HomeMy WebLinkAboutGulls Department
Animal&Plant Health Inspection Service
Wildlife Services
Gulls
Wildlife Damage Management
Technical Series
Martin S. Lowney
State Director
USDA-APHIS-Wildlife Services
Lakewood, Colorado
Scott F. Beckerman
State Director +.
USDA-APHIS-Wildlife Services
Springfield, Illinois
Scott C. Barras
State Director
USDA-APHIS-Wildlife Services
Moseley,Virginia
Thomas W.Seamans
Supervisory Wildlife Biologist
USDA-APHIS-Wildlife Services Figure 1.Ring-billed Gull(Larusdeiawarensis)
National Wildlife Research Center
Sandusky, Ohio
Human-Wildlife Conflicts
Abundant gull (Figure 1) populations in Aquaculture
North America have led to a variety of
Quick Links conflicts with people. Gulls cause damage Gulls feeding at fish hatcheries,
Human-Wildlife Conflicts 1 at aquaculture facilities and other mariculture beds, and baitfish production
Damage Identification 3 properties, and often collide with aircraft. sites may result in significant losses for
Their use of structures on and near water aquaculture producers.They may also
Management Methods 3 results in excessive amounts of bird impact salmonid fry, especially at passage
Economics 8 droppings on boats and docks.Their facilities associated with dams in the
presence near outdoor dining Pacific Northwest.
Species Overview s establishments,swimming beaches, and
Legal status 12 recreational sites can lead to negative Gulls loafing at seafood processing
interactions with people. Large amounts of facilities may create a nuisance for
Glossary&Key Words 13 gull fecal material pollutes water and employees and contaminate seafood
Resources 14 beaches resulting in drinking water products with fecal material at outdoor
contamination and swim bans. A staging areas while items are awaiting
Ap ep ndix 16 combination of dispersal techniques, processing.
exclusion and limited lethal control may
reduce damage to an acceptable level.
Page 2 WDM Technical Series—Gulls
t Gulls are frequently involved in collisions with aircraft
resulting in dangerous conditions for people both in the
aircraft and on the ground (Figure 3). From 1990-2015,
gulls were involved in at least 10,586 bird strikes with
2,188 of those strikes involving multiple birds. Fifteen of
those strikes resulted in injuries to 22 people.Their large
size, looping flight,flocking behavior, and propensity to
feed and loaf on grasslands and paved surfaces at coastal
airports make them a significant strike threat.
During the nesting season, especially after chicks hatch,
gulls may dive and strike people on the head if they come
Figure 2.Gulls at a Chicago area beach. too close to nests.This behavior is problematic near
nesting colonies where people may be working on rooftops,
performing building maintenance or security.
Structures
Natural Resources
Gulls nesting on rooftops often indirectly damage the roof,
as well as the building, due to accumulations of nesting Gulls may be detrimental to some shorebird and waterbird
material in rooftop drains that prevent the draining of species of concern because they prey on eggs and chicks.
water from the roof.The resulting backup of rainwater may For example, predation by Laughing, Herring, and Great
lead to structural damage to the roof, including leakage, Black-backed Gulls contributes to declines or lower
water damage and rot, mold, and excessive water weight productivity of some species along the Atlantic Coast. Gulls
on roof support structures. are a primary predator of nests and chicks of terns,
skimmers, and other colonial nesting birds from the
Human Health and Safety Chesapeake Bay to Maine.
Gull use of structures on and near water results in
excessive amounts of bird droppings on boats and docks in
marinas, and the presence of gulls near outdoor dining
establishments,swimming beaches, and recreational sites
creates negative interactions with people. Research has
documented that gulls can be a source of fecal
contamination (i.e., Escherichia coli and Salmonella - --
isolates) in water and beaches, resulting in contamination
of drinking water and swim bans(Figure 2). In addition, f J
buildup of droppings, nesting materials, and feathers on
rooftops near ventilation intakes can result in unwanted
odors and the intake of irritants affecting the respiratory
health of workers and creating an unsanitary work
environment. Large numbers of gulls flocking around
landfills is a distraction and safety risk to heavy equipment - .
operators and truck drivers.
Figure 3.Gulls on an airport.
U.S.Department of Agriculture Page 3
Nuisance management. Efforts and activities should focus on
reducing the availability of food, water, and loafing areas
Gulls habituate to the presence of people and may become that attract gulls.
a nuisance for sunbathers or diners at outdoor
establishments when food is accessible. Gulls alter their behavior to take advantage of available
food sources. Prohibiting the feeding of gulls and other
wildlife by customers, guests, and employees will help
reduce gull attractants. Feeding of other species,such as
Damage Identification feral cats, must be eliminated in areas where gull conflicts
occur. Preventing the unintentional feeding of gulls also
Because of their gregarious nature,gulls are easily
requires effective waste management,such as promptly
observed and identified. Nuisance complaints are removing garbage, keeping dumpsters and trash
determined from visual observations, noise and fecal receptacles closed, covering garbage trucks, regularly
droppings. cleaning docks and piers, and removing waste/rejected
pp gs. fruits and vegetables at processing sites.
