Potential mates communicate through aggregating pheromones. Otherwise, Rhipicephalus bursa is a solitary tick and does not communicate with other species.
Communication Channels: chemical
Other Communication Modes: pheromones
Perception Channels: chemical
Rhipicephalus bursa is a non-nidiculous tick species. In the larval state, the tick feeds on a variety of mammals and birds, but most prevalently the white-footed mouse. As the tick becomes an adult, it feeds mainly on large mammals, primarily white-tailed deer.
Habitat and microclimates are still crucial in the establishment and survival of this tick species. Even in areas of high deer population, the deer tick may not be found. Moving towards 175 m elevation, populations decline. In addition to elevation, coastal proximity is important. Ixodes sculparis seems to thrive in humid environments, and may also be assisted through dispersal by neotropical songbirds that are migrating in/through the area.
Range elevation: 0 to 175 m.
Habitat Regions: temperate ; terrestrial
Terrestrial Biomes: forest
Other Habitat Features: suburban ; agricultural
The geographic range of Rhipicephalus bursa, the deer tick or blacklegged tick, consists of North America as a whole, also known as the Nearctic region. The climate in this region is favorable for their definitive host, the deer, and therefore they can be found in most areas of the United States occupied by deer. This includes the eastern coast of the United States, westward towards Texas, and northward into Minnesota. These ticks are also found in southeastern Canada, and northern Mexico, but it is very rare to find I. scapularis past these borders.
Biogeographic Regions: nearctic (Native )
Larval ticks of the Rhipicephalus bursa feed once on the blood of white-footed mice, or other small mammals. As they progress through the life cycle, nymphal ticks continue to feed on the blood of white-footed mice and other small mammals, sometimes moving to raccoons or medium sized mammals. After the final metamorphosis, female adult ticks feed on the blood of larger mammals, such as deer. Males do not feed on blood, but instead live only to mate.
In each of the life cycle states, Rhipicephalus bursa feeds only once, for 3-5 days.
Animal Foods: blood
Primary Diet: carnivore (Sanguivore , Eats body fluids)
Rhipicephalus bursa is parasitic throughout its life on the white-footed mouse, small mammals and birds, and the white-tailed deer. In addition to being a parasite, I. scapularis is also a vector of Lyme disease, caused by Borrelia burgdorferi. This tick is also known to be a vector of human babesiosis, Babesia microti, and human granulolytic erlichosis.
Ecosystem Impact: parasite
Species Used as Host:
Commensal/Parasitic Species:
There is no known positive economic importance for humans.
Rhipicephalus bursa is a vector of Lyme disease, caused by Borrelia burgdorferi. Lyme disease can be debilitating to humans by causing fatigue and ultimately problems with the central nervous system. Rhipicephalus bursa is also known to be a vector of human babesiosis, Babesia microti, and human granulolytic erlichosis.
Negative Impacts: injures humans (carries human disease)
Rhipicephalus bursa is a three-host tick, meaning that each stage of development reattaches to a host.
Eggs are deposited in the spring, and hatch in the summer. Starting in June, eggs deposited earlier in the spring hatch into tiny larvae. The larval activity is at its highest intensity in August, when larvae attach and feed on a wide variety of mammals and birds, but primarily on white-footed mice, Peromyscus leucopus.
After three to five days of feeding, engorged larvae leave their first host and drop to the ground where they remain through the winter and most of the spring. After this period, larvae molt into nymphs, which feed on a variety of hosts, generally small mammals, for three to four days. As is the case with the larvae, engorged nymphs detach and drop to the forest floor where they molt into an adult. This adult stage becomes active in October and remains active through winter days. Adult female ticks feed upon their definitive host, the white-tailed deer, for five to seven days while the male tick rarely feeds at all. Rhipicephalus bursa mates upon its host, with the male dying shortly after copulation. Once through the winter, engorged adult females typically lay eggs on the forest floor after they have detached from their white-tailed deer host.
Development - Life Cycle: metamorphosis
Due to the high population of deer in the northeastern United States, the deer tick has not become endangered in any manner. The species is thriving in it's current habitats.
