Groundnut rosette virus

Groundnut rosette virus
Virus classification
Group: Group IV ((+)ssRNA)
Order: Unassigned
Family: Tombusviridae
Genus: Umbravirus
Species: Groundnut rosette virus
Synonyms
  • Groundnut chlorotic rosette virus

Groundnut rosette virus (GRV) is a peanut pathogenic virus found in Sub-Saharan Africa. It is transmitted between plants by insect vectors such as the groundnut aphid (Aphis craccivora).[1]

History

The groundnut (Arachis hypogaea) originated in South America where it has long been domesticated. More recently it has been cultivated in other parts of the world and is an important subsistence crop in Sub-Saharan Africa. Groundnut rosette virus was first described in Africa in 1907 and causes serious damage to groundnut crops on that continent. In 1939 it was reported to infect 80 to 90% of plants in the Belgian Congo causing major losses in yield. The virus can spread rapidly through a crop. In a study in Tanzania, the first affected plants were seen six days after the first aphids were observed. Aphid numbers built up rapidly and the disease increased tenfold in two weeks with 65% of the crop plants affected three weeks later.[1]

Symptoms

Research has shown that plants infected by groundnut rosette virus alone show little or no effect, but that the symptoms of the disease are caused by a satellite RNA co-infection, a subviral agent. Groundnut plants affected take on a bushy appearance due to stunting and distortion of the growing shoots. There is a yellowing or mottling of the foliage. Plants affected when young may produce no nuts.[1]

There are three main types of symptoms:

The chlorotic and green types are caused by two variants of the satellite RNA while the mosaic type is caused by infection with a mixture of both variants.[3] Further research has shown that another virus, groundnut rosette assistor virus (GRAV), is also involved in infection. Some groundnut varieties that are resistant to rosette disease have been demonstrated to be highly resistant to GRV and its satellite RNA but fully susceptible to GRAV.[4]

Transmission

The main vector for groundnut rosette virus is the groundnut aphid (Aphis craccivora).[5] When it sucks the sap of an infected plant it receives groundnut rosette virus and satellite RNA, packaged together within a coating of groundnut rosette assistor virus. The disease is epidemic in nature and there is a seasonal cycle of infection, but the origins of this virus are unknown. In Africa, the groundnut aphid feeds on as many as 142 different species of plant, many of them in the Fabaceae family, and the groundnut rosette virus is presumed to have originated among these. Research has shown that although other host plants exist for GRV, GRAV and satellite RNA individually, the only known natural host plant for all parts of the complex is the groundnut.[5]

Virus resistant varieties of groundnut have been discovered but mostly have a long growing period (five to six months rather than three to four for other varieties) and may therefore be more susceptible to drought. A breeding programme has been established in Malawi focussing on disease resistance, early maturity and high yield.[5]

References

  1. 1 2 3 "Datasheet - Aphis craccivora". CAB International. 6 December 2013. Retrieved 13 February 2015.
  2. 1 2 3 "Groundnut chlorotic rosette (Groundnut rosette virus)". Plantwise Knowledge Bank. Plantwise. Retrieved 13 February 2015.
  3. Murant, A. F. (1990). "Dependence of groundnut rosette virus on its satellite RNA as well as on groundnut rosette assistor luteovirus for transmission by Aphis craccivora". Journal of General Virology 71 (9): 2163–2166. doi:10.1099/0022-1317-71-9-2163.
  4. Bock, K. R.; Murant, A. F.; Rajeshwart, R. (1990). "The nature of the resistance in groundnut to rosette disease". Annals of Applied Biology 117 (2): 379–384. doi:10.1111/j.1744-7348.1990.tb04224.x.
  5. 1 2 3 Naidu, R.A.; Kimmins, F.M.; Deom, C.M.; Subrahmanyam, P.; Chiyembekeza, A.J.; van der Merwe, P.J.A. (1999). "Groundnut rosette: a virus disease affecting groundnut production in sub-saharan Africa" (PDF). Plant Disease 83 (8): 700–709. doi:10.1094/pdis.1999.83.8.700.

External links

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