Gulls shift their feeding patterns to take advantage of
changes in naturally occurring foods. Hatches or spikes in
Management Methods the populations of terrestrial or marine invertebrates can
contribute to large concentrations of feeding gulls.
No single management method to prevent gull conflicts Strategic use of insecticides to prevent outbreaks of
works all the time or in all settings.Wildlife management grasshoppers and beetles can help to manage these
methods should be integrated so that one method attractants on and near sensitive areas,such as airfields.
enhances the effect of another. For example,frightening Managing the grass height at airfields is important for
devices often are more effective when done in conjunction reducing the availability of natural foods and attractiveness
with habitat modification (e.g., removal of food resources of loafing sites. Grass height should be maintained at 6 to
or roosting habitat)to make a site less attractive to gulls. 10 inches throughout the year.
Likewise, exclusion devices, such as overhead wires, work
better when combined with covering or removing food Freshwater attracts gulls, especially rain events in marine
resources. environments.To reduce gull abundance,grasslands and
paved surfaces should be properly graded to prevent
Local gull populations often are large, and birds mayfly 15 standing water after storms.Wetland and stormwater
miles or more from roosting or nesting sites to feed.This mitigation projects,such as those at airfields,should be
mobile strategy often means that feeding sites are visited conducted offsite whenever possible, and water retention
by only a portion of the gull population each day.Therefore, and movement should utilize underground designs and
exclusive use of lethal control is not an effective, long-term configurations that minimize bird use.
method for preventing gull damage at those sites. Limited
lethal control combined with frightening devices and Exclusion
habitat modification can reduce human-gull conflicts at
feeding sites to socially acceptable levels. Exclusion involves physically blocking bird access to a site
and is an important part of gull damage management.The
Habitat Modification use of various exclusion tools and techniques is dictated
by the location and gull species involved. Like habitat
Modifying human behavior, habitats, and cultural systems management, physical exclusion can provide a long-term,
is an essential part of effective, long-term gull damage nonlethal solution for deterring bird use. Because the cost
Page 4 WDM Technical Series—Gulls
of materials, construction and maintenance can be contaminating food with fecal droppings or other items. To
expensive, exclusionary methods are most practical for effectively exclude gulls,these areas should be fully
small areas and a limited number of species. Laughing enclosed with entry points protected by strips(or
Gulls will walk and fly under exclusionary netting and "curtains")of heavy plastic sheeting. Loading and
overhead wires. Also, Herring and Ring-billed Gulls have temporary storage areas outside should be protected with
been seen walking under netting and overhead wires to overhead wire grid systems to prevent gull access.The
gain access to food. Unfortunately, exclusion that same exclusion approaches can be effective at trash
adequately stops bird access also can restrict the transfer stations. Overnight capping or tarping of the active
movement of people, equipment and other wildlife.Some face of landfills can prevent feeding by gulls outside of
physical exclusion devices may be an impediment to the landfill operation hours, especially during times of year
intended use of a site, and some landowners, managers when daylight persists after normal work hours and in Well-
and users may consider the aesthetic impacts of physical lit systems where gulls may be active at night.
exclusion devices to be unacceptable.
Netting and wire or monofilament wire grids are often
Wires, netting, and monofilaments are available for recommended to exclude gulls from resources with large
excluding birds from protected areas. Coils,spikes, surface areas,such as spillways, industrial rooftops,
elevated wires or electrified strips can be used to exclude reservoirs, aquaculture facilities, retention/detention
gulls from perching or loafing on narrow surfaces,such as ponds, and landfills. Netting may be suspended over these
ledges,signs, and guard rails.The effectiveness of these facilities using a tent-like or wire-based support structure,
approaches can be enhanced through original design but this approach may be cost-prohibitive for large areas.
features, such as sloping ledges, that reduce the
attractiveness of these surfaces. Most gull species can be excluded from ponds,fields or
other areas using an overhead wire grid with hanging
Pier pilings, lamp posts, and outdoor furniture are streamers or other objects(Figure 4)to increase the grid's
attractive loafing spots for gulls, especially when food may visibility to birds.The objective is to discourage birds from
be found nearby.These point surfaces, or areas that may feeding and loafing,while preventing bird injury or death.
be attractive to a few individual gulls can be protected Overhead wire grids require little maintenance other than
through a variety of devices. Pointed caps can be installed ensuring proper wire tension and replacing broken wires.
on pier pilings and posts to prevent perching. Spider-like The grid spacing varies with the type of bird species being
wire spindles are effective and can be enhanced with
motors that create a rotating or sweeping effect.
