Sparrowhawk

Accipiter nisus (Linnaeus, 1758) SH SPARR 2690
Family: Accipitriformes > Accipitridae

This fierce bird of prey is a woodland species, but will come into close contact with people when it visits garden bird feeders for an easy meal.

Sparrowhawks are widespread across Britain and Ireland, with a population that has completely recovered from a deep decline caused by the use of organochlorine pesticides in the 1950s and 1960s.

Sparrowhawks avoid northern Scottish uplands and offshore islands. Elsewhere they are a common sight, even over towns, where their flapping flight interspersed with glides and classic raptor silhouette can be seen by eyes alert to the skies. Across lowland England Sparrowhawks prefer varied woodland landscapes and use hedges as cover for their dashing strikes to secure their small bird prey.

Exploring the trends for Sparrowhawk

Our Trends Explorer will also give you the latest insight into how the UK's Sparrowhawk population is changing.

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Identification

Sparrowhawk identification is often straightforward. The following article may help when identifying Sparrowhawk.

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Identifying Kestrel and Merlin

 This video looks at two often confused falcons, the Kestrel and Merlin, and discusses the key features for separating the two.

SONGS AND CALLS

Listen to example recordings of the main vocalisations of Sparrowhawk, provided by xeno-canto contributors.

Young call

Alarm call

Call

Develop your bird ID skills with our training courses

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Status 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 SIZE

POPULATION CHANGE

Between the 1970s and the mid 1990s, the CBC charted a steep increase in this species. Many former haunts especially in the Midlands and east of England were reoccupied between the first two atlas periods (Gibbons et al. 1993). The population stabilised from the mid 1990s, though BBS figures suggest a moderate decline has occurred in England over the last ten years. Nest productivity has risen, especially during the period of strong population increase, although it has subsequently fallen during the period of decline. Numbers have been broadly stable across Europe since 1980 (PECBMS: PECBMS 2020a>).

Exploring the trends for Sparrowhawk

Our Trends Explorer will also give you the latest insight into how the UK's Sparrowhawk population is changing.

trends explorer

DISTRIBUTION

Sparrowhawks are widespread across most of Britain & Ireland, with the exception of the northern Scottish uplands and some island groups. Abundance is highest in lowland areas such as eastern England, and particularly low in northwest Scotland and other upland areas.

Occupied 10-km squares in UK

European Distribution Map

European Breeding Bird Atlas 2

Breeding Season Habitats

Relative frequency by habitat

Relative occurrence in different habitat types during the breeding season.

>Bar of similar size indicate the species is equally likely to be recorded in those habitats

DISTRIBUTION CHANGE

Sparrowhawk range has expanded in Britain through the series of breeding atlases as populations recovered from the low point in the early 1960s caused by the widespread agricultural use of organochlorine pesticides.

Change in occupied 10-km squares in the UK

SEASONALITY

Sparrowhawks are present year-round.

Weekly occurence of Sparrowhawk from BirdTrack
Weekly occurrence patterns (shaded cells) and reporting rates (vertical bars) based on BirdTrack data. Reporting rates give the likelihood of encountering the species each week.

Movement

Information about movement and migration based on online bird portals (e.g. BirdTrack), Ringing schemes and tracking studies.

An overview of year-round movements for the whole of Europe can be seen on the EuroBirdPortal viewer.

RINGING RECOVERIES

View a summary of recoveries in the Online Ringing Report.

Foreign locations of birds ringed or recovered in Britain & Ireland

Foreign locations of Sparrowhawk ringed or recovered in Britain & Ireland
Encountered in: Winter (Nov-Feb); Spring (Mar-Apr); Summer (May-Jul); Autumn (Aug-Oct)

Biology

Lifecycle and body size information about Sparrowhawk, including statistics on nesting, eggs and lifespan based on BTO ringing and nest recording data.

