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common name: dog flea
scientific name: Ctenocephalides canis (Curtis) (Insecta: Siphonaptera: Pulicidae)

Introduction - Synonymy - Distribution - Description and Life Cycle - Hosts - Medical and Economic Significance - Management - Selected References

Introduction (Back to Top)

Over 2,500 species and subspecies of fleas (Order: Siphonaptera) exist worldwide (Durden and Hinkle 2009). Approximately 94% of all flea species are reported to feed on mammals. These insects are known to vector the pathogens causing plague, murine typhus, and feline leukemia. Most of the medically important fleas, including those in the genus Ctenocephalides, are found within the family Pulicidae.

The dog flea, Ctenocephalides canis (Curtis), is an important ectoparasite of both wild and domestic canids around the world (Durden et al. 2005). It is similar in appearance to the ubiquitous cat flea, Ctenocephalides felis (Bouché), but is encountered less frequently and thus has not been studied as thoroughly. The dog flea has been reported on many mammalian hosts including dogs, cats, rabbits, rats, gray foxes, red foxes, woodchucks, and humans (Fox 1940). Ctenocephalides canis can act as intermediate hosts for parasitic worms including the double-pored tapeworm, Dipylidium caninum, and the nematode, Acanthocheilonema reconditum (Durden and Hinkle 2009).

Ctenocephalides canis (Curtis) adult.

Figure 1. Ctenocephalides canis (Curtis) adult. Photograph by Krista Seraydar, University of Florida.

Synonymy (Back to Top)

Pulex canis Curtis, 1826
Pulex serraticeps Baker, 1895
Pulex serraticeps Osborn, 1896
Pulex canis Rothschild, 1901
Ctenocephalus canis Baker, 1904
Pulex canis Rothschild, 1905
Ctenocephalus canis C. Fox, 1910
Ctenocephalus canis C. Fox, 1925
Ctenocephalus canis Stewart, 1928
Ctenocephalus canis Ewing, 1929
Ctenocephalus canis Jordan, 1929
Ctenocephalides canis Stiles and Collins, 1930
Ctenocephalides canis Stewart, 1933
Ctenocephalides canis Shaftesbury, 1934

(summarized in Fox 1940)

Distribution (Back to Top)

Members of the genus Ctenocephalides are thought to have originated in Africa, but have been introduced to countries around the world. Ctenocephalides canis occurs worldwide and is the predominant flea found on dogs in Ireland (Wall et al. 1997), Greece (Koutinas et al. 1995), Albania (Xhaxhui et al. 2009), Hungary (Farkas et al. 2009), Korea (Chee et al. 2008), Argentina (González et al. 2004), and rural areas of Chile (Alcaíno et al. 2002).

Although comprehensive surveys have not been conducted in the United States for over half a century, Ctenocephalides canis had been reported from 31 states and the District of Columbia (Ewing and Fox 1943). While Ctenocephalides canis may not be the predominant flea species found on domestic dogs in the United States, it is still an important ectoparasite of both wild and domestic animals. In a study performed by Durden et al. (2005), over 21% of the fleas recovered from dogs in Georgia, U.S.A. were Ctenocephalides canis. These fleas also are found relatively frequently on wild canids such as wolves, foxes, and coyotes throughout, but especially in northern areas of the United States (Durden et al. 2005).

Description (Back to Top)

Fleas are holometabolous and thus progress through the following life stages: egg, larva (three larval instars), pupa, and adult. The life cycle of Ctenocephalides canis can be completed in two to four weeks, which can lead to multiple generations in a given year (Ewing and Fox 1943). Adults occur throughout the year on host animals, with population numbers peaking in late summer or early autumn (Durden et al. 2005).

Eggs: A blood meal is required for a mated adult female flea to produce and lay eggs (Durden and Hinkle 2009). A single female flea can produce hundreds of eggs in her lifetime (Bayer Environmental Science 2007). Flea eggs range from 0.1 to 0.5 mm in length, are pearl-white in color, oval shaped, smooth, and non-sticky. Females lay eggs continuously while on the host, and eggs fall from the host, landing on the host’s sleeping or resting area. According to a study performed by Baker and Elharam (1992), egg hatch was most successful at 25 °C and 75% relative humidity. Under these conditions, egg hatch occurred within three to four days; however, eggs can take up to a week to hatch.

Eggs (white objects) of the closely related cat flea, Ctenocephalides felis, and adult flea excrement.

Figure 2. Eggs (white objects) of the closely related cat flea, Ctenocephalides felis, and adult flea excrement. Photograph by James Castner, University of Florida.

Larvae: Ctenocephalides canis larvae are white, elongate, contain numerous setae, and lack legs and eyes (Durden and Hinkle 2009). Chewing mandibles and silk glands are housed within a well-developed head capsule. The larvae use these mandibles to ingest blood-rich feces, often referred to as “flea dirt”, deposited by adult female fleas as they feed. At 25 °C and 75% relative humidity, it takes 10 days for larvae to progress through three larval instars and develop into pupae (Baker and Elharam 1992); however, the larval period usually lasts two to three weeks. The first instar larva is about 1.5 mm in length, while the third instar is about 5 mm long (Bayer Environmental Science 2007). This last instar larva will use its silk glands to spin a cocoon that serves to protect the immobile pupal stage (Baker and Elharam 1992).