Perching deterrents are available in a wide variety of
designs. Porcupine wire(e.g., Nixalite TM, CatclawTM)and coil
wire are mechanical repellents that can be used to exclude
gulls and other birds from ledges, railings and other
roosting or loafing surfaces.The sharp points on porcupine -
wire may inflict temporary discomfort on the birds as they
try to land,which deters them from roosting or loafing.
Electric shock bird control systems, although expensive,
can be effective in deterring gulls and other birds from
roosting on ledges, window sills and other similar
structures.
Figure 4.Parallel overhead wires can be installed to prevent gull use of an
Work areas at agricultural and fisheries processing area.
facilities must be secured to prevent gulls from
U.S.Department of Agriculture Page 5
excluded. For example, overhead wires spaced about 10
feet apart successfully repel Herring and Ring-billed Gulls,
but not Laughing Gulls, Laughing Gulls are not repelled by
overhead wires, but will often walk and fly under them.
Wire grids can make a pond unusable for boating, = .
swimming,fishing, and other recreational activities.
Additionally, maintenance under the wires may be {
burdensome.
Gulls can be excluded from small water bodies using large
numbers of floating plastic balls.This system may not bed
practical in fisheries systems where access to water by
sunlight and employees is required. A containment system Figure 5.A solar-powered bird strobe sits atop a pole to deter bird use in an area.
is required for airport settings where the balls may present
a FOD(Foreign Object Damage) hazard if they are blown
out of the pond area. Permits from the Bureau of Alcohol,Tobacco, and Firearms
are required for the use of some classes of pyrotechnics by
Unnecessary signs, posts, pilings, and other structures that individuals and non-governmental entities.
provide suitable gull loafing sites should be removed.
Angled window ledges, bulkheads, and tunnel entrances, Live animals including falcons and dogs have been used to
pointed posts or poles, and angled or beveled sign tops disperse gulls and other birds.This specialized approach
can reduce the attractiveness of loafing sites and reduce requires an experienced handler, multiple work animals,
the need for exclusion devices. and the ability to control the animals so they do not
become a hazard in sensitive environments.
Exclusion devices should not be installed over water if
injury or accidental take of eagles and threatened and Remote-controlled vehicles, including boats, land vehicles,
endangered species is anticipated. and unmanned aircraft systems, can be effective for
dispersing gulls and other birds.They allow for more
Frightening Devices controlled dispersals than live animals, and can reach gulls
located in, and over large grasslands and lakes.These
The use of frightening devices to disperse gulls is an devices require experienced operators, and care should be
essential part of gull damage management (Figure 5).To taken to coordinate radio frequencies with the appropriate
be successful,frightening devices must be used at officials on or nearby sensitive areas,such as airports and
unpredictable frequencies, lengths of time, and locations. military installations.
When possible, pursuing dispersed birds and reinforcing
harassment with limited lethal control can help to improve Propane exploders are noise-making devices that can be
the effectiveness of frightening devices. activated by timer or remote control. Birds quickly
habituate to propane exploders if their use is predictable.
Pyrotechnics are one of the most commonly used tools for The devices must be moved frequently and only triggered
dispersing gulls.These wildlife control explosives include a when necessary.
variety of different products,such as shell crackers, 15-
mm pyrotechnics (e.g.,screamers and bangers), and long Electronic devices that use bird alarm or distress calls are
range pyrotechnics(e.g., CAPA rounds). Pyrotechnics can commercially available for gull dispersal. Bird calls can be
be very effective, especially when combined with limited broadcasted from stationary units or vehicles, and
lethal re-enforcement. Users should be trained in the safe combined with sirens and alarms. Gull dispersal using
use and handling of these tools to prevent injury and fires. distress calls is often a two-stage process whereby gulls
Page 6 WDM Technical Series—Gulls
may first come closer to investigate and then disperse as a Results on the effectiveness of MA appear to be mixed
result of the call and combination of other sounds and based on various research trials.
