Transovarial transmission: Difference between revisions
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{{Short description|Transmission of pathogens from parent arthropod to offspring}} | |||
{{Use dmy dates|date=October 2023}} | |||
'''Transovarial transmission''' is a form of vertical transmission of pathogens, where the pathogen is transmitted from the parent arthropod to its offspring via the eggs. This process is significant in the life cycles of various [[arthropods]] and the pathogens they carry, including [[viruses]], [[bacteria]], and [[protozoa]]. | |||
Transovarial transmission | |||
==Mechanism== | ==Mechanism== | ||
Transovarial transmission occurs when a pathogen infects the ovaries of a female arthropod and is incorporated into the developing eggs. This ensures that the offspring are born already infected with the pathogen, allowing the pathogen to persist across generations without the need for an external host. This mechanism is particularly important for pathogens that rely on arthropods as vectors, such as certain [[arboviruses]] and [[rickettsiae]]. | |||
== | ==Examples== | ||
One well-known example of transovarial transmission is seen in the [[Ixodidae|Ixodid]] ticks, which can transmit [[Rickettsia rickettsii]], the causative agent of [[Rocky Mountain spotted fever]], to their offspring. Similarly, the [[Aedes]] mosquitoes can transmit the [[Dengue virus]] transovarially, contributing to the persistence of the virus in mosquito populations even in the absence of human hosts. | |||
== | ==Significance== | ||
Transovarial transmission is a crucial factor in the epidemiology of vector-borne diseases. It allows pathogens to maintain a reservoir in vector populations, facilitating outbreaks when environmental conditions become favorable. This mode of transmission also complicates control efforts, as it requires targeting both adult vectors and their offspring to effectively reduce pathogen prevalence. | |||
* | |||
==Related concepts== | |||
Transovarial transmission is often discussed alongside [[transstadial transmission]], where the pathogen is maintained through different life stages of the vector, such as from larva to nymph to adult in ticks. Both mechanisms are essential for the survival and spread of certain pathogens within vector populations. | |||
==Related pages== | |||
* [[Vector (epidemiology)]] | |||
* [[Vertical transmission]] | |||
* [[Arbovirus]] | |||
* [[Rickettsia]] | |||
==References== | |||
* Burgdorfer, W., & Brinton, L. P. (1975). Mechanisms of transovarial infection of spotted fever rickettsiae in ticks. ''Annals of the New York Academy of Sciences'', 266(1), 61-72. | |||
* Tesh, R. B. (1984). Transovarial transmission of arboviruses in their invertebrate vectors. ''Current Topics in Vector Research'', 2, 57-76. | |||
[[File:Transovarian_and_Transstadial_Transmission.jpg|thumb|Illustration of transovarial and transstadial transmission in ticks.]] | |||
[[Category:Parasitology]] | [[Category:Parasitology]] | ||
[[Category: | [[Category:Vector-borne diseases]] | ||
= Transovarial transmission = | |||
<gallery> | |||
File:Transovarian_and_Transstadial_Transmission.jpg | |||
</gallery> | |||
Latest revision as of 01:00, 17 February 2025
Transmission of pathogens from parent arthropod to offspring
Transovarial transmission is a form of vertical transmission of pathogens, where the pathogen is transmitted from the parent arthropod to its offspring via the eggs. This process is significant in the life cycles of various arthropods and the pathogens they carry, including viruses, bacteria, and protozoa.
Mechanism[edit]
Transovarial transmission occurs when a pathogen infects the ovaries of a female arthropod and is incorporated into the developing eggs. This ensures that the offspring are born already infected with the pathogen, allowing the pathogen to persist across generations without the need for an external host. This mechanism is particularly important for pathogens that rely on arthropods as vectors, such as certain arboviruses and rickettsiae.
Examples[edit]
One well-known example of transovarial transmission is seen in the Ixodid ticks, which can transmit Rickettsia rickettsii, the causative agent of Rocky Mountain spotted fever, to their offspring. Similarly, the Aedes mosquitoes can transmit the Dengue virus transovarially, contributing to the persistence of the virus in mosquito populations even in the absence of human hosts.
Significance[edit]
Transovarial transmission is a crucial factor in the epidemiology of vector-borne diseases. It allows pathogens to maintain a reservoir in vector populations, facilitating outbreaks when environmental conditions become favorable. This mode of transmission also complicates control efforts, as it requires targeting both adult vectors and their offspring to effectively reduce pathogen prevalence.
Related concepts[edit]
Transovarial transmission is often discussed alongside transstadial transmission, where the pathogen is maintained through different life stages of the vector, such as from larva to nymph to adult in ticks. Both mechanisms are essential for the survival and spread of certain pathogens within vector populations.
Related pages[edit]
References[edit]
- Burgdorfer, W., & Brinton, L. P. (1975). Mechanisms of transovarial infection of spotted fever rickettsiae in ticks. Annals of the New York Academy of Sciences, 266(1), 61-72.
- Tesh, R. B. (1984). Transovarial transmission of arboviruses in their invertebrate vectors. Current Topics in Vector Research, 2, 57-76.
