Powdery mildew is a fungal disease that affects a wide range of plants. Powdery mildew diseases are caused by many different species of ascomycete fungi in the order Erysiphales. Powdery mildew is one of the easier plant diseases to identify, as the signs of the causal pathogen are quite distinctive. Infected plants display white powdery spots on the leaves and stems.[1] This mycelial layer may quickly spread to cover all of the leaves. The lower leaves are the most affected, but the mildew can appear on any above-ground part of the plant. As the disease progresses, the spots get larger and denser as large numbers of asexual spores are formed, and the mildew may spread up and down the length of the plant.
Powdery mildew grows well in environments with high humidity and moderate temperatures; greenhouses provide an ideal moist, temperate environment for the spread of the disease. This causes harm to agricultural and horticultural practices where powdery mildew may thrive in a greenhouse setting.[2] In an agricultural or horticultural setting, the pathogen can be controlled using chemical methods, bio-organic methods, and genetic resistance. It is important to be aware of powdery mildew and its management strategies as the resulting disease can significantly reduce important crop yields.[3]
Powdery mildew on a recently infected plant.Powdery mildew growing on a leaf (magnified)Powdery mildew growing on a leaf (high magnification)
Reproduction
Powdery mildew fungi reproduce both sexually and asexually.[4] Sexual reproduction occurs via chasmothecia (formerly cleistothecium), a type of ascocarp in which genetic recombination takes place. Ascocarps including chasmothecia, apothecia, perithecia, and pseudothecia, are the fruiting bodies unique to fungi in the Ascomycota phylum (known as ascomycetes). Within each ascocarp are several asci that contain ascospores. Powdery mildew fungi must be adapted to their host for successful infection.[citation needed]
Under optimal conditions, ascospores mature and are released to initiate new infections.[5] Conditions necessary for spore maturation differ among species. In asexual reproduction, the mother fungi and offspring are genetically identical.[4] Asexual reproduction is the predominant form of reproduction and dispersal in powdery mildew infections of wheat and barley species, as compared to sexual reproduction.[6] Yet sexual reproduction results in durable and resistant overwintering spores, produced in chasmothecia. These spores are dark (to protect against UV irradiation), round and thick-walled (to protect against freezing rupture), giving them the ability to survive throughout the winter. They will germinate in the spring for new infection.[7]
Vectors of transmission
Powdery mildew does not need a vector to spread. Spores are usually carried by air currents from a proliferation site to a new infection site.[citation needed]
DNA repair
DNA mismatch repair (MMR) is an enzymatic system for recognizing and repairing erroneous base insertions, deletions, and mis-incorporations in DNA that can arise during DNA replication and recombination.[8] This system can also repair some forms of DNA damage. Four closely related species of plant parasites from the powdery mildew genera were found to have lost between 5 and 21 of the 48 to 52 MMR genes that are present in most other ascomycete genomes.[9] The powdery mildew species with higher levels of MMR gene loss exhibited elevated rates of various types of mutation.[9] These elevated mutation rates suggest that a lack of genes essential for accurate DNA replication can cause an increased rate of sequence evolution and evolutionary diversification.[9]
Management
In an agricultural setting, the pathogen can be controlled using chemical methods, genetic resistance, and careful farming methods.[citation needed]
Prevention
You can look for powdery mildew resistant varieties in seed catalogs and alternate between resistance varieties and not. This rotation of sunflower varieties promotes pathogen resistance.[citation needed]
Reduce humidity by allowing space between plants for airflow and pruning to thin foliage.[7]
Conventional chemical control
Standard fungicides are an effective way to manage powdery mildew disease on plants.[10] Spray programs of conventional fungicides are advised to begin when powdery mildew symptoms and signs are first noticed.[11] Conventional fungicides should be applied on a regular basis for best results against the disease.[11]
There are some unconventional chemical control methods that offer alternative modes of action.[2]
The most effective non-conventional methods of chemical control against powdery mildew are milk, natural sulfur (S8), potassium bicarbonate, metal salts, and oils.[12]
Powdery mildew on a maple leaf as seen under a scanning electron microscope
Metal salt fungicides should be applied on a regular basis up until harvest of the host.[12] Sulfur must be applied before the disease has emerged since it prevents fungi spores from germinating.[13] Copper sulfate is an effective fungicide allowed in organic farming, but can cause harm to the host plant. Addition of lime hampers this effect.[13]
Neem oil effectively manages powdery mildew on many plants by interfering with the fungus' metabolism and terminating spore production.[13] Sulfur and Fish Oil + Sesame Oil is a mixture effective against powdery mildew.[2]
Milk has long been popular with home gardeners and small-scale organic growers as a treatment for powdery mildew. Milk is diluted with water (typically 1:10) and sprayed on susceptible plants at the first sign of infection, or as a preventative measure, with repeated weekly application often controlling or eliminating the disease. Studies have shown milk's effectiveness as comparable to some conventional fungicides,[14] and better than benomyl and fenarimol at higher concentrations.[15] Milk has proven effective in treating powdery mildew of summer squash,[15]pumpkins,[14]grapes,[16] and roses.[16] The exact mechanism of action is unknown, but one known effect is that ferroglobulin, a protein in whey, produces oxygen radicals when exposed to sunlight, and contact with these radicals is damaging to the fungus.[16]
