New Disease Reports (2014) 29, 16. [http://dx.doi.org/10.5197/j.2044-0588.2014.029.016]
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First report of Fusarium sambucinum on rosemary plant in Iran

D. Moshrefi Zarandi 1, S. Rezaee 2*, M.M. Aminaee 3 and A. Sharzei 4

*srezaee@srbiau.ac.ir

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Received: 15 Jan 2014; Published: 05 May 2014

Keywords: Rosmarinus officinalis, crown and root rot

Rosemary (Rosmarinus officinalis) is a herbaceous and perennial plant in the Lamiaceae. As a medicinal and ornamental plant, it is of particular importance in Iran, and cultivation has expanded across many provinces. Some Fusarium species, including F. solani (Oji-Ardebili et al., 2008; Nasr Esfahani et al., 2011), F. reticulatum (Oji-Ardebili et al., 2008), and F. oxysporum (Ashrafi et al., 2010; Nasr Esfahani et al., 2011) have been previously reported as the causal agents of root and crown rot of rosemary

In November 2012, crown and root rot, with associated wilting of plants was observed in rosemary fields of Kerman (Southeast Iran). Of about one hundred and forty rosemary plants examined, more than 50% showed symptoms of crown rot, root rot and wilt and more than 35% had died. A selection of infected root and crown tissues were surface sterilised with 0.5% sodium hypochlorite for three minutes, rinsed with sterile distilled water, placed on potato dextrose agar (PDA) and incubated at 25°C. Single spore cultures were obtained from the isolated fungi. After five days, white fungal colonies appeared, which later turned to pink and finally to orange (Fig. 1). Abundant 3-5-septate macro-conidia were produced, 32.2-33.7 μm long and 4.1 μm wide. These macro-conidia were pointed apically and had foot-shaped (dolphin-like) basal cells (Fig. 2). Some micro-conidia have also been produced (Fig. 2). Single, clumped or chained chlamydospores were noticeably abundant (Fig. 3). Based on morphological cultural characters, the fungus was identified as Fusarium sambucinum (Nelson et al., 1983; Burgess et al., 1994). It should be noted that the presence of micro-conidia clearly differentiates this species from F. culmorum where micro-conidia are absent. Pathogenicity tests were performed using inoculated wheat seeds. Rosemary plants were cultured in sterilised soil and the inoculated wheat was placed 2-8 cm deep into the soil surrounding the plant roots. Non-inoculated wheat seeds were used in control treatments.  Root and crown rot, and discoloration of xylem were observed after about one month in inoculated plants (Fig. 4) whereas control plants remained healthy. To our knowledge this is the first report of F. sambucinum on R. officinalis in Iran and the world.

Figure1+
Figure 1: Colony of Fusarium sambucinum from rosemary on PDA.
Figure 1: Colony of Fusarium sambucinum from rosemary on PDA.
Figure2+
Figure 2: Macro-conidia (left) and micro-conidia (right) of Fusarium sambucinum. (Bar = 15 μm)
Figure 2: Macro-conidia (left) and micro-conidia (right) of Fusarium sambucinum. (Bar = 15 μm)
Figure3+
Figure 3: Single (a), clumped (b), and chained (c) chlamydospores of Fusarium sambucinum. (Bar = 12 μm )
Figure 3: Single (a), clumped (b), and chained (c) chlamydospores of Fusarium sambucinum. (Bar = 12 μm )
Figure4+
Figure 4: Root and crown rot (a) and xylem discoloration (b) of rosemary caused by Fusarium sambucinum.
Figure 4: Root and crown rot (a) and xylem discoloration (b) of rosemary caused by Fusarium sambucinum.

References

  1. Ashrafi SJ, Rastegar MF, Saremi H, 2010. Rosemary wilting disease and its management by soil solarization technique in Iran. African Journal of Biotechnology 9, 7048-7057.
  2. Burgess LW, Summerell BA, Bullock S, Gott KP, Backhouse D, 1994. Laboratory Manual for Fusarium Research, 3rd edn. Sydney, Australia: Department of Crop Science, University of Sydney/Royal Botanic Gardens.
  3. Nasr Esfahani M, Monazzah M, 2011. Identification and assessment of fungal diseases of major medicinal plants. Journal of Ornamental and Horticultural Plants 1, 137-145.
  4. Nelson PE, Toussoun TA, Marasas WFO, 1983. Fusarium species: An Illustrated Manual for Identification. University Park, PA, USA: Penn State University Press.
  5. Oji-Ardebili M.M., Ahmadzadeh M, Sharifi-Tehrani A, Javan-Nikkhah M, 2008. Three species of Fusarium isolated from root and crown of rosemary medicinal plant in Semnan. Iranian Journal of Plant Pathology 44, 68-69. 

To cite this report: Moshrefi Zarandi D, Rezaee S, Aminaee MM, Sharzei A, 2014. First report of Fusarium sambucinum on rosemary plant in Iran. New Disease Reports 29, 16. [http://dx.doi.org/10.5197/j.2044-0588.2014.029.016]

©2014 The Authors