tools. Directed sound or acoustic hailing devices, such as
Long Range Acoustical Devices (LRAD)offer another non- MA may also be applied using a fog-producing machine
lethal tool for gull dispersal,though evaluations of their such that the MA-laden fog drifts over the area to be
effectiveness are ongoing. As with other devices,gulls will protected.The fog is an irritant to the birds, but is harmless
habituate to the sounds unless reinforcement occurs. to people. Fogging uses a smaller volume of the MA
product in contrast to the turf application,thereby reducing
Gull effigies have been used effectively to reinforce the cost of each application.Several treatments 1 to 4
dispersal efforts, especially at gull loafing sites. Effigies days apart may be required for the removal of nuisance
may consist of taxidermy specimens,freshly killed gulls, or birds to acceptable levels.As with the turf application, it is
artificially reproduced likenesses. Effigies are displayed likely that additional applications may be required to
either in a prone position or hanging with the head down to address problems with migrating or non-resident birds. In
represent a dead or dying gull.This technique should be some states,the use of fogging is restricted to landfills,
used in conjunction with other techniques to re-enforce non-fish bearing bodies of water, and temporary pools of
and extend the duration of dispersal activities. A migratory standing water on paved areas or construction sites at or
bird depredation or salvage permit is required for near airports.
possession of gull carcasses.
A number of tacky or sticky tactile repellent products that
Although the use of a laser to alter bird behavior was first reportedly deter birds from roosting on structural surfaces
introduced nearly 30 years ago, new developments have are commercially available. However, limited research has
made it possible to use affordable hand-held lasers to been done on the effectiveness of these products.The
frighten and disperse birds from their roosts or loafing repellency of tactile products is generally short-lived
areas. Results have shown that several bird species, because dust accumulates on the surface.Tactile
including gulls, have avoided laser beams during field repellents can melt in hot weather often dripping down the
trials. Best results are achieved under low-light conditions sides of buildings or cause other aesthetic problems that
(i.e.,sunset through dawn)and by targeting structures or require expensive clean-up. Small non-target birds may
trees close to roosting birds,thereby reflecting the beam. also be injured or killed after becoming stuck in these
Use caution not to point laser beams directly at human or substances.
bird eyes. Caution must be exercised when using lasers
around airports and aircraft. Fertility Control
Repellents Conflicts associated with nesting gulls and localized gull
populations can be managed by reducing population
Bird repellents can help reduce bird foraging on treated growth through fertility control. Removing eggs and/or
plants,the use of temporary pools of standing water, or nests can be an effective method of encouraging some
perching on building ledges and similar locations. species of breeding gulls to relocate to an alternative
nesting location.To be effective, all nest material and eggs
Methyl anthranilate (MA), an artificial grape flavoring food should be removed at least every 2 weeks to prevent
additive, is a commercially-available repellent for waterfowl chicks from hatching. Nest removal is labor intensive, and
and gulls registered by the U.S. Environmental Protection re-nesting can occur when management is done early in
Agency(EPA)and marketed under various trade names. It the nesting season. As is the case for other migratory birds,
may be applied to turf or other plants to reduce foraging by permits are required to remove gull nests that contain
birds,such as Canada geese. It is also used to prevent eggs.
waterfowl and gulls from using temporary pools of water.
U.S.Department of Agriculture Page 7
Toxicants
`a K
DRC-1339 is a slow acting avicide that is registered with
the EPA for reducing damage from several species of birds,
including gulls. For more than 40 ears, DRC 1339 has
$ � MAT g g Y
been used to manage local populations of starlings,
blackbirds,gulls, and pigeons at feedlots, dairies, airports,
and in urban areas. DRC-1339 is registered for use only b
trained U.S. Department of Agriculture employees to
� a
=d manage gull populations depredating native colonial
nesting bird species or damaging property or crops.
Figure 6. Oiling Ringed-billed Gull eggs. Trapping
Rocket nets and cannon nets can effectively capture small
Egg oiling also prevents hatching(Figure 6).The oil inhibits groups of gulls over bait(Figure 7). Rocket nets can cause
the exchange of gases and causes asphyxiation of gulls to avoid an area for several weeks or longer, if they
developing embryos. Egg oiling is 96 to 100 percent eluded initial capture attempts. Individual gulls can be
effective in reducing hatchability.The EPA has ruled that captured with net guns, if they can be approached within
use of food grade corn oil for this purpose is exempt from the net gun's range. Remotely-activated net launchers or
registration requirements under the Federal Insecticide, bow nets can be used to capture individuals that are
Fungicide and Rodenticide Act(FIFRA).To be most baited to a site or sitting on a nest. Nesting gulls also can
effective,the oil should be applied anytime between the be captured using various trap designs or hand nets at
fifth day after the laying of the last egg in a nest and at night with the aid of spotlights or night vision devices.
least five days before anticipated hatching. Addling
(shaking)and puncturing eggs also prevents egg hatching.
With oiling, addling, and puncturing, adult birds often
remain on the nest, incubating treated eggs. If the
treatment occurs later in the nesting season, birds that
continue to incubate treated eggs may have lower energy
reserves and likely will not re-nest.