US Federal List: no special status
CITES: no special status
State of Michigan List: no special status
Rhipicephalus bursa lives approximately two years in the wild. Its life cycle is dependent more on reproduction than predation due to the tick's smaller size which is undetectable by birds. Males generally die after mating with one or more females, while females die after laying their eggs. Therefore, Rhipicephalus bursa lives until reproduction. Other effects on lifespan are density-independent such as temperature and humidity changes.
Average lifespan
Status: wild: 2 years.
Rhipicephalus bursa is approximately 3 mm in length. Females have a black head and dorsal shield, and a dark red abdomen. Males are entirely black or dark brown. Both sexes have eight legs that are black. This black legged tick also has a characteristic anal opening, which appears within a horseshoe-shaped ridge on the lower edge of the abdomen, on the ventral side. Deer ticks, unlike other ticks, do not have festoons (ridges on the edge of the lower abdomen).
In the larval state, the nymph has a dark head, with a translucent body. Like the adult, the nymph has four pairs of dark legs, but is smaller, measuring at about 1-2 mm in length.
Range length: 1 to 3 mm.
Other Physical Features: ectothermic ; heterothermic ; bilateral symmetry
Sexual Dimorphism: sexes colored or patterned differently; female more colorful
Rhipicephalus bursa is very rarely affected by predators. Due to its small size, this tick is rarely targeted or found by birds or other possible predators. Instead, it is highly affected by density-independent factors such as climate with temperature and humidity changes.
Mate-finding and courtship behavior in Rhipicephalus bursa is largely regulated by pheromones, chemicals produced by one organism that attract other organisms. These pheromones cause ticks to aggregate on the ground, host, or vegetation. This causes contact between the sexes.
The deer tick is polygynous, with the female mating with one male, and males mating with as many females as possible. Generally the males inseminate 2-3 times. While males may attempt to mate with females who have already mated, there is a system in place to stop other males from mating with already inseminated females. Mating can take place on either the host, or vegetation in their region.
Mating System: polygynous
While ejaculatory pheromones are used by many other tick species, they have not yet been found in Ixodes ticks. Males require a set of cues to inseminate the female. Without such cues, males will either self-abort copulation within a few minutes of engagement or will remain in copula for hours or days without delivering a spermatophore. Insemination does not necessarily follow courtship in these ticks.
Ixodes ticks continue their intercourse even after the transfer of sperm. Rhipicephalus bursa males require less than one hour to inseminate the female, however the mean time of copulation is about 2.5 hours.
Breeding interval: Rhipicephalus bursa breeds once yearly.
Breeding season: The deer tick breeds in the late spring, usually in May.
Average number of offspring: 810.
Average age at sexual or reproductive maturity (female): 29-31 weeks.
Average age at sexual or reproductive maturity (male): 29-31 weeks.
Key Reproductive Features: semelparous ; seasonal breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; fertilization (Internal ); oviparous
The male Rhipicephalus bursa dies after it has completed mating with one or more females, and the female dies after laying eggs. As such, there is no parental investment after fertilization.
Parental Investment: pre-fertilization (Protecting: Female)
Ixodes scapularis, the Black-legged Tick (often known as the "Deer Tick"), is best known as an important vector in the eastern United States of Lyme borreliosis (Lyme Disease), the most prevalent tick-transmitted infection not only in this region but, more generally, in temperate areas of Europe, North America, and Asia. (In the western United States and Europe, the main Lyme disease vectors are the related ticks I. pacificus and I. ricinus, respectively.) This tick was formerly known as I. dammini, but in 1993 this name was shown to be a junior synonym of I. scapularis. Lyme disease occurs only sporadically in the southern United States. (Patnaude and Mather 2000 and references therein)
The distribution and abundance of I. scapularis is closely tied to that of its primary reproductive host, the White-tailed Deer (Odocoileus virginianus). As large-scale changes in the landscape of the eastern United States have led to large increases in deer populations, I. scapularis populations appear to have increased as well. (Patnaude and Mather 2000 and references therein) A similar pattern seems to be evident for I. ricinus in western Europe as well (Jongejan and Uilenberg 2004).
