Biology:Varroa jacobsoni

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Short description: Species of mite


Varroa jacobsoni
Varroa jacobsoni attached to a bee.jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Mesostigmata
Family: Varroidae
Genus: Varroa
Species:
V. jacobsoni
Binomial name
Varroa jacobsoni

Varroa jacobsoni is a species of mite that parasitises Apis cerana (Asian honey bees). The more damaging Varroa destructor was previously included under the name V. jacobsoni, but the two species can be separated on the basis of the DNA sequence of the cytochrome oxidase I gene in the mitochondrial DNA.[3]

Biogeography

Prior to recent studies, V. jacobsoni was considered homogeneous; however, current research has detected genetic variance among populations by using genetic markers.[4][5] This finding has led to the belief that V. jacobsoni was introduced to the Americas multiple times. The hosts switching between the eastern A. cerana and the western A. mellifera is the major factor that broadens the pathological transmission of V. jacobsoni.[6] It has spread worldwide with the exception of Australia [7] and central Africa.

Evolution

An adult Varroa jacobsoni feeding on a honey bee.

At least 30 lineages of mites have specialised in living with bees. Most mite species associated with bee nests are either saprophagous or cleptophagous. Saprophagous mites eat hive debris, especially parts with fungi growth. Cleptophagous mites eat pollen and other nutrients stored by bees. The few that have evolved to become parasitic appear to have arisen from predatory lineages. The family Laelapidae has 12 genera that prey on stingless bees (Meliponinae). Thus, the brood parasites (Varroidae) of honeybees (Apinae) appear to have evolved from the Laelapidae.[8]

Life cycle

The lifecycle of V. jacobsoni in A. cerana begins with a mature mated female entering a larval cell of a honey bee. Once the cell is capped, the adult female mite hides for five days inside the larval food near the bottom of the cell. After about five hours, the mite is released from the food, where it then begins feeding on the host's haemolymph.[9] After 60 hours, the adult female mite lays its first egg on the wall of the cell.[10] Unfertilised mite eggs produce male offspring, that are able to mate with the female offspring. The adult mated female then emerges from the cell with the emerging bee. Once mites are released to the environment, they are transferred to other bees through close contact. The adult female mites then feed through the intersegmental membrane on honeybee haemolymph. The cycle is then completed.

Chemical resistance to acaricides

Acaricides are pesticides that kill members of the Acari group, which includes ticks and mites. Acaricides were at one time an effective method in regulating the transmission of V. jacobsoni in honey bees, but the buildup of residues in acaricide-resistant strains have decreased the effectiveness of mite control in honey bees. Among those acaricides used are acrinathrin, amitraz, bromopropylate, chlordimeform, coumaphos, flumethrin, and fluvalinate. Fluvalinate is the most effective acaricide.[11]

Images

References

  1. Oudemans, A. C. (1904). "On a New Genus and Species of Parasitic Acari". Notes from the Leyden Museum 24 (4): 216–222. https://www.biodiversitylibrary.org/page/9644749. 
  2. Oudemans, A. C. (1904). "Acarologische Aanteekeningen XII". Entomologische Berichten 1 (18): 160–164. https://www.biodiversitylibrary.org/page/8982540. 
  3. Maria J. Navajas (2010). "Tracking the colonisation history of the invasive species Varroa destructor". Trends in Acarology. Proceedings of the 12th International Congress. Springer. pp. 375–378. doi:10.1007/978-90-481-9837-5_61. ISBN 978-90-481-9836-8. https://books.google.com/books?id=BBGkhCHzyfkC&pg=PA376. 
  4. B. Kraus; G. Hunt (1995). "Differentiation of Varroa jacobsoni Oud. populations by random amplification of polymorphic DNA (RAPD)". Apidologie 26 (4): 283–290. doi:10.1051/apido:19950402. http://www.culturaapicola.com.ar/apuntes/revistaselectronicas/apidologie/26-4/02.pdf. 
  5. L. I. De Guzman; T. E. Rinderer; J. A. Stelzer; D. L. Anderson (1998). "Congruence of RAPD and mitochondrial markers in assessing Varroa jacobsoni genotypes". Journal of Apicultural Research 37 (2): 49–51. doi:10.1080/00218839.1998.11100955. 
  6. D. L. Anderson; S. Fuchs (1998). "Two genetically distinct populations of Varroa jacobsoni with contrasting reproductive abilities on Apis mellifera". Journal of Apicultural Research 37 (2): 69–78. doi:10.1080/00218839.1998.11100957. 
  7. "On What Continents Are Bees Not Found?". https://animals.mom.me/continents-bees-not-found-5374.html. 
  8. G. C. Eickwort (1994). "Evolution and life-history patterns of mites associated with bees". in Marilyn A. Houck. Mites. Ecological and Evolutionary Analysis of Life History Patterns. Chapman & Hall. pp. 218–251. ISBN 978-0-412-02991-2. 
  9. Gérard Donzé; Patrick M. Guerin (1994). "Behavioral attributes and parental care of Varroa mites parasitizing honeybee brood". Behavioral Ecology and Sociobiology 34 (5): 305–319. doi:10.1007/bf00197001. http://doc.rero.ch/record/20962/files/Donz_G_rard_-_Behavioral_attributes_and_parental_care_of_Varroa_20111112.pdf. 
  10. S. J. Martin (1994). "Ontogenesis of the mite Varroa jacobsoni Oud. in worker brood of the honey bee Apis mellifera L. under natural conditions". Experimental and Applied Acarology 18 (2): 87–100. doi:10.1007/bf00055033. http://www.lasi.group.shef.ac.uk/pdf/Martin%2027.pdf. 
  11. Norberto Milani (1999). "The resistance of Varroa jacobsoni Oud. to acaricides". Apidologie 30 (2–3): 229–234. doi:10.1051/apido:19990211. https://hal.archives-ouvertes.fr/hal-00891580/file/hal-00891580.pdf. 

Wikidata ☰ Q12644374 entry