Egg oiling, in conjunction with dispersal efforts, helps
reduce the growth rate of local gull populations and -
associated conflicts. It is often easier to disperse adults
from a site if they do not have young. For example,from ► i"�
2007-2017, egg oiling of nests at ring-billed gull colonies
within Chicago, Illinois, resulted in fewer hatch-year gulls
using beaches and was likely a factor in reducing the
number of swim advisories and swim bans issued at
beaches due to elevated Escherichia coli levels.
Figure 7.Cannon net trap with gulls.
Page 8 WDM Technical Series—Gulls
Shooting Handling
Shooting is conducted with shotguns or air rifles.Shooting Translocation
is most commonly used to reinforce harassment,to
remove a single offending bird, or to remove a limited Capture and translocation of gulls usually is not an
number of birds that cannot be dispersed or taken using effective or practical method for moving gull colonies.
other methods. However,shooting programs implemented
at airports have effectively removed large numbers of Euthanasia
birds. Non-toxic shot generally is required due to shooting
over water or wetlands. Local,state, and federal Euthanasia of gulls may be done by cervical dislocation or
regulations in regards to the use of firearms and take of by administering isoflurane or carbon dioxide gas to birds
gulls must be reviewed and followed. placed in a sealed container. Care should be taken to
minimize stress and handling prior to euthanasia. Confined
Other Methods—Dispersing Colonies areas must be large enough to avoid stress to the birds as
much as possible.
Dispersing and relocating gull nesting colonies is difficult
and success varies by species. Numerous dispersal Disposal
methods have been used with the most effective ones
being nest and egg destruction, egg oiling, and overhead Take of migratory birds is regulated by the Migratory Bird
wire grids. Mylar flags, distress calls, effigies,shooting, Treaty Act, and instructions for disposition of carcasses are
tethering raptors to areas within the nesting colony and usually provided under U.S. Fish and Wildlife Service
other methods were less effective or logistically difficult. permit conditions.
Wire grids or parallel lines placed over nesting colonies on
rooftops have been used to disperse Ring-billed and
Herring Gulls. Gulls can be dispersed in 1 to 3 years. Most Economics
Herring Gull nesting colonies on rooftops show a reduction
in the numbers only after multiple years of dispersal efforts The economic impacts of gull damage are widespread, but
(e.g., up to 6 years in northern Ohio). In one case, a mixed seldom quantified. Gulls may cause direct losses through
Ring-billed and Herring Gull nesting colony in Toronto, collisions with aircraft,foraging on aquaculture products
Canada was dispersed in 2 years. Laughing Gulls, and other crops,fouling drinking and swimming water.
however,were unaffected by overhead wire grids. Costs may also be associated with disinfecting feces,
nesting and loafing activities, and subsequent damage
A Black-headed Gull nesting colony on an island off the abatement.
coast of Suffolk, England, was reduced and then stabilized
to 15 to 35 percent of the original population size after 5 Fecal droppings present hazards for slipping and fouling of
years of harassment using shooting, distress calls,trapping safety rails used as perches. Cleaning is needed to prevent
and nest and egg treatment. Egg oiling is usually more damage to structures and to remove this residue which
effective when combined with removal of breeding adults. may pose health risks. Cleaning can represent a significant
repetitive expense.The corrosive nature of the feces may
also decrease the lifespan of construction and roofing
materials, increasing replacement frequency, and
therefore increasing building construction and
maintenance costs.Shellfish and produce processing
facilities must sometimes prevent gull fecal contamination
U.S.Department of Agriculture Page 9
of food processing activities by moving those activities
indoors.
Several studies have suggested a link between Ring-billed
Gull fecal droppings and elevated fecal coliform bacteria
levels in water at beaches resulting in the issuance of
swim advisories. Beach management agencies often
implement integrated damage management strategies to
improve sand and water quality, and to avert associated
economic losses that have been estimated as high as$15
million per year for the City of Chicago.
Gulls are also one of the most common groups of birds Figure8.Laughing Gull(Leucaphaeusatrici//a)
involved in collisions with civil aircraft,accounting for 12
percent of all known wildlife species struck by aircraft and
causing a minimum of$58 million in reported economic Ring-billed Gull (Larus delawarensis)
losses to the aviation industry from 1990-2015. Great Black-backed Gull (Larus marinus)
Finally, management actions employed to prevent or
• California Gull (Larus californicus)
reduce measurable damages impose costs that otherwise Franklin's Gull (Leucophaeus pipixcan)
would not be incurred. Examples of these management 9Bonaparte's Gull (Chroicocephalus philadelphia)
costs include preventative maintenance, partial or total aGlaucous-winged Gull (Larus glaucescens)
exclusion,such as wire grids, erecting pole barns and
plastic curtains, active control and administrative costs.