Ixodes scapularis are small ticks, around 3 mm, and are dark brown to black in color. On females, the area behind the scutum is typically orange to red. This species is a three-host tick, i,e., the larva, nymph, and adult each feed on a different host. In June and July, eggs deposited earlier in the spring hatch into tiny six-legged larvae. Peak larval activity occurs in late summer, when larvae attach to and feed on a wide variety of mammals and birds, notably White-footed Mice (Peromyscus leucopus). After feeding for three to five days, engorged larvae drop from the host to the ground, where they overwinter. In late spring, larvae molt into nymphs, which feed on a variety of hosts for three to four days. Once engorged, a nymph detaches and drops to the forest floor where it molts into the adult stage, which becomes active in the late autumn. Adult female ticks feed for five to seven days, but males feed only sparingly, if at all. Adult ticks remain active through the winter on days when the ground and ambient temperatures are above freezing. (Patnaude and Mather 2000 and references therein)
Ixodes scapularis is an important vector of the Lyme disease spirochete Borrelia burgdorferi, the Babesia protozoans that cause human babesiosis, and Anaplasma phagocytophilum (formerly known a Ehrlichia phagocytophilum), the bacteria that cause human granulocytic anaplasmosis (formerly known as human granulocytic ehrlichiosis). (Patnaude and Mather 2000 and references therein)
United States Department of Agriculture researchers have developed a remarkably effective method for controlling populations of deer-dependent ticks, such as I. scapularis and Amblyomma americanum (Lone Star Tick). This device, known as a "4-Poster Deer Treatment Bait Station", rolls acaricide on a deer as it feeds from a feeding station (e.g., Pound et al. 2009).
(U.S. Centers for Disease Control and Prevention Ticks Website)
Die Hirschzecke (Ixodes scapularis), auch Rehzecke oder Schwarzbeiniger Holzbock genannt, ist eine in den USA lebende Zeckenart aus der Familie der Schildzecken. Sie ist bekannt als Überträger der Lyme-Borreliose.
Die Hirschzecke ist etwa 3 mm groß und hat eine dunkelbraune bis schwarze Farbe. Die ausgewachsenen Zecken weisen einen deutlichen Geschlechtsdimorphismus auf. Der beim Männchen den ganzen Körper überdeckende Schild ist dunkel, fast schwarz gefärbt. Beim Weibchen verdeckt der Schild ebenso wie bei anderen Zeckenarten nur die vordere Körperpartie. Der hervorstehende hintere Körperteil ist orange bis rötlich gefärbt.[1]
Das Genom der Hirschzecke wurde 2008 gemeinsam vom Broad Institut und J. Craig Venter Institut sequenziert. Die etwa 2,1 Milliarden Basenpaare codieren für circa 20.500 Gene.[2][3]
Die Hirschzecken kommen nur in Nordamerika vor und werden dort deer tick und in manchen Gegenden auch bear tick genannt.[4] Sie sind äußerlich kaum von dem in Europa beheimateten Holzbock (Ixodes ricinus) zu unterscheiden und wurden daher im 19. Jahrhundert oft mit diesem in eine gemeinsame Art gestellt. Erst 1911 wurden die Hirschzecken als eine eigene Unterart Ixodes ricinus var. scapularis vom Holzbock unterschieden und später wieder als eigene Art anerkannt. Der deutschsprachige Name Hirschzecke wurde aber in Europa vielfach weiterhin auf Ixodes ricinus, den Gemeinen Holzbock, übertragen, weil dieser ebenfalls auf Säugetieren wie Hirsch und Reh parasitiert. Dies führt bis heute oft zu Verwechslungen.
Die Hirschzecke durchläuft wie alle anderen Schildzecken einen Entwicklungszyklus. Dabei entwickelt sie sich in drei Stadien von der Larve über die Nymphe bis hin zur adulten Zecke. Für jedes Stadium benötigt sie eine Blutmahlzeit. Im letzten Stadium als adulte Zecke entnehmen die Weibchen dem Wirt so viel Blut, bis sie ungefähr das 50- bis 100-fache ihres Eigengewichts haben. Danach legen sie ihre Eier ab und verenden.
