Kestrel
Falco tinnunculus (Linnaeus, 1758)
K.
KESTR
3040
Family: Falconiformes > Falconidae
This small falcon is one of our most familiar and widely-distributed birds of prey, absent only from Shetland, parts of north-west Scotland and central Wales.
Kestrels prefer grassland habitats over which they can hunt for small mammals and small birds. A cavity nester, the species will also use suitable nest boxes, a behaviour that has enabled detailed study of their breeding ecology.
While still widely distributed, annual monitoring data have highlighted a decline in Kestrel numbers, the causes of which remain unclear. In some areas predation by Goshawks has been linked to the loss of local breeding pairs.
Exploring the trends for Kestrel
Our Trends Explorer will also give you the latest insight into how the UK's Kestrel population is changing.
trends explorerIdentification
Kestrel identification is often straightforward. The following article may help when identifying Kestrel.
Identifying Cuckoo
Cuckoos are well-known birds, but their distinctive and eagerly awaited song can be confused with several other species. Despite their popularity, Cuckoos are rarely seen and, when they are, can easily be mistaken for a bird of prey. Let us help you pick out this iconic bird that was once believed to turn into a Sparrowhawk in the winter - neatly explaining it's silence and disappearance outside the breeding season.
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SONGS AND CALLS
Listen to example recordings of the main vocalisations of Kestrel, provided by xeno-canto contributors.
Other
Alarm call
Call
Develop your bird ID skills with our training courses
Our interactive online courses are a great way to develop your bird identification skills, whether you're new to the hobby or a competent birder looking to hone your abilities.
Browse training coursesStatus and Trends
Population size and trends and patterns of distribution based on BTO surveys and atlases with data collected by BTO volunteers.
CONSERVATION STATUS
This species can be found on the following statutory and conservation listings and schedules.
POPULATION CHANGE
Kestrels had recovered from the lethal and sublethal effects of organochlorine pesticides by the mid 1970s, the recovery probably driven by improving nesting success, but subsequently entered a steep decline in the late 1970s and early 1980s. Since the mid 1980s, the English population has fluctuated without a long-term trend being apparent but there are significant declines over the BBS period in England and especially in Scotland. The BBS map of change in relative density between 1994-96 and 2007-09 indicates that increase was widespread during that period, in contrast to the longer-term trend, but that decreases occurred in Northern Ireland, northwestern Scotland and in some English cities. There has been increase in the number of fledglings per breeding attempt. Despite its decline since the mid 1970s, the Kestrel breeds at high density in mixed farmland across much of England, suggesting that the British population might have exceeded 50,000 pairs (Clements 2008). A moderate decrease has been recorded in the Republic of Ireland since 1998 (Crowe 2012). There has been a decline across Europe since 1980 (PECBMS: PECBMS 2020a>).
In Scotland, the Scottish Raptor Monitoring Scheme is working to enhance coverage and is aiming to produce local study area trends for this species (Challis et al. 2018).
UK breeding population | -40% decrease (1995–2022) |
Exploring the trends for Kestrel
Our Trends Explorer will also give you the latest insight into how the UK's Kestrel population is changing.
trends explorerDISTRIBUTION
Kestrels are widespread and abundant, being present in almost 90% of 10-km squares in both winter and the breeding season. Densities are highest in central and eastern England.
Occupied 10-km squares in UK
No. occupied in breeding season | 2604 |
% occupied in breeding season | 86 |
No. occupied in winter | 2702 |
% occupied in winter | 89 |
European Distribution Map
European Breeding Bird Atlas 2
Breeding Season Habitats
Most frequent in | Scrub, Arable Farmland |
Relative frequency by habitat
Relative occurrence in different habitat types during the breeding season.
DISTRIBUTION CHANGE
A large population decline has been accompanied by a small breeding range contraction.
Change in occupied 10-km squares in the UK
% change in range in breeding season (1968–72 to 2008–11) | -5.6% |
% change in range in winter (1981–84 to 2007–11) | +3.4% |
SEASONALITY
Kestrels are present year-round.
Movement
Information about movement and migration based on online bird portals (e.g. BirdTrack), Ringing schemes and tracking studies.
RINGING RECOVERIES
View a summary of recoveries in the Online Ringing Report.
Foreign locations of birds ringed or recovered in Britain & Ireland
Biology
Lifecycle and body size information about Kestrel, including statistics on nesting, eggs and lifespan based on BTO ringing and nest recording data.