Ctenocephalides canis larva, with the head capsule on the left.

Figure 3. Ctenocephalides canis larva, with the head capsule on the left. Photograph by Krista Seraydar, University of Florida.

Pupae: The larval silk used to build the cocoon is sticky and adheres to any debris in the environment; as a result, cocoons are camouflaged. The debris may help protect the developing pupa from predators such as ants (Silverman and Appel 1984). Inside the cocoon, the larva becomes immobile and molts to the pupal stage after several days.

Pupae are off-white in color, eventually becoming dark brown as they mature. Adults will emerge from pupae after seven days at 25 °C and 75% relative humidity (Baker and Elharam 1992). At lower-than-ideal temperatures and humidity levels, the pupal period lasts one to two weeks (Hill and MacDonald 2007). Adult fleas can remain inactive inside the cocoon as pre-emerged adults for extended periods of time, which enhances their survival during periods when no host animals are available. The closely related cat flea, Ctenocephalides felis, has been shown to survive inside cocoons for up to five months and become active upon detection of potential host vibrations (Durden and Hinkle 2009).

Cocoons of the closely-related cat flea, Ctenocephalides felis, covered with silica sand granules.

Figure 4. Cocoons of the closely-related cat flea, Ctenocephalides felis, covered with silica sand granules. Photograph by James Castner, University of Florida.

Adults: Adult dog fleas are small (2.0 - 3.25 mm), wingless, bilaterally compressed, and heavily chitinized (Bayer Environmental Science 2007, Durden and Hinkle 2009). Members of the genus Ctenocephalides have genal and pronotal combs, large black eyes and 5-segmented labial palps (Ewing and Fox 1943).

Although the dog and cat flea are very similar in appearance, the comb on the ventral margin of the head, the genal ctenidium, is used to help distinguish between Ctenocephalides canis and the cat flea, Ctenocephalides felis. The size of the first two genal spines also differentiates the two species. The first (or outer) genal spine of Ctenocephalides canis is much shorter than the second. In Ctenocephalides felis, the first genal spine is as long as, or barely shorter than, the second (Fox 1940).

Ctenocephalides canis have a head that is comparatively more rounded and about one and a half times as long as it is wide, while the head of Ctenocephalides felis is about twice as long as it is wide (Fox 1940). The cat flea has four to five “teeth” on the tibia of all six legs, whereas the dog flea has seven to eight teeth on the tibia of all six legs (Kramer and Mencke 2001).

Ctenocephalides canis adult.

Figure 5. Ctenocephalides canis adult. Photograph by Krista Seraydar, University of Florida.

Ctenocephalides canis adult, first genal spine is shorter than the second; head is rounder than that of Ctenocephalides felis (see Figure 7).

Figure 6. Ctenocephalides canis adult, first genal spine is shorter than the second; head is rounder than that of Ctenocephalides felis (see Figure 7). Photograph by Krista Seraydar, University of Florida.

Ctenocephalides felis adult, first genal spine is almost as long as the second.

Figure 7. Ctenocephalides felis adult, first genal spine is almost as long as the second. Photograph by Lyle Buss, University of Florida.

Hosts (Back to Top)

Once a suitable host is secured, adult dog fleas usually remain with that host animal for the remainder of the flea's life. Many animal species have been reported to successfully sustain dog fleas including coyotes, wolves, dogs, woodchucks, cats, rabbits, rats, gray foxes, and red foxes (Fox 1940, Durden and Hinkle 2009). Ctenocephalides canis is more likely to infest dogs that reside outdoors, in kennels, or in rural areas (Boushira et al. 2011) than in indoor or more urban areas.

Medical and Economic Significance (Back to Top)

Ctenocephalides canis can serve as an intermediate host for the double-pored or dog tapeworm (Dipylidium caninum), rodent tapeworm (Hymenolepis diminuta), and dwarf tapeworm (Hymenolepis nana) (Durden and Hinkle 2009). Larval fleas ingest tapeworm eggs in the environment, which hatch and develop inside the flea gut. Tapeworms continue to inhabit the insect as the flea progresses to the adult stage. An animal or human can obtain a tapeworm infection upon ingestion of a flea containing a tapeworm cyst. Accidental ingestion usually occurs when animals groom themselves or when children play with pets (Durden and Hinkle 2009).

Symptoms of an infection with Dipylidium caninum in humans, a condition called dipylidiasis, include irritability, restlessness, weight loss, insomnia, and abdominal pain (Hamrick et al. 1983). A person or animal infected with a tapeworm will pass segments of the organism in the stool, which is an important indication of infection. The dog flea is also a principal host of the nematode, Acanthocheilonema reconditum. If bitten by a flea infected with Acanthocheilonema reconditum, a dog may develop a relatively benign condition called canine filariasis, the infestation of tissues with filarial nematodes.