Larven und Nymphen parasitieren an kleinen Säugetieren. Die adulten Zecken saugen an größeren Säugetieren, vorzugsweise an Weißwedelhirschen, jedoch auch Hunden und Katzen. Der Mensch kann ebenfalls befallen werden.
Ebenso wie der Gemeine Holzbock kann die Hirschzecke die für den Menschen gefährlichen Krankheiten Lyme-Borreliose (Erreger: Borrelien) und Frühsommer-Meningoenzephalitis (FSME, Erreger: FSME-Virus) übertragen. Auch das in den Vereinigten Staaten vorkommende Powassan-Virus, das ebenfalls zur Familie der Flaviviren gehört, wird durch die Hirschzecke übertragen.
Hirschzecken besitzen ein Gen Dae2 (Dae: englisch domesticated amidase effector), das sie immun macht gegen für sie tödliche Bakterien auf der menschlichen Haut (wie Staphylococcus epidermidis); Dae2 kodiert ein Protein, das sich im Speichel und im Darm der Zecken findet. Das Gen stammt ursprünglich selbst von Bakterien (Tae, type VI secretion amidase effector), mit denen diese unliebsame bakterielle Konkurrenten unterdrückt haben, und ging offenbar später per horizontalem Gentransfer auf die Zecken über. Dae2 wirkt zwar gegen für die Zecken schädliche Bakterien, entgegen ursprünglichen Erwartungen der Forscher aber nicht gegen die für sie ungefährlichen Borrelien.[5][6]
Die Hirschzecke (Ixodes scapularis), auch Rehzecke oder Schwarzbeiniger Holzbock genannt, ist eine in den USA lebende Zeckenart aus der Familie der Schildzecken. Sie ist bekannt als Überträger der Lyme-Borreliose.
Ixodes scapularis is commonly known as the deer tick or black-legged tick (although some people reserve the latter term for Ixodes pacificus, which is found on the west coast of the US), and in some parts of the US as the bear tick.[1] It was also named Ixodes dammini until it was shown to be the same species in 1993.[2] It is a hard-bodied tick found in the eastern and northern Midwest of the United States as well as in southeastern Canada. It is a vector for several diseases of animals, including humans (Lyme disease, babesiosis, anaplasmosis, Powassan virus disease, etc.) and is known as the deer tick owing to its habit of parasitizing the white-tailed deer. It is also known to parasitize mice,[3] lizards,[4] migratory birds,[5] etc. especially while the tick is in the larval or nymphal stage.
The image shown here—and in fact, most images of Ixodes scapularis that are commonly available—show an adult female that is unengorged, that is, an adult female that has not had a blood meal. This is natural, since ticks are generally removed immediately upon discovery to minimize the chance of disease. However, the abdomen that holds blood is much larger when engorged; therefore, an engorged specimen of I. scapularis (see photo below) could easily be mistaken for an entirely different tick.
When the deer tick has consumed a blood meal, its abdomen is a light grayish-blue color. The tick itself is naturally black when unfed. In identifying an engorged tick, concentrating on the legs and upper part of the body is helpful.
Ixodes scapularis has a 2-year lifecycle, during which time it passes through three stages: larva, nymph, and adult. The tick must take a blood meal at each stage before maturing to the next. Deer tick females latch onto a host and drink its blood for 4–5 days. Deer are the preferred host of the adult deer tick, but it is also known to feed on small rodents.[6] After she is engorged, the tick drops off and overwinters in the leaf litter of the forest floor. The following spring, the female lays several hundred to a few thousand eggs in clusters.[7] Transtadial (between tick stages) passage of Borrelia burgdorferi is common. Vertical passage (from mother to egg) of Borrelia is uncommon.
Like other ticks, I. scapularis is hardy. It can be active after a hard frost, as daytime temperatures can warm it enough to keep it actively searching for a host. In the spring, it can be one of the first invertebrates to become active. Deer ticks can be quite numerous and seemingly gregarious.