Physical Description
Male and female gulls of the same species are similar in
Species Overview appearance. Gulls are distinguished by their webbed feet,
and adults generally have white body plumage with the
amount of black and brown plumage on the wings and
Identification back varying among species and age classes.Juvenile
birds have varying amounts of black or brown mottled body
The term "gull" refers to bird species that belong to the plumage interspersed with varying amounts of white
family Laridae. Gulls nest colonially,sometimes with other feathers. Gulls range in size from the diminutive
colonial nesting species interspersed within the breeding Bonaparte's Gull (11 inches long,38 inch wingspan, and
colony. Gulls often are associated with oceans,seas and about half a pound)to the largest species,the Great Black-
large freshwater water bodies. backed Gull (24 inches long, 65 inch wingspan and up to 4
pounds).
Twenty-four different species of gulls can be found across
North America.The eight gull species most often Range
associated with human-wildlife conflicts in the United
States include the following: Gulls are found throughout North America usually near
water bodies,such as oceans, estuaries and freshwater
• Herring Gull (Larus argentatus) lakes.
• Laughing Gull (Leucophaeus atricilla)
Page 10 WDM Technical Series—Gulls
s
'1 1.
u-v...eP ,.�5 n.�L' _ •ice
Figure 9.California Gull(Laruscaiifomicus). Figure 10.Glaucous-winged Gull(Larusgiaucescens)nesting on rooftop.
The Herring Gull is a year-round resident on the Great The California Gull (Figure 9) is found throughout the
Lakes and east coast of North America from Newfoundland interior western region of North America from California in
to North Carolina.Winter distribution is associated with the south to Northwest Territories in the north.
coastal areas and large water bodies along the Atlantic,
Pacific and Gulf coasts,the Caribbean islands and The Franklin's Gull's breeding range is primarily within
Mississippi River Valley. portions of Saskatchewan, Manitoba and parts of North
Dakota.There are other small breeding colonies scattered
The Laughing Gull (Figure 8) breeding range stretches from in the northern Rockies.The primary winter range is along
Maine to Texas along the coast. Laughing Gulls generally the Pacific coast of Chile and Peru.
winter along the southern Atlantic coast from North
Carolina to the Gulf Coast and eastern and western Central Bonaparte's Gull winters in large flocks in coastal areas
American coasts. along the Atlantic, Gulf and Pacific Coasts and eastern
Great Lakes, but breeds around ponds, bogs, bays, and
The Ring-billed Gull's (Figure 1) breeding range is primarily fiords in the taiga and boreal forests of Alaska and Yukon,
Lake Champlain in Vermont and the St. Lawrence River Northwest Territories, British Columbia, Alberta,
drainage of New York, Quebec and Ontario,the Great Saskatchewan and Manitoba.
Lakes region and westward into the northern Rockies and
western Canadian provinces. Its wintering range is the The Glaucous-winged Gull (Figure 10) is an abundant
Atlantic and Pacific coasts, lower Mississippi River Valley resident along the northwestern coast of North America
and southern Great Plains. where it breeds along coastal islands and cliffs from the
Bering Sea and Aleutian Islands, Alaska,south to Oregon. It
The Great Black-backed Gull, common in the northeastern casually nests in freshwater in British Columbia,
United States, breeds locally along the Atlantic Coast from Washington and Oregon.
Cape Hatteras, North Carolina, north to Labrador and
Baffin Island, and locally around the Great Lakes. In winter, Voice and Sounds
this species may be found throughout its breeding range
and south to South Carolina. In addition, it winters in Gulls have a wide variety of calls that vary based on the
increasing numbers along the Gulf of Mexico. age of the bird and situation in which a call is made. Calls
are given for courtship, breeding, alarm,feeding and in
some cases for no apparent associated behavior.
U.S.Department of Agriculture Page 11
Reproduction Typically, high gull densities are recorded in localized
areas,such as urban rooftop nesting colonies and landfills.
Most gulls are gregarious nesters on sand and gravel-
covered shorelines, islands and flat rooftops.They require Habitat
only a small territory, and colonies often contain thousands
of nesting pairs. Bonaparte's and Great Black-backed Gulls Gulls may be found in any water body in North America. In
are the exception.They are solitary breeders or breed in addition,gulls loaf and forage in open spaces,such as
small colonies away from human settlements.Sexually plowed or grassy fields and parking lots.
mature gulls generally return and nest in the region where
they learned to fly. Gull nests vary by species. In general, Behavior
they are built of grasses and other vegetation which may
include sticks. Nests are found on the ground or on Gulls often spend nights in open water or secluded areas
rooftops. Gulls produce 3 to 5 eggs per nest. Most species (e.g., islands, rooftops)that are not prone to predation.
of gulls reach breeding age in 2 to 3 years, but some do They fly inland to feed and loaf during the day. Gulls are
not breed until they are 4 to 5 years old. active all day with daily activity peaking at dawn and dusk.
