New Disease Reports (2012) 25, 11. [http://dx.doi.org/10.5197/j.2044-0588.2012.025.011]
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First report of Alternaria infectoria on amaranth (Amaranthus caudatus ssp. mantegazzianus) in Argentina

M.C. Noelting 1,2*, M.C. Molina 2,3, C.I. Mónaco 1,4, M.C. Sandoval 5 and A. Perelló 1,3

*mcnoelting@hotmail.com

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Received: 03 Oct 2011; Published: 02 Mar 2012

Keywords: seed discoloration, fungal disease

Amaranth is an ancient crop originating in the Americas that can be used as a high-protein grain (12-17%) or as a leafy vegetable, and has potential as a forage crop (Putnam et al., 1989). Grain amaranth species have been important in different parts of the world and at different times for several thousand years (Meyers & Putnam, 1988). At the end of December 2009 the presence of discoloured panicles and seeds of amaranth (Amaranthus caudatus ssp. mantegazzianus) was recorded at the Instituto Fitotécnico of Santa Catalina, Llavallol locality, Buenos Aires Province, Argentina. Up to 100% of the surface area of seeds was affected by the disease (Fig. 1). Fungal isolates with morphological characteristics similar to those of A. infectoriawere collected from diseased grains and cultured on potato carrot agar (PCA) medium, then incubated at 20 ± 2 °C under a light/dark cycle (12/12 h). After seven days, light grey coloured colonies reaching 35 mm in diameter were observed. Conidia were formed on the surface of the agar. The average conidial size on PCA was 32-40 x 9.6 µm with a conidial beak length of 16-48 µm, and four transverse septa. The presence of a longitudinal septum was recorded in 18% of the conidia with 2% having two partitions (Fig. 2). In general, these measurements are within the size range determined by Simmons (2007) for A. infectoria.

An isolate (CN-2364) was evaluated for its pathogenicity by spraying a suspension of conidia (1 x 105 spores/ml) on 400 surface-sterilised and healthy seeds and panicles. Control panicles and seeds were sprayed only with water. The inoculated panicles and seeds were placed on moistened cotton and paper in plastic trays (22 x 12 x 8 cm) and incubated in growth chambers at 20 ± 2 °C with an 8 h photoperiod for seven days. After this period, discolouration similar to the original symptoms developed on the inoculated panicles and seeds. In addition, a high proportion of abnormal seedlings sprouting from the inoculated seeds displayed swollen roots, folded cotyledons, or stunted roots (Fig. 3). In the case of inoculated panicles, the entire destruction of the axes was observed. No symptoms were observed on non-inoculated panicles or seeds. Koch´s postulates were confirmed by re-isolation of A. infectoria from the infected material. The culture has been deposited at the La Plata Spegazzini Colección de Cultivos under accession number 1077. There are previous reports of Alternaria species(A. alternata and A. chlamydospora) associated with discolouration of amaranth seeds (Noelting et al., 2009a, 2009b) but to our knowledge, this is the first documented report of A. infectoria affecting panicles and seeds of amaranth in Argentina. To the authors' knowledge, A. infectoria has not been detected in an amaranth crop at other localities. Alternaria infectoria has been reported on wheat in Argentina (Perelló et al., 2007). This disease could significantly reduce the production and the quality of amaranth due to seed transmission and its possible effects on other plant parts.

Figure1+
Figure 1: Discolouration of seeds of Amaranthus caudatus ssp. mantegazzianus.
Figure 1: Discolouration of seeds of Amaranthus caudatus ssp. mantegazzianus.
Figure2+
Figure 2: Colony of Alternaria infectoria development on PCA after seven days (a), the sporulation pattern of A. infectoria (b), and conidia and large conidiophores (Bar =30 µm) (c).
Figure 2: Colony of Alternaria infectoria development on PCA after seven days (a), the sporulation pattern of A. infectoria (b), and conidia and large conidiophores (Bar =30 µm) (c).
Figure3+
Figure 3: Abnormal seedlings sprouting from Alternaria infectoria-inoculated seeds.
Figure 3: Abnormal seedlings sprouting from Alternaria infectoria-inoculated seeds.

Acknowledgements

Thanks to Universidad Nacional de La Plata for financial assistance in this study.


References

  1. Meyers RL, Putnam DH, 1988. Growing Grain Amaranth as a Specialty Crop. AG-FS-3458. St. Paul, MN, USA: Center for Alternative Crops & Products, Minnesota Extension Service, University of Minnesota.
  2. Noelting MC, Sisterna M, Lori G, Molina MC, Sandoval MC, Mónaco CI, 2009a. Manchado en semillas de amaranto. Boletín de la Sociedad Argentina de Botánica Vol. 44 Suplemento p. 125.
  3. Noelting MC, Sisterna M, Mónaco C.I, Molina MC, Sandoval MC, 2009b. Manchado en semillas de amaranto: Nuevos hongos involucrados. Jornadas Amaranto (res 24).
  4. Perelló A, Moreno M, Sisterna M, 2007. Alternaria infectoria species-group associated with black point of wheat in Argentina. Plant Pathology 57, 379. [http://dx.doi.org/10.1111/j.1365-3059.2007.01713.x]
  5. Putnam DH, Oplinger ES, Doll JD, Sculte EM, 1989. Alternative Field Crops Manual: Amaranth. St Paul, MN, USA: Center for Alternative Plant & Animal Products and the Minnesota Extension Service.
  6. Simmons EG, 2007. Alternaria: An identification Manual. Ultrech, Netherlands: CBS Fungal Biodiversity Centre.

To cite this report: Noelting MC, Molina MC, Mónaco CI, Sandoval MC, Perelló A, 2012. First report of Alternaria infectoria on amaranth (Amaranthus caudatus ssp. mantegazzianus) in Argentina. New Disease Reports 25, 11. [http://dx.doi.org/10.5197/j.2044-0588.2012.025.011]

©2012 The Authors