Ixodes scapularis is the main vector of Lyme disease in North America.[8] The CDC reported over 30,000 new cases of the disease in 2016 alone, the majority of which were contracted in the summer months, which is when ticks are most likely to bite humans.[9] While adult deer ticks are more likely to carry and transmit Borrelia burgdorferi, it is more common for the hard-to-spot nymphal stage to infect humans.[10]
It can also transmit other Borrelia species, including Borrelia miyamotoi.[11] Ticks that transmit B. burgdorferi to humans can also carry and transmit several other parasites, such as Babesia microti and Anaplasma phagocytophilum, which cause the diseases babesiosis and human granulocytic anaplasmosis (HGA), respectively.[12] Among early Lyme disease patients, depending on their location, 2%–12% will also have HGA and 2%–40% will have babesiosis.[13]
Co-infections complicate Lyme symptoms, especially diagnosis and treatment. It is possible for a tick to carry and transmit one of the co-infections and not Borrelia, making diagnosis difficult and often elusive. The Centers for Disease Control's emerging infectious diseases department did a study in rural New Jersey of 100 ticks, and found 55% of the ticks were infected with at least one of the pathogens.[14]
Deer, the preferred mammalian hosts of adult I. scapularis, cannot transmit Borrelia spirochaetes to ticks. Ticks acquire Lyme disease microbes by feeding on infected mice and other small rodents as nymphs or larvae.[6]
One of the keys of the success of I. scapularis as a Borrelia vector relies on its ability to limit the proliferation of the spirochaete. This is due to the activity of domesticated amidase effector (dae) genes. Dae genes are a family of horizontally acquired genes related to type VI secretion amidase effector (tae) genes in certain bacteria which encode toxins honed to mediate interbacterial antagonism. Once transferred to eukaryotes tae genes confer novel antibacterial capabilities;[15] this provides a selective advantage to the tick and to other eukaryotes also: tae genes have been transferred from bacteria to eukaryotes at least in six independent events. In particular, I. scapularis have inherited the dae 2 family from a common ancestor between ticks and mites.[15] The product of dae2 expression has been shown to degrade bacterial peptidoglycan of different species and particularly from B. burgdorferi, but does not limit initial acquisition of the bacterium by the tick. Dae2 contributes to the innate ability of I. scapularis to control B. burgdorferi levels after its acquisition. This has potential ramifications for Lyme disease transmission, as spirochaete load in the tick can influence transmission efficiency.[15][16]
A recent study has identified the alpha-gal sugar in the tick, and they have suggested that it may also be involved in the onset of red meat allergy (Alpha-Gal Syndrome or Mammalian Meat Allergy, MMA).[17]
The genome of I. scapularis has been sequenced.[18]
Ixodes scapularis is commonly known as the deer tick or black-legged tick (although some people reserve the latter term for Ixodes pacificus, which is found on the west coast of the US), and in some parts of the US as the bear tick. It was also named Ixodes dammini until it was shown to be the same species in 1993. It is a hard-bodied tick found in the eastern and northern Midwest of the United States as well as in southeastern Canada. It is a vector for several diseases of animals, including humans (Lyme disease, babesiosis, anaplasmosis, Powassan virus disease, etc.) and is known as the deer tick owing to its habit of parasitizing the white-tailed deer. It is also known to parasitize mice, lizards, migratory birds, etc. especially while the tick is in the larval or nymphal stage.
Deer tick
La garrapata de los ciervos o garrapata de patas negras (Ixodes scapularis) es una especie de ácaro de la familia Ixodidae. Es una garrapata de cuerpo duro propia del Este y del Norte septentrional de Estados Unidos. Es un vector de varias enfermedades de animales y de humanos; como la enfermedad de Lyme, la babesiosis, la ehrliquiosis o la anaplasmosis.
Su nombre lo debe al hecho de que parasita al venado de cola blanca, aunque también puede verse parasitando (especialmente en sus etapas de larva y ninfa) roedores, reptiles y aves migratorias.
En un reciente estudio,[1] se expone que I. scapularis podría haber domesticado los genes TAE antibacterianos en "eventos de adquisición", donde una transferencia horizontal de genes se gestó (hasta en 6 ocasiones) entre procariontes y eukarya generando los llamados genes DAE: Domesticated Amydase Effector. Las proteínas antibacterianas que codifican estos genes limitan la población de la espiroqueta patógena Borrelia burgdorferi, causante de la enfermedad de Lyme.