PRODUCTIVITY & NESTING

Exploring the trends for Sparrowhawk

Our Trends Explorer will also give you the latest insight into how the UK's Sparrowhawk population is changing.

trends explorer

SURVIVAL & LONGEVITY

View number ringed each year in the Online Ringing Report

Exploring the trends for Sparrowhawk

Our Trends Explorer will also give you the latest insight into how the UK's Sparrowhawk population is changing.

trends explorer

BIOMETRICS

Feather measurements and photos on featherbase

CODES & CLASSIFICATION

For information in another language (where available) click on a linked name

Gaelic: Speireag
Welsh: Gwalch Glas
Catalan: esparver comú
Czech: krahujec obecný
Danish: Spurvehøg
Dutch: Sperwer
Estonian: raudkull
Finnish: varpushaukka
French: Épervier d’Europe
German: Sperber
Hungarian: karvaly
Icelandic: Sparrhaukur
Irish: Spioróg
Italian: Sparviere
Latvian: zvirbulvanags, veja vanags
Lithuanian: paprastasis paukštvanagis
Norwegian: Spurvehauk
Polish: krogulec (zwyczajny)
Portuguese: gavião-da-europa
Slovak: jastrab krahulec
Slovenian: skobec
Spanish: Gavilán común
Swedish: sparvhök

Research

Interpretation and scientific publications about Sparrowhawk from BTO scientists.

CAUSES AND SOLUTIONS

Causes of change

There is good evidence that improved breeding success due to a decline in organochlorine pesticide use is the most likely cause of the increase in this species, but that reduced survival, especially of young birds, may be driving the decline in Scottish populations.

Further information on causes of change

Sparrowhawks suffered a severe population crash caused by organochlorine pesticides in the 1950s and 1960s, when the species was extinguished from large areas of lowland Britain (Newton 1986, 2013). Studies of this species in eastern England confirmed this, and the recovery of the Sparrowhawk in this area was primarily dependent on declining organochlorine contamination which resulted in an improvement of breeding success mainly due to an increase in hatching success, itself associated with improved eggshell thickness and reduced egg breakage (Newton & Wyllie 1992). The figures above support this, showing improving numbers of fledglings per breeding attempt, a fall in failure rates at the egg stage and increases in brood size. Integrated population modelling supports the importance of productivity, as well as the survival of first-year birds, in determining population change (Robinson et al. 2014). This also suggested that an unknown factor, perhaps the availability of good-quality territories (and hence the number of individuals that can breed each year), also influences the annual population change.

Comparison of an increasing population in east-central England with stable and decreasing populations in southern Scotland showed that differences in population trend were associated mainly with differences in the recruitment of new breeders (greatest in the increasing and lowest in the decreasing population) and in age of first breeding (earliest in the increasing and latest in the decreasing population). There were also differences in the annual survival of breeders (greater in the increasing population) while differences in breeding success between areas were slight and non-significant (Wyllie & Newton 1991). A comprehensive long-running study of Sparrowhawks in Scotland during 1972-86 provides further detailed evidence. Overwinter loss operating in the period between the fledging of young and subsequent recruitment to the breeding population was identified as the key factor, explaining 77% of the variance in total annual loss, and largely accounting for the pattern of change in breeding numbers (Newton 1988). Work by Newton & Marquiss (1986) found that annual survival of established breeders and breeding performance was the same in both a declining and increasing population, but that recruitment of incoming breeders was lower in the declining population and state that this was the main proximate cause of decline. A more recent study in Scotland during 2009-12 found that nest failure rates were significantly higher in rural populations than in urban areas, with further work required to understand the causes behind this difference (Thornton et al. 2017).

The population has stabilised since the mid 1990s and, possibly through the effects of intraspecific competition, average brood size has begun to fall again (see above) and a recent moderate decline in abundance has occurred. Trichomonosis, the disease which has caused the recent very steep decline of Greenfinch, has also been recorded in Sparrowhawks (Chi et al. 2013); however evidence of any link between the disease and the recent Sparrowhawk decline is yet to be shown.

Information about conservation actions

The drivers behind the recent declines of this species are unclear and further research is needed to understand the causes. If specific reasons can be identified to explain why recruitment is lower in some populations and why nest failure rates are higher in rural populations, then appropriate targeted conservation actions can be proposed.

Similarly, raptors are known to suffer from trichomonosis, so if there is evidence that this is contributing to the decline it would be useful to confirm this. If so, there are currently no obvious conservation actions that can be taken apart from promoting improved hygiene at feeding stations, assuming that the disease is passed to sparrowhawks when they feed on infected birds.

Anticoagulant rodenticides (rat poisons) were found in 39 out of 42 UK Sparrowhawk carcasses examined between 2010 and 2012, in most cases at low concentrations; two birds had slighter higher levels, although with no clear evidence that rodenticides were a contributory cause of death (Walker et al. 2014). Nevertheless, precautions such as prompt removal and safe disposal of poisoned rates, as well as continued monitoring, would be prudent.

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