Volume 11, Issue 1 ((Autumn & Winter) 2022)
Plant Pathol. Sci. 2022, 11(1): 122-132 |
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Bakhshi Ganje M. (2022). 11- Acute oak decline disease. Plant Pathol. Sci.. 11(1), 122-132. doi:10.52547/pps.11.1.122
URL: http://yujs.yu.ac.ir/pps/article-1-332-en.html
URL: http://yujs.yu.ac.ir/pps/article-1-332-en.html
Department of Plant Protection Researches, Kohgiluyeh and Boyer‐Ahmad Agricultural and Natural Resources Research and Education Center, AREEO, Yasouj, Iran , meysambakhshi24@yahoo.com
Abstract: (2309 Views)
Bakhshi Ganje M (2022) Acute oak decline disease. Plant Pathology Science
11(1):122-132. Doi: 10.2982/PPS.11.1.122.
Abstract
11(1):122-132. Doi: 10.2982/PPS.11.1.122.
Abstract
Acute oak decline with signs of canker and colored discharge on the trunks of old trees has been reported in northern Iran for the past two decades. Several bacteria of the order Enterobacterales, the family Pectobacteriaceae and the genus Brenneria were isolated and identified from diseased trees. Although oak possesses several genes whose products are responsible for plant resistance to fungal pathogens, bio-trophic pathogens, hemibiotrophic pathogens, and water stress, it does not show resistance to these necrotrophic pathogenic bacteria. The mechanism of the occurrence and epidemic of acute oak decay is the predisposition of trees to successive droughts, the outbreak of some pests, and the relatively low rate of development of oak defense genes against the high rate of evolution of pathogenic genes of necrotrophic bacteria such as Brenneria species. Due to the many climate changes in recent years, there may be an epidemic of the disease in the forests of other parts of the country in the future. This article describes research into the disease to pave the way for an appropriate method of disease management.
References
1. Ahmadi S, Ghaderi F, Safaei D (2020) Oak charcoal rot disease in Iran. Plant Pathology Science 9:118-128. (In Persian with English Abstract). [DOI:10.29252/pps.9.1.118]
2. Bakhshi ganje M, Mackay J, Nicolaisen M, Shams-Bakhsh M (2021) Comparative Genomics, Pangenome, and Phylogenomic Analyses of Brenneria spp., and Delineation of Brenneria izadpanahii sp. nov. Phytopathology 111:78-95. [DOI:10.1094/PHYTO-04-20-0129-FI] [PMID]
3. Bakhshi ganje M, Shams‐Bakhsh M, Mackay J, Rahimian H (2020) Identification and characterization of bacterial strains associated with diseased oak trees in Northern Iran. Forest Pathology 50:e12571. [DOI:10.1111/efp.12571]
4. Bakhshi ganje M, Rahimian H, Shams-Bakhsh M and Safaei N (2016) Identification and characterization of bacterial strains associated with oak symptomatic trees at northern Iran. Proceedings of the 22th Iranian Plant Protection Congress, Tehran, Iran, p.60.
5. Brady C, Denman S, Kirk S, Venter S, Rodríguez-Palenzuela P, Coutinho T (2010) Description of Gibbsiella quercinecans gen. nov., sp. nov., associated with Acute Oak Decline. Systematic and Applied Microbiology 33:444-450. [DOI:10.1016/j.syapm.2010.08.006] [PMID]
6. Bartholome J, Brachi B, Marçais B, Mougou‐Hamdane A, Bodénès C, Plomion C, Robin C and Desprez‐Loustau ML (2020). The genetics of exapted resistance to two exotic pathogens in pedunculate oak. New Phytologist 226:1088-1103. [DOI:10.1111/nph.16319] [PMID]
7. Brasier CM (1991) Ophiostoma novo-ulmi sp. nov. causative agent of current Dutch elm disease pandemics. Mycopathologia 115:151-161. [DOI:10.1007/BF00462219]
8. Berendsen RL, Pieterse CM, Bakker PA (2012) The rhizosphere microbiome and plant health. Trends in Plant Science 17:478-486. [DOI:10.1016/j.tplants.2012.04.001] [PMID]
9. Biosca EG, González R, López-López MJ, Soria S, Montón C, Pérez-Laorga E López, MM (2003) Isolation and characterization of Brenneria quercina, causal agent for bark canker and drippy nut of Quercus spp. in Spain. Phytopathology 93:485-492. [DOI:10.1094/PHYTO.2003.93.4.485] [PMID]
10. Buck A, Burger B, Wolfrum G (2004) Forest research-challenges and concepts in a changing world. IUFRO Occasional Paper 16:1-79.