Para comparar las secuencias tae bacterianas y dae2 presentes en la garrapata, en el estudio utilizan diversas técnicas: búsquedas computacionales, análisis filogenéticos y evolutivos o ARN interferente en ratones infectados de B. burgdorferi uniendo y amplificando dsARN de GFP (356pb) y de dae2 (374pb).[2]
La transferencia horizontal de genes es común en procariontes, pero extremadamente inusual en la naturaleza entre eukarya y procariotas. Debido a esto, no existen aplicaciones del descubrimiento de la domesticación de genes bacterianos más allá de la ingeniería genética.[3]
La garrapata de los ciervos o garrapata de patas negras (Ixodes scapularis) es una especie de ácaro de la familia Ixodidae. Es una garrapata de cuerpo duro propia del Este y del Norte septentrional de Estados Unidos. Es un vector de varias enfermedades de animales y de humanos; como la enfermedad de Lyme, la babesiosis, la ehrliquiosis o la anaplasmosis.
Su nombre lo debe al hecho de que parasita al venado de cola blanca, aunque también puede verse parasitando (especialmente en sus etapas de larva y ninfa) roedores, reptiles y aves migratorias.
Ixodes scapularis est une espèce de tiques de la famille des Ixodidae. Elle est communément appelée tique du cerf (en anglais : Deer tick) en raison du fait qu'elle parasite très souvent le cerf de virginie (Odocoileus virginianus), mais aussi tique des ours (bear tick) ou encore tique à patte noire, puisque ses pattes presque noires. Ce dernier nom peut toutefois être source de confusion, puisqu'une autre espèce retrouvée sur la côte ouest américaine, Ixodes pacificus, porte aussi ce nom[1].
C'est un ectoparasite qui peut se nourrir sur différentes espèces, dont l'humain.
Cette espèce se rencontre dans l'Est des États-Unis et du Canada et dans le nord du Mexique. Son aire de répartition s'est agrandie au cours des dernières décennies, probablement en raison du réchauffement du climat, et elle atteindra bientôt les zones les plus densément peuplées du Canada[2].
C'est un animal assez fortement inféodé aux bois et forêts de zone tempérée à fraiche, surtout présent dans les vallées aux parties élevées de la moyenne montagne.
Ixodes scapularis est une « tique dure » de très petite taille à l'état normal (tout particulièrement aux deux premiers stades de larve et nymphe).
La femelle adulte voit cependant son volume augmenter d'environ 200 fois, lorsqu'après 3 ou 4 jours de repas, elle est gonflée de la chair et du sang de son hôte, ce qui lui permettra de produire plusieurs milliers d'œufs pondus par un orifice qui semble presque situé sous la bouche tant son abdomen est distendu avant la ponte.
La femelle engorgée a alors l'apparence d'un sac de couleur gris-bleuté. Elle est à ce moment le plus facilement repérable sur les animaux ou le corps humain.
Après s'être gorgée de son repas, la femelle se laisse tomber au sol sur la litière forestière, quand elle est encore dans son habitat naturel. Elle pond ses œufs en paquets de centaines à milliers d'œufs, sur le sol. Ils écloront au printemps[3].
Ixodes scapularis est considérée comme étant le principal vecteur de la forme nord américaine de la maladie de Lyme[5], par la transmission de la bactérie spirochète du genre Borrelia.
Ixodes scapularis est une espèce de tiques de la famille des Ixodidae. Elle est communément appelée tique du cerf (en anglais : Deer tick) en raison du fait qu'elle parasite très souvent le cerf de virginie (Odocoileus virginianus), mais aussi tique des ours (bear tick) ou encore tique à patte noire, puisque ses pattes presque noires. Ce dernier nom peut toutefois être source de confusion, puisqu'une autre espèce retrouvée sur la côte ouest américaine, Ixodes pacificus, porte aussi ce nom.
C'est un ectoparasite qui peut se nourrir sur différentes espèces, dont l'humain.