In addition to obtaining parasites from fleas, host animals can develop allergic reactions to the saliva of the adult flea and develop a condition called flea-bite dermatitis (Durden and Hinkle 2009). In hypersensitive dogs and cats, this condition typically presents itself as hairless patches of purple papules or swellings, concentrated on the hindquarters of the animal (Werner 2008). Flea-bite dermatitis usually is treated with a corticosteroid injection (Durden and Hinkle 2009). Domestic dogs and cats often overcome hypersensitivity to the flea’s saliva after repeated infestations.

Dogs presenting with flea-bite dermatitis.

Figure 8. Dogs presenting with flea-bite dermatitis. Photographs by Rosanna Marsella, University of Florida.

To learn more about flea-bite dermatitis, please visit the website of Dr. Alexander Werner, DVM
Animal Dermatology Center

Management (Back to Top)

Prior to taking pest treatment steps, it is important to be sure that you have a flea infestation. Dogs, like many animals, itch for a variety of reasons, only one of which is the result of a flea infestation. Fleas on your pet or flea bites around one’s ankles are both hallmark indications of flea presence in your home (Richman and Koehler 1997). Also, look for flea "dirt", which may appear as black specks on your carpet or pet’s bedding. You can monitor the severity of a flea infestation by combing your pet or wearing white socks around the house.

A successful flea management program in and around the home should consist of a coordinated approach that includes both the host and environment. Dogs and cats can be bathed to remove flea dirt then combed thoroughly and repeatedly with a metal flea-comb to remove adults. An EPA-approved topical flea treatment available in stores or from a veterinarian can be applied to control any adults missed during combing or new infestations. Prior to using any insecticide on your pet, you should consult with your veterinarian regarding your dogs health status and breed sensitivities.

Sanitation is critical in areas where the animal sleeps or rests. Indoors, carpet should be vacuumed and bedding should be washed. Outdoors, dog houses, bedding, and other materials should be washed and placed in the sun. If desired or if the adult flea infestation is significantly large, consult with a pest control professional for additional insecticide treatments. Once a flea infestation has become established, management efforts both on the host and in the environment must be made simultaneously.

Prevention. Prior to taking your pet to another residence, veterinary clinic, dog kennel or other place frequented by other dogs, have a plan in place. Consider pre-treatment of your pet or provide one of the fast-acting insecticides after picking up your pet, but before returning home. Many of these products are capable of killing adult fleas within 30 minutes. These efforts must be preplanned and your veterinarian should be consulted prior to the administration of any insecticide to your pet.

Mechanical Control. The most important form of mechanical control of the dog flea involves maintaining a hygienic environment. Mechanical control is as simple as vacuuming or steam cleaning your pet’s bedding and/or carpet on a regular basis (Durden and Hinkle 2009). Bathing your pet regularly can remove some of the fleas and debris that would otherwise cause irritation. Flea combs also remove adult fleas and debris from pets. In case of an infestation, contaminated bedding, nesting material, or clothing should be either disposed of or exhaustively cleaned (Bayer Environmental Science 2007).

Chemical Control. Chemical control can be employed through direct use on pets or on areas infested with fleas. Pulicidal (flea specific) shampoos and sprays, topical insecticides or insect growth regulators (IGRs), and oral insecticides can be used directly on pets to control fleas (Durden and Hinkle 2009). Oral insecticides are absorbed into the host’s bloodstream and kill adult fleas that attempt to feed on the animal. IGRs are dispersed in the larval fleas' habitat either through spraying or as a part of an on-animal application and to hinder proper larval growth and therefore prevent larvae from developing into viable adults (Durden and Hinkle 2009).

Topical, or spot-on, treatments for pets are available in many formulations. Ensure you are using the appropriate topical treatments for your pet (Durden and Hinkle 2009). Proceed with caution when using topical treatments and carefully read information regarding proper administration of the product. Always consult with your veterinarian before using any method of chemical control on a pet. Cats and many breeds of dogs are sensitive to some of the chemicals available and certain health issues or medications that animals may be on could have unfortunate and unforeseen negative consequences.

Other forms of chemical control include IGR applications to carpets or beddings and treating flea-infested homes with insecticides (Durden and Hinkle 2009). Traditional insecticides and other naturally-occurring materials are commercially available, however, some cat flea populations have expressed insecticide resistance and it is likely that this may occur with the dog flea. Professional pest control services are another option for controlling dog flea populations in the home. With all pesticide use, you should consult with your state’s cooperative extension service for approved materials, your veterinarian regarding your animals’ sensitivity, and read and understand each insecticide label prior to its use. These steps will help to preserve your pet’s health.

The following sites provide additional information on methods of flea control:
IFAS Extension, University of Florida
Fleas: What They Are, What To Do, University of Florida
Fleas, University of Florida (lists of FL approved insecticides)
Controlling Fleas, Texas A&M University

Selected References (Back to Top)