Gulls will fly at night, especially around roosting areas on
Like other migratory birds,gulls generally breed in the large water bodies.
northern parts of their range and winter in the southern
portions of North America. However,species such as Gulls are migratory birds with some species migrating long
Ring-billed Gulls do move hundreds of miles eastward and distances between nesting and wintering areas.Although
westward within just a few days during the summer. most gulls migrate on a north-south gradient between
nesting and wintering areas, Ring-billed Gulls migrate to
Most gull species nest in large colonies that include the Great Lakes region for nesting and eastward to the mid
hundreds or thousands of nests. Most large colony nesting -Atlantic coast for the winter. Gull nesting and feeding
sites are on islands, but some western gull species will activities generally are associated with wetland habitats.
nest in large colonies adjacent to remote freshwater lakes. These habitats are important stopping points during
Depending on gull species, nest sites tend to be sparsely migration.
vegetated or have no vegetation.
Food Habits
Mortality
Gulls are adaptable, opportunistic, omnivorous feeders
Gulls are generally long-lived birds that may survive for 10 that readily switch food types based on availability and
to 30 years.Annual survival rates range from 70 to 94 accessibility. Gulls forage on land and on the water,
percent with juvenile birds having lower survival than feeding on aquatic animals,terrestrial invertebrates,small
adults. vertebrates, carrion, plant remains, refuse(Figure 11), and
human food. Gulls forage on eggs and young of other
Population Status nesting waterbirds. For instance, Herring and Great Black-
backed Gulls eat shorebird chicks and waterfowl ducklings.
Between 1966 and 2012,some gull populations(e.g. Bonaparte and other western gull species eat young
Herring and Franklin's Gull) in the United States appeared salmon, contributing to smaller runs of smolts. Herring
to decline, while others(e.g., Ring-billed and California Gulls have developed a feeding strategy of dropping
Gull) remained stable. General species status is of low bivalves onto hard surfaces to break the shell and access
conservation concern for Herring, Ring-billed, Laughing and the soft tissues inside.Adult Ring-billed Gulls nesting in
Great Black-backed Gulls. Many gull species are the Great Lakes have been known to travel an average of
considered overabundant or common. 15 miles to exploit human-related food sources.Smaller
Page 12 WDM Technical Series—Gulls
species,such as Ring-billed, Laughing, and Franklin's
Gulls,forage in the air on flying insects.
Legal Status
Gulls are classified as a migratory bird species and are
protected by federal and, in most cases,state laws. In the
United States, gulls may be taken only with a permit issued
by the U.S. Fish and Wildlife Service. Occasionally, an
additional permit is required from the state wildlife Figure 11.Ring-biI led Gu I Is feeding at a landfi I I in Virginia.
management agency. Permits are issued only after
dispersal and other non-lethal damage management
methods have been employed and proven ineffective at
resolving the conflicts. No federal permit is needed,
however,to frighten or mechanically exclude gulls.
U.S.Department of Agriculture Page 13
Acknowledgements
Figure 1. Photo by Martin Lowney, USDA-Wildlife Services
Figure 2. Photo by Richard Engeman, USDA-Wildlife Services
Figure 3. Photo by Jenny Washburn, USDA-Wildlife Services
Figure 4. Photo by Greg Martinelli, USDA-Wildlife Services
Figure 5. Photo by John Hartmann, USDA-Wildlife Services
Figure 6. Photo by Scott Beckerman, USDA-Wildlife Services
Figure 7. Photo by USDA
Figure 8. Photo by Jenny Washburn, USDA-Wildlife Services
Figure 9. Photo by Martin Lowney, USDA-Wildlife Services
Figure 10. Photo by Kevin Keirn
Figure 11. Photo by Dust'n Lundsford, USDA-Wildlife Services
Glossary Disclaimer
Colonial Nesting: A large group of nesting birds that may be Wildlife can threaten the health and safety of you and
made up of one or two species all nesting within close others in the area. Use of damage prevention and control
proximity of one another. methods also may pose risks to humans, pets, livestock,
Mariculture: Mariculture is a specialized branch of other non-target animals, and the environment. Be aware
aquaculture involving the cultivation of marine organisms of the risks and take steps to reduce or eliminate those
for food and other products in the open ocean, an risks.
enclosed section of the ocean, or in tanks, ponds or Some methods mentioned in this document may not be
raceways which are filled with seawater. legal, permitted, or appropriate in your area. Read and
Omnivore: An animal that eats both plants and animals. follow all pesticide label recommendations and local
requirements. Check with personnel from your state
Roost: Location where birds rest of sleep either during the wildlife agency and local officials to determine if methods
day or at night. are acceptable and allowed.