PRODUCTIVITY & NESTING
Exploring the trends for Kestrel
Our Trends Explorer will also give you the latest insight into how the UK's Kestrel population is changing.
trends explorerSURVIVAL & LONGEVITY
View number ringed each year in the Online Ringing Report
Maximum Age from Ringing | 15 years 11 months 1 days (set in 2003) |
Typical Lifespan | 4 years with breeding typically at 1 year |
Adult Survival | 0.69 |
Juvenile Survival | 0.32 (in first year) |
Exploring the trends for Kestrel
Our Trends Explorer will also give you the latest insight into how the UK's Kestrel population is changing.
trends explorerBIOMETRICS
Wing Length | Adults | 247.4±10.5 | Range 233–262mm, N=292 |
Juveniles | 245.6±15.8 | Range 210-264mm, N=239 | |
Males | 243.8±8 | Range 232–256mm, N=176 | |
Females | 252.8±11.5 | Range 235–265mm, N=111 |
Body Weight | Adults | 206±33.4 | Range 160–273g, N=239 |
Juveniles | 199±30.2 | Range 159–248g, N=187 | |
Males | 196±24.9 | Range 164–245g, N=148 | |
Females | 221±39.3 | Range 159–281g, N=87 |
Feather measurements and photos on featherbase
CODES & CLASSIFICATION
Ring size | E |
Field Codes | 2-letter: K. | 5-letter code: KESTR | Euring: 3040 |
For information in another language (where available) click on a linked name
Research
Interpretation and scientific publications about Kestrel from BTO scientists.
CAUSES AND SOLUTIONS
Causes of change
At present, the link between potential factors and the population trend of Kestrels has not been established and new research is needed. In the meantime, landowners keen to offer suitable Kestrel habitat should provide grassy cover for small mammals.
Further information on causes of change
The main period of decline in Britain occurred from the mid 1970s to the late 1980s and it has been linked to the effects of agricultural intensification on farmland habitats and their populations of small mammals (Gibbons et al. 1993), but it is interesting to notice that the number of nestlings fledged per breeding attempt had not declined, suggesting that, in areas retaining Kestrels, small mammals were not limiting fledging success. Integrated analyses suggest that changes in first-year and, particularly, adult survival are the primary contributors to population change (Robinson et al. 2014). Modelling suggests that climate change may have had a positive impact on the long-term trend for this species, resulting in less negative trends than would have occurred in the absence of climate change (Pearce-Higgins & Crick 2019).
Kestrels hunt a variety of prey, including voles, in particular in farmland settings (Shrubb 1993). Field voles Microtus agrestis favour habitats that can provide dense, grassy cover and a thick litter layer (Hansson 1977). Their population fluctuates in four-year cycles and it has been suggested that this might affect Kestrels that do not switch to other prey such as other small mammals, birds and insects (Shrubb 1993). There is no evidence, however, that Kestrels in the UK fluctuate alongside vole numbers. There is also, at present, no evidence that availability of nest sites limit population size of this raptor. A study over 23 years in a coniferous forest in northern England found a negative relationship between the numbers of Kestrels and Goshawks Accipiter gentilis, and remains of the smaller species near Goshawk nests (Petty et al. 2003). The impact of this larger raptor on population trend of Kestrels is not clear at the national level; however, it may be a factor at a local scale and more studies should focus on predation on Kestrels by other raptors.
Species high in the food chain are at risk of secondary poisoning, and birds of prey feeding on rodents are particularly vulnerable to anticoagulant rodenticides, but these are not the main cause of mortality of Kestrel in the UK (Walker et al. 2013) nor abroad (Christensen et al. 2012). A study on causes of death in raptors showed that the majority of Kestrels had died from collision and starvation (Newton et al. 1999). Carcasses reported for toxicology might be biased towards certain circumstances of death (eg collisions with vehicles) and could therefore underestimate the impact of rodenticides on Kestrel and other birds of prey. Targeted studies should be carried out, ideally to collect samples from live birds as well as dead ones.
Declining population of Kestrel is likely to be due to multiple factors. Changes in agricultural practice have reduced the habitat for its prey species, such as voles (although population trends of small mammals are not easy to establish (Flowerdew et al. 2004, Macdonald et al. 2007). Small rodents are abundant in road verges which provide suitable habitat for these mammals (Bellamy et al. 2000). In turn, Kestrel may be drawn to hunting along roads with increased risks of collision with passing vehicles, although there is no evidence for this at present. More research is needed to establish links between potential factors and Kestrel population change. In the meantime, landowners keen to offer suitable Kestrel habitat should provide grassy cover for small mammals.
Information about conservation actions
At present the link between potential factors and the population trend of Kestrel has not been established and new research is needed. In the meantime, landowners keen to offer suitable kestrel habitat should provide grassy cover for small mammals. Conservation policies can encourage the provision of suitable habitat at a landscape scale by enabling the take-up of agri-environment options such as buffer strips, uncultivated margins, conservation headlands and set-aside.
It should be noted, however, that kestrels do not use buffer strips or similar habitats directly but prefer to hunt over recently mown grassland adjacent to buffer strips where they can more easily catch mammals moving from the longer grass (Aschwanden et al. 2005; Garratt et al. 2011). Therefore, landowners (and agri-environment schemes) should aim to provide a mosaic which includes areas of recently cut grass adjacent to the mammal habitats.
Anticoagulant rodenticides (rat poisons) have been found in some Kestrel carcasses in the UK, with large concentrations found in some birds but no clear evidence that they were a contributory cause of death (Walker et al. 2013). Nevertheless, precautions such as prompt removal and safe disposal of poisoned rates, as well as continued monitoring, would be prudent.
Links to more studies from ConservationEvidence.com
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