Dilute sprays containing sodium bicarbonate (baking soda) and vegetable or mineral oils in water are often recommended for controlling powdery mildew, but such mixtures have limited and inconsistent efficacy.[17] While sodium bicarbonate has been shown to reduce to growth of mildews in lab tests, sprays containing only baking soda and water are not effective in controlling fungal diseases on infected plants, and high concentrations of sodium are harmful to plants.[17]
Another non-conventional chemical treatment involves treating with a solution of calcium silicate. Silicon helps the plant cells defend against fungal attack by degrading haustoria and by producing callose and papilla. With silicon treatment, epidermal cells of wheat are less susceptible to powdery mildew.[22]
Genetic resistance
The Pm3 allele is an effective genetic resistance strategy that protects host species against powdery mildew fungus.[23]
Gene editing
In 2014, researchers Yanpeng Wang et al. have reported that they were able to induce resistance in hexaploid bread wheat to powdery mildew via targeted mutations with the use of CRISPR and TALENS gene-editing technology.[24]
Spores of powdery mildew on cucumber leaf seen through FoldscopeSection of leaf of cucumber showing powdery mildew infection, photo taken with Foldscope
Podosphaera xanthii (a.k.a. Sphaerotheca fuliginea) is the most commonly reported cause on cucurbits.[27]Erysiphe cichoracearum was formerly reported to be the primary causal organism throughout most of the world.[27][28]
Since 1925, commercial Cucumis melo (cantaloup and muskmelon) production has been engaged in a biological "arms race" against cucurbit powdery mildew (CPM) caused by the fungus Podosphaera xanthii, with new cultivars of melons being developed for resistance to successively arising races of the fungus, identified simply as race 1, race 2, etc. (seven in total by 2004), for races found around the world, and race N1 through N4 for some divergent races native to Japan.[29] Various subraces have been identified, and given names such as race 2U.S., race 3.5, and race 4.5.[30] A new race S was discovered in 2003, and a specific melon cultivar (C. melo var. acidulus 'PI 313970') found resistant to it, then used for backcrossing to increase resistance in other cultivars.[30] Such modern selective breeding of plants for phytopathological resistance to particular fungal races involves a great deal of genetic research; this PI 313970 versus race S case involved multi-stage hybridization to propagate a recessive gene, pm-S in successive generations, and how this may affect other recessive and codominant genes for resistance to other races of P. xanthii "remains to be determined".[30]
A 2004 literature review regarding powdery mildew races that parasitize various cucurbit plants concluded that "race identification is important for basic research and is especially important for the commercial seed industry, which requires accuracy in declaring the type and level of resistance ... in its products". However, identifying specific races was seen as having little utility in horticulture for choosing specific cultivars, because of the rapidity with which the local pathogen population can change geographically, seasonally, and by host plant.[29]
At least three other Erysiphaceae fungi can cause powdery mildew in cucurbits: The most frequent, after P. xanthii, is Erysiphe cichoracearum, the former primary causal organism throughout most of the world.[27][28]Podosphaera fusca is another, sometimes considered synonymous with P. xanthii.[31] Cucumbers in greenhouse environments have also been reported to be susceptible to Leveillula taurica.[32]
Ampelomyces quisqualis is an anamorphic fungus that is a hyperparasite of powdery mildews. This parasitism reduces growth and may eventually kill the mildew. Research on biological control of powdery mildews (especially in high-value crops such as grapes) has been ongoing since the 1970s, resulting in the development of fungicides which contain A. quisqualis as the active ingredient.[38][39]
^Iyer RR, Pluciennik A, Burdett V, Modrich PL (February 2006). "DNA mismatch repair: functions and mechanisms". Chemical Reviews. 106 (2): 302–23. doi:10.1021/cr0404794. PMID 16464007
^ abcPhillips MA, Steenwyk JL, Shen XX, Rokas A. Examination of Gene Loss in the DNA Mismatch Repair Pathway and Its Mutational Consequences in a Fungal Phylum. Genome Biol Evol. 2021 Oct 1;13(10):evab219. doi: 10.1093/gbe/evab219. PMID 34554246; PMCID: PMC8597960
^Tamm, Lucius; Amsler, Thomas; Schaerer, Hansjakob; Refardt, Mathias (2006). "Efficacy of Armicarb (potassium bicarbonate) against scab and sooty blotch on apples"(PDF). In Boos, Markus (ed.). Ecofruit: 12th International Conference on Cultivation Technique and Phytopathological Problems in Organic Fruit-growing. pp. 87–92. Retrieved 10 August 2015.
^Belanger, R. r.; et al. (April 2003). "Cytological Evidence of an Active Role of Silicon in Wheat Resistance to Powdery Mildew (Blumeria graminis f. sp. tritici)". Phytopathology. 93 (4): 402–12. doi:10.1094/PHYTO.2003.93.4.402. PMID18944354.
^Wang et al. Simultaneous editing of three homoeoalleles in hexaploid bread wheat confers heritable resistance to powdery mildew. Nature Biotechnology 2014.
^Harveson, Robert M (2016). Compendium of Sunflower Diseases and Pests. APS Press.
^Bennett, J. Michael; Rhetoric, Emeritus; Hicks, Dale R.; Naeve, Seth L.; Bennett, Nancy Bush (2014). The Minnesota Soybean Field Book(PDF). St Paul, MN: University of Minnesota Extension. p. 85. Archived from the original(PDF) on 30 September 2013. Retrieved 21 February 2016.
^ abCohen, R.; Burger, Y.; Katzir, N. (2004). "Monitoring Physiological races of Podosphaera xanthii (syn. Sphaerotheca fuliginea), the Causal Agent of Powdery Mildew in Curcubits: Factors Affecting Race Identification and the Importance for Research and Commerce". Phythoparasitica. 32 (2): 174–183. Bibcode:2004Phyto..32..174C. doi:10.1007/BF02979784. S2CID27174422.
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