Didymella pinodes

Didymella pinodes
Necrotic lesions caused by Didymella pinodes on field pea leaves two weeks after infection.
Scientific classification
Kingdom: Fungi
Phylum: Ascomycota
Class: Dothideomycetes
Order: Pleosporales
Family: Didymellaceae
Genus: Didymella
Species: D. pinodes
Binomial name
Didymella pinodes
(Berk. & A. Bloxam) Petr., (1924)
Synonyms

Ascochyta pinodes L.K. Jones, (1927)
Didymellina pinodes (Berk. & A. Bloxam) Höhn., (1918)
Mycosphaerella pinodes (Berk. & A. Bloxam) Vestergr., (1912)
Sphaerella pinodes (Berk. & A. Bloxam) Niessl, (1875)
Sphaeria pinodes Berk. & A. Bloxam, (1861)

Didymella pinodes (syn. Mycosphaerella pinodes) [1] is a hemibiotrophic [2] fungal plant pathogen and the causal agent of ascochyta blight on pea. It is infective on several species such as Lathyrus sativus, Lupinus albus, Medicago spp., Trifolium spp., Vicia sativa, and Vicia articulata, and is thus defined as broadrange pathogen.[3]

Symptoms

Symptoms include lesions on leaves, stem and pods of plants. The disease is difficult to distinguish from blight caused by Ascochyta pisi, though D. pinodes is the more aggressive of the two pathogens.[4]

Epidemiology

The disease cycle starts with dissemination of ascospores after which germination pycnidia rapidly develop.[5] Pycnidiaspores quickly disperse by rain splashes are responsible for reinfection over short distances. Consequently, production of pseudothecia is initiated on senescent tissues. After rainfall, ascospores are released from the pseudothecia and disperse by wind over long distances.[6]

Disease management

Useful levels of resistance remain to be determined and the application of fungicidal sprays was reported to be uneconomical.[7][8] Furthermore, reports showed that insensitivity arises against chemicals such as strobilurons after continuous application.[9] Thus, cultural management is the preliminar option to control the disease progress by minimizing inoculum carry over as well as survival of inoculum on crop residues and in soil, and avoiding initial infection from arial inoculum.[10] Furthermore, burying of infected residues declines pathogen survival,[11] however, crop rotation and tillage regimes have little influence on disease severity.[12] Delayed sowing by 3–4 weeks reduces ascochyta blight severity by more than 50%,[13] however, such measures are not feasable at higher latitudes, because of a shorter growing season.

Host resistance

So far, only incomplete resistance is available in the pea germplasm and quantitative differences are highly influenced by environmental conditions, plant age and physiological characteristics of plants.[14][15] Tall cultivars with more erect growth suffer lower D. pinodes infection.[16] Susceptibility increases with earliness [17] and along with maturity of plants.[18] Disease severity of leaves was reported to be lower when pea plants are associated with rhizobial bacteria that presumalby provoke so called induced sysmteic resistance.[19]