Mention of any products,trademarks, or brand names
does not constitute endorsement, nor does omission
constitute criticism.
Key Words Citation
Aquaculture, Bird strike, Exclusion, Frightening device, Lowney, M.S.,S.F. Beckerman,S.C. Barras, and T.W.
Fertility control, Gull, Laridae,Toxicant Seamans. 2018. Gulls. Wildlife Damage Management
Technical Series. USDA, APHIS,WS National Wildlife
Research Center. Fort Collins, Colorado. 16p.
Page 14 WDM Technical Series—Gulls
Resources
Belant,J.L. and S.K. Ickes. 1996. Overhead wires reduce roof-nesting by Ring-billed Gulls and Herring Gulls.
Proceedings of the 17th Vertebrate Pest Conference. Univ. of CA, Davis. 17:108-112.
Blokpoel, H. and G.D.Tessier. 1992. Control of Ring-billed Gulls and Herring Gulls nesting at urban and industrial sites
in Ontario, 1987-1990. Proceedings of the Eastern Wildlife Damage Control Conference 5:51-57.
Burger,J. and M. Gochfeld. 2002. Bonaparte's Gull (Chroicocephalus philadelphia),The Birds of North America Online (A.
Poole, Ed.). Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online: htt
bna.birds.cornell.edu/bna/species/634.
Burger,J. and M. Gochfeld. 2009. Franklin's Gull (Leucophaeus pipixcan),The Birds of North America Online(A. Poole,
Ed.). Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online: http://bna.birds.cornell.edu/
bna/species/116.
Burger,J. 1996. Laughing Gull (Leucophaeus atricilla),The Birds of North America Online (A. Poole, Ed.). Ithaca: Cornell
Lab of Ornithology; Retrieved from the Birds of North America Online: http://bna.birds.cornell.edu/bna/species/225.
Dolbeer, R.A.,J.L. Belant and J.Sillings. 1993.Shooting gulls reduces strikes with aircraft at John F. Kennedy
International Airport.Wildlife Society Bulletin 21:442-450.
Good,T.P. 1998. Great Black-backed Gull (Larus marinus),The Birds of North America Online(A. Poole, Ed.).
Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online: http://bna.birds.cornell.edu/
bna/species/330.
Hayward,J.L. and N.A.Verbeek. 2008. Glaucous-winged Gull (Larus glaucescens),The Birds of North America Online (A.
Poole, Ed.). Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online:
http://bna.birds.cornell.edu/bna/species/059.
Ickes,S.K.,J.L. Belant, and R.A. Dolbeer. 1998. Nest disturbance techniques to control nesting by gulls. Wildlife
Society Bulletin 26:269-273.
Internet Center for Wildlife Damage Management: http://icwdm.org.
McLaren, M.A., R.E. Harris, and W.J. Richardson. 1984. Effectiveness of an overhead wire barrier in deterring gulls from
feeding at a sanitary landfill. Pages 241-251 in Proc.wildl. hazards to aircraft conf.training workshop. U.S. Dep.Trans.,
Fed. Aviation Admin.,Washington, DC.
National Wildlife Control Training Program: http://wildlifecontroltraining.com.
Nugent, B., K. Gagne, and M.J. Dillingham. 2008. Managing gulls to reduce fecal coliform bacteria in a municipal
drinking water source. Proceedings of the Vertebrate Pest Conference 23:26-30.
Pierotti, R.J. and T.P. Good. 1994. Herring Gull (Larus argentatus),The Birds of North America Online(A. Poole, Ed.).
Ithaca: Cornell Lab of Ornithology; Retrieved from the Birds of North America Online:
http://bna.birds.cornell.edu/bna/species/124.
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http://bna.birds.cornell.edu/bna/species/033.
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Page 16
Appendix
Damage Management Methods for Gulls
Type of Control Available Management Options
Exclusion Overhead wires
• Netting
• Anti-perching devices
Fertility Control a Oiling of eggs
• Removing nests and eggs
• Addling or puncturing eggs
Frightening a Propane cannons, pyrotechnics, and other noise making devices
Devices a Species-specific distress calls
• Effigies
• Remote-controlled vehicles and dogs
Habitat a Covering food sources including landfill face
Modification a Closing refuse containers
• Removing sources of food from open areas
Repellents Methyl anthranilate-based products marketed under various trade names
Shooting Shotguns or air rifles; Allowed with proper Federal and State permits
Toxicants DRC-1339; Registered for use only by trained USDA employees
Trapping Cannon/rocket nets and nest traps; Allowed with proper Federal and State permits