11. Broberg M, Doonan J, Mundt F, Denman S, McDonald JE (2018) Integrated multi-omic analysis of host-microbiota interactions in acute oak decline. Microbiome 6:1-15. [DOI:10.1186/s40168-018-0408-5] [PMID] [PMCID]
12. Denman S, Brady C, Kirk S, Cleenwerck I, Venter S, Coutinho T, De Vos P (2012) Brenneria goodwinii sp. nov., associated with acute oak decline in the UK. Society for General Microbiology 1-22. [DOI:10.1099/ijs.0.037879-0] [PMID]
13. Denman S, Doonan J, Ransom-Jones E, Broberg M, Plummer S, Kirk S, Scarlett, K, Griffiths AR, Kaczmarek M, Forster J, Peace A (2018) Microbiome and infectivity studies reveal complex polyspecies tree disease in Acute Oak Decline. The ISME Journal 12:386-399. [DOI:10.1038/ismej.2017.170] [PMID] [PMCID]
14. Denman S, Webber J (2009) Oak declines: new definitions and new episodes in Britain. Quarterly Journal of Forestry 103:285-290.
15. Denman S, Plummer S, Kirk S, Peace A, McDonald J (2016) Isolation studies reveal a shift in the cultivable microbiome of oak affected with Acute Oak Decline. Systematic and Applied Microbiology 39:484-490 [DOI:10.1016/j.syapm.2016.07.002] [PMID]
16. Doonan, JM, Broberg M, Denman S, McDonald JE (2020) Host-microbiota-insect interactions drive emergent virulence in a complex tree disease. Proceedings of the Royal Society B: Biological Sciences 287:20200956. [DOI:10.1098/rspb.2020.0956] [PMID] [PMCID]
17. Gilbert JA, Meyer F, Jansson J, Gordon J, Pace N, Tiedje J, Knight R (2010) The earth microbiome project: meeting report of the "1 st EMP meeting on sample selection and acquisition" at Argonne National Laboratory October 6th 2010. Standards in Genomic Sciences 3:249-253. [DOI:10.4056/aigs.1443528] [PMID] [PMCID]
18. Hall N (2013). After the gold rush. Genome Biology 14:1-3. [DOI:10.1186/gb-2013-14-5-115] [PMID] [PMCID]
19. Jones JD, Dangl JL (2006). The plant immune system. Nature 444:323-329. [DOI:10.1038/nature05286] [PMID]
20. Manion P (1981) Fungi as agents of tree diseases: root rot. Tree Disease Concepts. Prentice-Hall, Englewood Cliffs, NJ, 295-309.
21. Pinto AJ, Raskin L (2012) PCR biases distort bacterial and archaeal community structure in pyrosequencing datasets. PloS One 7:e43093. [DOI:10.1371/journal.pone.0043093] [PMID] [PMCID]
22. Plomion C, Aury JM, Amselem J, Leroy T, Murat F, Duplessis S, Faye S, Francillonne N, Labadie K, Le Provost G, Lesur I (2018) Oak genome reveals facets of long lifespan. Nature Plants 4:440-452. [DOI:10.1038/s41477-018-0172-3] [PMID] [PMCID]
23. Thomas FM, Blank R, Hartmann G (2002) Abiotic and biotic factors and their interactions as causes of oak decline in Central Europe. Forest Pathology 32:277-307. [DOI:10.1046/j.1439-0329.2002.00291.x]
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