See also

External links Index Fungorum

References

  1. Chen; et al. (2015). "Resolving the Phoma enigma". Studies in Mycology. 82: 137–217. doi:10.1016/j.simyco.2015.10.003.
  2. Clulow, S. A.; Lewis, B. G.; Parker, Mary L.; Matthews, P. (1991-07-01). "Infection of pea epicotyls by Mycosphaerella pinodes". Mycological Research. 95 (7): 817–820. doi:10.1016/S0953-7562(09)80044-0.
  3. Barilli, Eleonora; Cobos, Maria José; Rubiales, Diego (2016-01-01). "Clarification on Host Range of Didymella pinodes the Causal Agent of Pea Ascochyta Blight". Crop Science and Horticulture: 592. doi:10.3389/fpls.2016.00592. PMC 4865514Freely accessible. PMID 27242812.
  4. pea ascohyta blight symptoms
  5. Tivoli, B.; Beasse, C.; Lemarchand, E.; Masson, E. (1996-10-01). "Effect of ascochyta blight (Mycosphaerella pinodes) on yield components of single pea (Pisum sativum) plants under field conditions". Annals of Applied Biology. 129 (2): 207–216. doi:10.1111/j.1744-7348.1996.tb05745.x. ISSN 1744-7348.
  6. Tivoli, Bernard; Banniza, Sabine (2007-03-27). "Comparison of the epidemiology of ascochyta blights on grain legumes". European Journal of Plant Pathology. 119 (1): 59–76. doi:10.1007/s10658-007-9117-9. ISSN 0929-1873.
  7. Khan, T. N.; Timmerman-Vaughan, G. M.; Rubiales, D.; Warkentin, T. D.; Siddique, K. H. M.; Erskine, W.; Barbetti, M. J. (2013-07-01). "Didymella pinodes and its management in field pea: Challenges and opportunities". Field Crops Research. 148: 61–77. doi:10.1016/j.fcr.2013.04.003.
  8. Bretag, TW; Keane, PJ; Price, TV (1995-07-01). "Effect of Ascochyta blight on the grain yield of field peas (Pisum sativum L.) grown in southern Australia". Animal Production Science. 35 (4). doi:10.1071/EA9950531. ISSN 1836-5787.
  9. Bowness, Robyne; Gossen, Bruce D.; Chang, Kan-Fa; Goswani, Rubella; Willenborg, Christian J.; Holtz, Michael; Strelkov, Stephen E. (2015-07-21). "Sensitivity of Mycosphaerella pinodes to Pyraclostrobin Fungicide". Plant Disease. 100 (1): 192–199. doi:10.1094/PDIS-03-15-0350-RE. ISSN 0191-2917.
  10. McDonald, G. K.; Peck, D. (2009-03-15). "Effects of crop rotation, residue retention and sowing time on the incidence and survival of ascochyta blight and its effect on grain yield of field peas (Pisum sativum L.)". Field Crops Research. 111 (1–2): 11–21. doi:10.1016/j.fcr.2008.10.001.
  11. Sheridan, J. J. (1973-10-01). "The survival of Mycosphaerella pinodes on pea haulm buried in soil". Annals of Applied Biology. 75 (2): 195–203. doi:10.1111/j.1744-7348.1973.tb07299.x. ISSN 1744-7348.
  12. Bailey, K. L.; Gossen, B. D.; Derksen, D. A.; Watson, P. R. "Impact of agronomic practices and environment on diseases of wheat and lentil in southeastern Saskatchewan". Canadian Journal of Plant Science. 80 (4): 917–927. doi:10.4141/p00-007.
  13. Salam, Moin U.; MacLeod, William J.; Maling, Tim; Prichard, Ian; Seymour, Mark; Barbetti, Martin J. (2011-03-23). "A meta-analysis of severity and yield loss from ascochyta blight on field pea in Western Australia". Australasian Plant Pathology. 40 (6): 591–600. doi:10.1007/s13313-011-0034-1. ISSN 0815-3191.
  14. Wroth, Janet M. "Evidence suggests that Mycosphaerella pinodes infection of Pisum sativum is inherited as a quantitative trait". Euphytica. 107 (3): 193–204. doi:10.1023/A:1003688430893. ISSN 0014-2336.
  15. Fondevilla, S.; Satovic, Z.; Rubiales, D.; Moreno, M. T.; Torres, A. M. (2007-12-13). "Mapping of quantitative trait loci for resistance to Mycosphaerella pinodes in Pisum sativum subsp. syriacum". Molecular Breeding. 21 (4): 439–454. doi:10.1007/s11032-007-9144-4. ISSN 1380-3743.
  16. Boros, Lech; Marcinkowska, Joanna (2010-08-19). "Assessment of Selected Pea Genotypes Reaction to Ascochyta Blight under Field Conditions and the Impact of Disease Severity on Yield Components". Journal of Agricultural Science. 2 (3): 84. doi:10.5539/jas.v2n3p84. ISSN 1916-9760.
  17. Bretag, T.W. (2001). Compendium of Pea Diseases and Pests; Foliar diseases caused by fungi. Minnesota. pp. 24–28.
  18. Hagedorn, D.J. (1991). Handbook of pea Diseases. Minnesota. pp. 11–15.
  19. Desalegn, G.; Turetschek, R.; Kaul, H. -P.; Wienkoop, S. (2016-06-30). "Microbial symbionts affect Pisum sativum proteome and metabolome under Didymella pinodes infection". Journal of Proteomics. Food and Crop Proteomics. 143: 173–187. doi:10.1016/j.jprot.2016.03.018.
This article is issued from Wikipedia - version of the 11/5/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.