New Disease Reports (2020) 42, 8. [http://dx.doi.org/10.5197/j.2044-0588.2020.042.008]
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First report of Neopyricularia commelinicola causing leaf spots on Commelina diffusa in Brazil

B.W. Ferreira 1, A.G. Torres 2 and R.W. Barreto 1*

*rbarreto@ufv.br

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Received: 05 Sep 2020; Published: 10 Sep 2020

Keywords: leaf spot, moniliaceous fungus, spreading dayflower, weed

Spreading dayflower (Commelina diffusa) is a perennial, monocotyledenous herbaceous plant that occurs worldwide. It has become a major agriculture weed, due to its invasiveness and impact on productivity of many important crops and because of its resistance or tolerance to chemical herbicides (Santos et al., 2004; Isaac et al., 2007). Little is known about diseases affecting spreading dayflower. Such pathogens may have potential for use in biological control.

A leaf spot disease was detected infecting spreading dayflower in the state of Minas Gerais, Brazil, and a moniliaceous fungus was found regularly associated with necrotic tissues. Leaf spots were circular to subcircular, 3-10 mm diameter, pale brownish to greyish with a dark brown margin and a yellow halo, coalescing and leading to severe leaf blight (Fig. 1). Samples were collected at two localities in the municipalities of Viçosa and Antonio Carlos (Minas Gerais). The samples were examined, dried in a plant press and deposited in the local herbarium (Accession Nos. VIC 47334 and VIC 47335). Single conidial cultures were obtained on potato dextrose-agar (PDA). One isolate from each locality was deposited in the local culture collection (Accession Nos. COAD 3080 and COAD 3081). Colonies of each isolate were obtained on PDA plates grown at 25°C under a 12 hr light /12 hr dark daily regime for culture description and inoculum production.

Fungal structures were scrapped from infected tissues with a scalpel, mounted in lactoglycerol and observed under a light microscope (Olympus BX 53) connected to an Olympus Q-Color 3™ camera. The fungus had: conidiophores mostly hypophyllous, isolate, flexuous, subcylindrical, inflated at the base, tapering towards the sympodial fertile apex, 112-315 × 3-5 μm, 2-3 septate, hyaline (Fig. 2); conidiogenous cells, strongly sympodial, denticulate, hyaline; and conidia, pyriform to obclavate, 28-40 × 10-15 μm, 2-septate, hilum short-stalked, hyaline, smooth (Fig. 3). This morphology is typical of members of Neopyricularia (Klaubauf et al., 2014).

DNA was extracted and ITS, LSU and RPB1 gene regions were PCR amplified as described in Pinho et al. (2012) using ITS1/ITS4, LSU1/LR5 and RPB1F/RPB1R primer pairs (Vilgalys & Hester, 1990; White et al., 1990; Klaubauf et al., 2014) and the sequences were deposited in GenBank (Accession Nos. MT902146-47, MT902333-34, and MT904205-06). A BLASTn search showed that the sequences had a high identity with those of Neopyricularia commelinicola (isolate CBS 128303), i.e. 99.20% for ITS (KM009163.1), 100% for LSU (KM009151.1) and 99.48% for RPB1 (KM485084.1). Morphological and molecular information identified the fungus on spreading dayflower as N. commelinicola.

Koch's postulates were completed by inoculating three healthy young spreading dayflower plants with a conidial suspension (1 × 106 conidia/ml) obtained from sporulating cultures on PDA. Three healthy plants sprayed with sterile distilled water served as controls. Plants were kept in a dew chamber at 26 ±3°C for two days, and then transferred to the greenhouse and observed daily for the emergence of disease symptoms. Typical leaf spots appeared 10 days after inoculation, but not on controls. The fungus was successfully re-isolated from infected leaves.

This is the first record of N. commelinicola as a pathogen of C. diffusa in Brazil and worldwide. This fungus was previously known only from South Korea on Commelina communis (Klaubauf et al., 2014).

Figure1+
Figure 1: Leaf spots on spreading dayflower (Commelina diffusa) caused by Neopyricularia commelinicola.
Figure 1: Leaf spots on spreading dayflower (Commelina diffusa) caused by Neopyricularia commelinicola.
Figure2+
Figure 2: Detail of immature conidium attached to conidiogenous cell of Neopyricularia commelinicola. Bar = 10 μm.
Figure 2: Detail of immature conidium attached to conidiogenous cell of Neopyricularia commelinicola. Bar = 10 μm.
Figure3+
Figure 3: Obpyriform conidia of Neopyricularia commelinicola. Bar = 10 μm.
Figure 3: Obpyriform conidia of Neopyricularia commelinicola. Bar = 10 μm.

Acknowledgements

Financial support from the CNPq, FAPEMIG and CAPES is acknowledged.


References

  1. Isaac WAP, Brathwaite RAI, Cohen JE, Bekele I, 2007. Effects of alternative weed management strategies on Commelina diffusa Burm. infestations in Fairtrade banana (Musa spp.) in St. Vincent and the Grenadines. Crop Protection 26, 1219-1225. [http://dx.doi.org/10.1016/j.cropro.2006.10.019]
  2. Klaubauf S, Tharreau D, Fournier E, Groenewald JZ, Crous PW, de Vries RP, Lebrun M H, 2014. Resolving the polyphyletic nature of Pyricularia (Pyriculariaceae). Studies in Mycology 79, 85-120. [http://dx.doi.org/10.1016/j.simyco.2014.09.004]
  3. Pinho DB, Firmino AL, Ferreira-Junior WG, Pereira OL, 2012. An efficient protocol for DNA extraction from Meliolales and the description of Meliola centellae sp. nov. Mycotaxon 122, 333-345. [http://dx.doi.org/10.5248/122.333]
  4. Santos LDT, Meira RMSA, Santos IC, Ferreira FA, 2004. Effect of glyphosate on the morpho-anatomy of leaves and stems of Commelina diffusa and C. benghalensis. Planta Daninha 22, 101-107. [http://dx.doi.org/10.1590/S0100-83582004000100013]
  5. Vilgalys R, Hester M, 1990. Rapid genetic identification and mapping of enzymatically amplified ribosomal DNA from several Cryptococcus species. Journal of Bacteriology 172, 4238-4246. [http://dx.doi.org/10.1128/JB.172.8.4238-4246.1990]
  6. White TJ, Bruns T, Lee S, Taylor J, 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. In: Innis MA, Gelfand DH, Sninsky JJ, White TJ, eds. PCR Protocols: A Guide to Methods and Applications. San Diego, CA, USA: Academic Press, 315-322. [http://dx.doi.org/10.1016/B978-0-12-372180-8.50042-1]

To cite this report: Ferreira BW, Torres AG, Barreto RW, 2020. First report of Neopyricularia commelinicola causing leaf spots on Commelina diffusa in Brazil. New Disease Reports 42, 8. [http://dx.doi.org/10.5197/j.2044-0588.2020.042.008]

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