New Disease Reports (2010) 21, 17. [http://dx.doi.org/10.5197/j.2044-0588.2010.021.017]
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Melampsoridium hiratsukanum reported for the first time on grey alder in Italy

S. Moricca 1* and G. Maresi 2

*salvatore.moricca@unifi.it

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Received: 22 Feb 2010; Published: 10 May 2010

Grey alder (Alnus incana) can be found in the Alpine region as a coloniser of alluvial lands along mountain brooks and streams or in dense thickets above the forest line. In the summer of 2008 and 2009, a leaf rust with high disease incidence and severity was recorded on this species in the Campelle valley, a narrow Alpine valley in the mountain range of Lagorai, in Trentino Alto-Adige, Italy. At the end of summer, several trees appeared heavily defoliated with conspicuous crown thinning (Fig. 1). Infected leaves that still remained attached to the trees curled inwards, with their lower surface densely covered by characteristic orange-coloured urediniospores erupting in profusion from a multitude of subepidermal uredinia (Fig. 2).

The fungus was identified as Melampsoridium hiratsukanum based upon symptoms and micro-morphological characteristics (Kurkela et al., 1999). Examination under the light microscope and in the scanning electron microscope revealed uredinia arranged in small groups or unevenly scattered, measuring between 60 and 80 µm. Also observed were uniformly sparse and regularly echinulate urediniospores (average size 25.3 x 12.5 μm), ovoid to ellipsoid, sometimes arranged in chains (Fig. 3). The observed M. hiratsukanum differs from the congeneric M. betulinum and M. alni in having longer ostiolar cells in the peridia of the uredinia that extend into long, sharp spines measuring up to 40 μm (Fig. 4). Furthermore, M. betulinum and M. alni urediniospores are longer and narrower with a smooth wall and no spines in the apical region. Field observation also provides evidence that M. betulinum, a common pathogen of Betula sp. in the northern hemisphere, is not the cause of the current epidemic since several B. pendula individuals growing at the same site did not exhibit any rust infection. This is the first report of M. hiratsukanum on grey alder in Italy and provides evidence that outbreaks of this rust are spreading on alder species throughout Europe (Hantula et al., 2009). Believed to be native in eastern Asia, this fungus has been recorded in the last two decades in a number of countries, from the Baltic States to Turkey. Similar impacts were also documented in nearby Austria (Riegler-Hager et al., 2003) and Hungary (Szabo, 2002). 

Figure1+
Figure 1: A group of grey alder trees heavily defoliated due to infection by the rust fungus Melampsoridium hiratsukanum
Figure 1: A group of grey alder trees heavily defoliated due to infection by the rust fungus Melampsoridium hiratsukanum
Figure2+
Figure 2: Grey alder leaf characteristically curled inward and densely covered with typical orange-coloured urediniospores of Melampsoridium hiratsukanum
Figure 2: Grey alder leaf characteristically curled inward and densely covered with typical orange-coloured urediniospores of Melampsoridium hiratsukanum
Figure3+
Figure 3: Scanning electron micrograph showing the typical rounded surface and the uniformly echinulate urediniospores of Melampsoridium hiratsukanum, some of which are arranged end to end in a chain-like structure (Bar = 10 μm)
Figure 3: Scanning electron micrograph showing the typical rounded surface and the uniformly echinulate urediniospores of Melampsoridium hiratsukanum, some of which are arranged end to end in a chain-like structure (Bar = 10 μm)
Figure4+
Figure 4: Scanning electron micrograph of an uredinium of Melampsoridium hiratsukanum erupting through the leaf epidermis with urediniospores scattered all around. The diagnostic trait of the sharp, elongated spines of the ostiolar cells can be observed (Bar = 10 μm)
Figure 4: Scanning electron micrograph of an uredinium of Melampsoridium hiratsukanum erupting through the leaf epidermis with urediniospores scattered all around. The diagnostic trait of the sharp, elongated spines of the ostiolar cells can be observed (Bar = 10 μm)

Acknowledgements

We thank the personnel of the Forest and Fauna Service of the Autonomous Province of Trento for bringing the disease to our notice.


References

  1. Hantula J, Kurkela T, Hendry S, Yamaguchi T, 2009. Morphological measurements and ITS sequences show that the new alder rust in Europe is conspecific with Melampsoridium hiratsukanum in eastern Asia. Mycologia, 622-631. [http://dx.doi.org/10.3852/07-164]
  2. Kurkela T, Hanso M, Hantula J, 1999. Differentiating characteristics between Melampsoridium rusts infecting birch and alder leaves. Mycologia 91, 987-992. [http://dx.doi.org/10.2307/3761629]
  3. Riegler-Hager H, Scheuer C, Zwetko P, 2003. Der Erlen-Rost Melampsoridium hiratsukanum in Österreich. Wulfenia , 135-143.
  4. Szabo I, 2002. First Report of Melampsoridium hiratsukanum on common alder in Hungary. Plant Pathology 51, 804. [http://dx.doi.org/10.1046/j.1365-3059.2002.00776.x]

To cite this report: Moricca S, Maresi G, 2010. Melampsoridium hiratsukanum reported for the first time on grey alder in Italy. New Disease Reports 21, 17. [http://dx.doi.org/10.5197/j.2044-0588.2010.021.017]

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