were linked
to intensification or regional specialisation. Declines in
survival rates were found to be the main factor driving population
decline in these species, with the exception of Linnet,
for which the main factor appears to have been a decline in
nesting success at the egg stage (Siriwardena
et al. 2000b). The study was therefore able to
eliminate some possible causes of change, and identify areas
for future research, thus helping conservation bodies to use
their scarce resources productively. This work made an important
contribution to the wider programme of work on farmland birds
undertaken by many research and conservation organisations
(Aebischer et
al. 2000, Vickery
et al. 2004).
This report
describes a number of other cases where the combined analysis
of BTO data sets has helped to identify the causes of population
declines, for example on the pages for Lapwing
(Peach et al.
1994), Song Thrush
(Baillie 1990,
Thomson et al.
1997, Robinson
et al. 2004), Sedge Warbler
(Peach et al.
1991), Willow Warbler (Peach
et al. 1995a), Spotted
Flycatcher (Freeman
& Crick 2003), Starling
(Freeman et al.
2002, 2007b),
and House Sparrow (Freeman
& Crick 2002). A fully integrated approach, estimating
trends in numbers and demographic parameters through a single
model containing data from various BTO surveys, is introduced
by Besbeas et al.
(2002).
Biodiversity
Action Plans
The ability
to quickly determine the stage of the life-cycle most heavily
involved during population declines is particularly important
for the conservation agencies when considering the plight
of species on the lists of conservation concern (JNCC
1996, Anon. 1995,
1998). Analysis
of BTO data sets, which has already helped to build these
lists, is a key point in several of the UK Government's Biodiversity
Action Plans for rapidly declining species. Once conservation
actions have been initiated, the BTO's Integrated Population
Monitoring programme has a further function, because the success
of these actions will be measured and assessed by continued
BTO monitoring.
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