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Plant pathology

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(Redirected from Phytopathologist) Scientific study of plant diseases For the journal, see Plant Pathology (journal). For organisms that damage crops and forestry, see Pest (organism). "Phytopathology" redirects here. For the journal, see Phytopathology (journal).
Life cycle of the black rot pathogen, the gram negative bacterium Xanthomonas campestris pathovar campestris

Plant pathology or phytopathology is the scientific study of plant diseases caused by pathogens (infectious organisms) and environmental conditions (physiological factors). Plant pathology involves the study of pathogen identification, disease etiology, disease cycles, economic impact, plant disease epidemiology, plant disease resistance, how plant diseases affect humans and animals, pathosystem genetics, and management of plant diseases.

Plant pathogenicity

Further information: Plant disease

Plant pathogens, organisms that cause infectious plant diseases, include fungi, oomycetes, bacteria, viruses, viroids, virus-like organisms, phytoplasmas, protozoa, nematodes and parasitic plants. In most plant pathosystems, virulence depends on hydrolases and enzymes that degrade the cell wall. The vast majority of these act on pectins (for example, pectinesterase, pectate lyase, and pectinases). For microbes, the cell wall polysaccharides are both a food source and a barrier to be overcome. Many pathogens grow opportunistically when the host breaks down its own cell walls, most often during fruit ripening. Unlike human and animal pathology, plant pathology usually focuses on a single causal organism; however, some plant diseases have been shown to be interactions between multiple pathogens.

To colonize a plant, pathogens have specific pathogenicity factors, of five main types: uses of cell wall–degrading enzymes, toxins, effector proteins, phytohormones, and exopolysaccharides.

  • Cell wall-degrading enzymes: These are used to break down the plant cell wall in order to release the nutrients inside and include esterases, glycosyl hydrolases, lyases and oxidoreductases.
  • Toxins: These can be non-host-specific, which damage all plants, or host-specific, which cause damage only on a host plant.
  • Effector proteins: These can be secreted by pathogens such as bacteria, fungi, and oomycetes into the extracellular environment or directly into the host cell, often via the Type three secretion system. Some effectors are known to suppress host defense processes. This can include reducing the plant's internal signaling mechanisms or reduction of phytochemicals production.
  • Phytohormones are chemicals used by plants for signaling; pathogens can produce these to modify plant growth to their own advantage.
  • Exopolysaccharides are mostly small chains of sugars that help pathogens to adhere to a plant's surface, enabling them to begin the process of infection.

Physiological plant disorders

Main article: Physiological plant disorder

Some abiotic disorders can be confused with pathogen-induced disorders. Abiotic causes include natural processes such as drought, frost, snow and hail; flooding and poor drainage; nutrient deficiency; deposition of mineral salts such as sodium chloride and gypsum; windburn and breakage by storms; and wildfires.

Epidemiology

Main article: Plant disease epidemiology
Plant disease triangle

Epidemiology is the study of factors affecting the outbreak and spread of infectious diseases.

A disease triangle describes the basic factors required for plant diseases. These are the host plant, the pathogen, and the environment. Any one of these can be modified to control a disease.

Disease resistance

Main article: Plant disease resistance

Plant disease resistance is the ability of a plant to prevent and terminate infections from plant pathogens. Structures that help plants prevent pathogens from entering are the cuticular layer, cell walls, and stomata guard cells. Once pathogens have overcome these barriers, plant receptors initiate signaling pathways to create molecules to compete against the foreign molecules. These pathways are influenced and triggered by genes within the host plant and can manipulated by genetic breeding to create resistant varieties.

Management

Further information: Antagonism (phytopathology)

Detection

Ancient methods of leaf examination and breaking open plant material by hand are now augmented by newer technologies. These include molecular pathology assays such as polymerase chain reaction (PCR), RT-PCR and loop-mediated isothermal amplification (LAMP). Although PCR can detect multiple molecular targets in a single solution there are limits. Bertolini et al. 2001, Ito et al. 2002, and Ragozzino et al. 2004 developed PCR methods for multiplexing six or seven plant pathogen molecular products and Persson et al. 2005 for multiplexing four with RT-PCR. More extensive molecular diagnosis requires PCR arrays. The primary detection method used worldwide is enzyme linked immunosorbent assay.

Biological

Crop rotation is a traditional and sometimes effective means of preventing a parasitic population from becoming well-established. For example, protection against infection by Agrobacterium tumefaciens, which causes gall diseases in many plants, by dipping cuttings in suspensions of Agrobacterium radiobacter before inserting them in the ground to take root.

