Transovarial transmission

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Transovarial and transstadial transmission of the Ixodes tick Transovarian and Transstadial Transmission.jpg
Transovarial and transstadial transmission of the Ixodes tick

Transovarial or transovarian transmission (transmission from parent to offspring via the ovaries) occurs in certain arthropod vectors as they transmit pathogens from parent to offspring. [1] This process, used by a wide variety of parasites, is also known as vertical transmission. [2] For example, Rickettsia rickettsii , carried within ticks, is passed on from parent to offspring tick by transovarial transmission. This is in contrast to parasites such as Rickettsia prowazekii, which are not passed on by transovarian transmission due to killing the vector that carries it (in this case, the human louse). Other examples of parasites that use this mechanism of transmission include the aedes mosquito vector of the yellow fever virus and in phlebotomine sandflies that transmit pappataci fever. [3]

Richard Dawkins in "The Extended Phenotype" notes that "bacterial endosymbionts of insects which are transmitted transovarially" share an interest in the "success of their host's gametes.....as well as the survival of their host's body." In this case, "the interest of the host genes and parasite genes might not be quite identical, but they would..... be very much closer than the case of fluke and snail." where host and parasite have different means of propagation into the next generation, and therefore more divergent interests. [4]

See also

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<span class="mw-page-title-main">Transstadial transmission</span>

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Disease ecology is a sub-discipline of ecology concerned with the mechanisms, patterns, and effects of host-pathogen interactions, particularly those of infectious diseases. For example, it examines how parasites spread through and influence wildlife populations and communities. By studying the flow of diseases within the natural environment, scientists seek to better understand how changes within our environment can shape how pathogens, and other diseases, travel. Therefore, diseases ecology seeks to understand the links between ecological interactions and disease evolution. New emerging and re-emerging infectious diseases are increasing at unprecedented rates which can have lasting impacts on public health, ecosystem health, and biodiversity.

References

  1. Szklarzewicz, Teresa; Michalik, Anna (2017). "Transovarial Transmission of Symbionts in Insects". Oocytes. Results and Problems in Cell Differentiation. Vol. 63. pp. 43–67. doi:10.1007/978-3-319-60855-6_3. ISBN   978-3-319-60854-9. ISSN   0080-1844. PMID   28779313.
  2. Smith, J. E.; Dunn, A. M. (June 1991). "Transovarial transmission". Parasitology Today (Personal Ed.). 7 (6): 146–148. doi:10.1016/0169-4758(91)90283-t. ISSN   0169-4758. PMID   15463476.
  3. Tesh, R.B. (1984). "Transovarial transmission of arboviruses in their invertebrate vectors". In K.F. Harris (ed.). Current topics in vector research. Vol. 2. Abc-Clio, LLC. pp. 57–76. ISBN   0-275-91433-X. Archived from the original on 2012-12-20.
  4. Dawkins, Richard (2016). The extended phenotype : the long reach of the gene. Oxford University Press. ISBN   978-0-19-878891-1. OCLC   1156420992.