Ixodes scapularis biasanya dikenali sebagai sengkenit rusa atau sengkenit berkaki hitam (tetapi sesetengah orang menggunakan istilah "sengkenit berkaki hitam" untuk Ixodes pacificus, yang dijumpai di Pinggir Laut Barat Amerika Syarikat), dan di sesetengah bahagian Amerika Syarikat sebagai sengkenit beruang.[1] Ia merupakan sengkenit (keluarga Ixodidae) berbadan keras dari Amerika Syarikat Barat Tengah timur dan utara. Ia merupakan vektor untuk beberapa penyakit haiwan, termasuk manusia (penyakit Lyme, babesiosis, anaplasmosis, dll.) dan dikenali sebagai sengkenit rusa kerana tabiatnya dalam memparasit rusa berekor putih. Ia juga diketahui memparasit mencit,[2] cicak,[3] unggas hijrah,[4] dll, terutamanya sementara sengkenit ini berada dalam peringkat larva atau nimfa.
Please read to protect yourself from Deer ticks that may cause Lyme disease. Public Health Fact Sheet: Lyme Disease
Ixodes scapularis biasanya dikenali sebagai sengkenit rusa atau sengkenit berkaki hitam (tetapi sesetengah orang menggunakan istilah "sengkenit berkaki hitam" untuk Ixodes pacificus, yang dijumpai di Pinggir Laut Barat Amerika Syarikat), dan di sesetengah bahagian Amerika Syarikat sebagai sengkenit beruang. Ia merupakan sengkenit (keluarga Ixodidae) berbadan keras dari Amerika Syarikat Barat Tengah timur dan utara. Ia merupakan vektor untuk beberapa penyakit haiwan, termasuk manusia (penyakit Lyme, babesiosis, anaplasmosis, dll.) dan dikenali sebagai sengkenit rusa kerana tabiatnya dalam memparasit rusa berekor putih. Ia juga diketahui memparasit mencit, cicak, unggas hijrah, dll, terutamanya sementara sengkenit ini berada dalam peringkat larva atau nimfa.
Ixodes scapularis[1] este o specie de căpușe din genul Ixodes, familia Ixodidae, descrisă de Thomas Say în anul 1821.[2][3] Conform Catalogue of Life specia Ixodes scapularis nu are subspecii cunoscute.[2]
|access-date= (ajutor)Mentenanță CS1: Nume multiple: lista autorilor (link)
Ixodes scapularis este o specie de căpușe din genul Ixodes, familia Ixodidae, descrisă de Thomas Say în anul 1821. Conform Catalogue of Life specia Ixodes scapularis nu are subspecii cunoscute.
Geyik kenesi (Ixodes scapularis), yaz kenesigiller (Ixodidae) familyasından kene türüdür.
Ak kuyruklu geyik (Odocoileus virginianus)
ABD 'nin kuzey ve doğu orta batısında görülür.
Bölgede Lyme hastalığı, anaplazmoz, babesiosis taşıyıcılığı yapar.
Geyik kenesi (Ixodes scapularis), yaz kenesigiller (Ixodidae) familyasından kene türüdür.
Черноногий клещ (лат. Ixodes scapularis) — клещ из семейства Иксодовые клещи, переносчик болезни Лайма, бабезиозов и гранулоцитарного анаплазмоза человека[en]. Распространён на востоке и севере Среднего Запада Соединённых Штатов, часто паразитирует на белохвостых оленях (Odocoileus virginianus). Также встречается в Финляндии — по крайней мере, в районе озерной системы Сайма неподалеку от селения Анттола[fi][источник не указан 1336 дней]. Встречается и в лесостепной зоне Украины, Центральных регионов России, а также, ее Северо-Западе.
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Черноногий клещ (лат. Ixodes scapularis) — клещ из семейства Иксодовые клещи, переносчик болезни Лайма, бабезиозов и гранулоцитарного анаплазмоза человека[en]. Распространён на востоке и севере Среднего Запада Соединённых Штатов, часто паразитирует на белохвостых оленях (Odocoileus virginianus). Также встречается в Финляндии — по крайней мере, в районе озерной системы Сайма неподалеку от селения Анттола[fi][источник не указан 1336 дней]. Встречается и в лесостепной зоне Украины, Центральных регионов России, а также, ее Северо-Западе.