History

Further information: Timeline of plant pathology

Plant pathology has developed from antiquity, starting with Theophrastus in the ancient era, but scientific study began in the Early Modern period with the invention of the microscope, and developed in the 19th century.

Notable People in Plant Pathology

See also

References

  1. Oliver, Richard, ed. (2024). Agrios' plant pathology (Sixth ed.). Amsterdam: Academic Press. ISBN 9780128224298. OCLC 1382797185.
  2. Nazarov, Pavel A.; Baleev, Dmitry N.; Ivanova, Maria I.; Sokolova, Luybov M.; Karakozova, Marina V. (27 October 2020). "Infectious plant diseases: etiology, current status, problems and prospects in plant protection". Acta Naturae. 12 (3): 46–59. doi:10.32607/actanaturae.11026. PMC 7604890. PMID 33173596.
  3. Cantu, Dario; Vicente, Ariel R.; Labavitch, John M.; Bennett, Alan B.; Powell, Ann L.T. (November 2008). "Strangers in the matrix: plant cell walls and pathogen susceptibility". Trends in Plant Science. 13 (11): 610–617. Bibcode:2008TPS....13..610C. doi:10.1016/j.tplants.2008.09.002. hdl:11336/148749. PMID 18824396.
  4. Lamichhane, Jay Ram; Venturi, Vittorio (27 May 2015). "Synergisms between microbial pathogens in plant disease complexes: a growing trend". Frontiers in Plant Science. 06: 385. doi:10.3389/fpls.2015.00385. PMC 4445244. PMID 26074945.
  5. Giovannoni, Moira; Gramegna, Giovanna; Benedetti, Manuel; Mattei, Benedetta (29 April 2020). "Industrial Use of Cell Wall Degrading Enzymes: The Fine Line Between Production Strategy and Economic Feasibility". Frontiers in Bioengineering and Biotechnology. 8: 356. doi:10.3389/fbioe.2020.00356. PMC 7200985. PMID 32411686.
  6. Davis, Nicole (9 September 2009). "Genome of Irish potato famine pathogen decoded". Broad Institute of MIT and Harvard. Retrieved 24 July 2012.
  7. "1st large-scale map of a plant's protein network addresses evolution, disease process". Dana-Farber Cancer Institute. July 29, 2011. Archived from the original on 12 May 2012. Retrieved 24 July 2012.
  8. Ma, Winbo (28 March 2011). "How do plants fight disease? Breakthrough research by UC Riverside plant pathologist offers a clue". UC Riverside.
  9. Schutzki, R.E.; Cregg, B. (2007). "Abiotic plant disorders: Symptoms, signs and solutions. A diagnostic guide to problem solving" (PDF). Michigan State University Department of Horticulture. Michigan State University. Archived from the original (PDF) on 24 September 2015. Retrieved 10 April 2015.
  10. "American Phytopathological Society". American Phytopathological Society. Retrieved 2019-03-26.
  11. "Disease Triangle". Oregon State University. 25 April 2014. Retrieved 31 December 2023.
  12. Andersen, Ethan J.; Ali, Shaukat; Byamukama, Emmanuel; Yen, Yang; Nepal, Madhav P. (4 July 2018). "Disease Resistance Mechanisms in Plants". Genes. 9 (7): 339. doi:10.3390/genes9070339. PMC 6071103. PMID 29973557.
  13. ^ Mumford, Rick; Boonham, Neil; Tomlinson, Jenny; Barker, Ian (September 2006). "Advances in molecular phytodiagnostics - new solutions for old problems". European Journal of Plant Pathology. 116 (1): 1–19. Bibcode:2006EJPP..116....1M. doi:10.1007/s10658-006-9037-0. PMC 7087944. PMID 32214677.
  14. Venbrux, Marc; Crauwels, Sam; Rediers, Hans (8 May 2023). "Current and emerging trends in techniques for plant pathogen detection". Frontiers in Plant Science. 14. doi:10.3389/fpls.2023.1120968. PMC 10200959. PMID 37223788.
  15. Ryder, Mh; Jones, Da (1991). "Biological Control of Crown Gall Using Using Agrobacterium Strains K84 and K1026". Functional Plant Biology. 18 (5): 571. doi:10.1071/pp9910571.
  16. Aisnworth, Geoffrey Clough (1981). Introduction to the History of Plant Pathology. Cambridge University Press. ISBN 978-0-521-23032-2.

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