Retraction: Study on Molecular Qualitative Detection Technology of Potato Scab Disease (IOP Conf. Ser.: Earth Environ. Sci. 769 022010)

This article has been retracted by the authors following correspondence with IOP Publishing in which the authors claim the work is unreliable. The author's explanation follows: "The material of the paper is bacteria, it is not be visible to the naked eyes, the material was contaminated by the drugs that out of date and got polluted, and it caused the serious mistake in the figure 2. The result of different strains of DNA by the primer in 3.3 was not match of our material. The figure 2 was the amplification results of different strains of DNA , and the fragment size of different strains were same in the result, but the result should not be same , so the result was wrong. When we continue to the study, we got new result about the figure 2. There was the amplification results of different strains of DNA by primer TXT in repeated experiment , and the result in the published article was wrong, the material was contaminated. We are afraid that other results were also incorrect in this paper." IOP Publishing cannot verify this information as accurate, however in the interest of transparency and reproducibility, IOP Publishing agrees to retract this article. This notice will be updated if more information comes to light. Retraction published: 21 December 2021

The roles of inoculants’ carbon source use in the biocontrol of potato scab disease

Despite the application of multiple strains in the biocontrol of plant diseases, multistrain inoculation is still constrained by its inconsistency in the field. Nutrients, especially carbons, play an important role in the biocontrol processes. However, little work has been done on the systematic estimation of inoculants’ carbon source use on biocontrol efficacies in vivo. In the present study, 7 nonpathogenic Streptomyces strains alone and in different combinations were inoculated as biocontrol agents against the potato scab disease, under field conditions and greenhouse treatments. The influence of the inoculants’ carbon source use properties on biocontrol efficacies was investigated. The results showed that increasing the number of inoculated strains did not necessarily result in greater biocontrol efficacy in vivo. However, single strains with higher growth rates or multiple strains with less carbon source competition had positive effects on the biocontrol efficacies. These findings may shed light on optimizing the consistent biocontrol of plant disease with the consideration of inoculants’ carbon source use properties.

First Report Regarding Potato Scab Caused by Streptomyces acidiscabies in Uruguay

Potato scab disease is caused by gram-positive filamentous bacteria in the genus Streptomyces. A great variety of species cause this disease, but Streptomyces scabies is the most ancient of these pathogens and can be found in a worldwide distribution, whereas S. turgidiscabies and S. acidiscabies are newly emerged pathogens (2). During the autumn of 2010, potato (Solanum tuberosum) crops had large economic losses by common scab, corresponding to 29% of the total potato-cultivation area (according to our survey), which was unusual in Uruguay. Specifically, the disease was very aggressive and the tubers showed particularly deep scab lesions. We isolated the Streptomyces species present in these particular scab lesions of tubers collected in July 2010 from one of the three potato cultivation areas (San José). A total of 19 Streptomyces spp. strains were isolated and identified using classical and molecular techniques. Morphological characteristics of colonies and microscopic structure of the mycelium were observed (1). Molecular characterization by conventional PCR was carried out using primers directed to specific regions of the 16S rRNA gene for the genus Streptomyces, Aci1: (5′-TCACTCCTGCCTGCATGGGCG-3′) and Aci2: (5′-CGACAGCTCCCTCCCACAAG-3′). Also, regions of two pathogenicity genes, namely txtAB and nec1, were amplified and confirmed by sequencing (2). Additionally, melanin production and pathogenicity of the isolates was determined by inoculation of potato discs (1). Six of the 19 strains succeeded in PCR amplification with primers specific to Streptomyces acidiscabies, which has white, aerial hypha and flexuous spore chains. These strains did not produce melanin on tyrosine agar media. The amplified fragments for 16S rRNA and pathogenicity genes from one representative strain 61 were sequenced. BLASTn analysis of the 16S rRNA gene sequence obtained of the strain 61 (Accession No. JN206667) showed the highest similarity (100%) with S. acidiscabies type strain 84-01-182 (GenBank Accession No. FJ007427.1). Pathogenicity of the isolate was tested on tuber slices. The isolate was grown on YME for 5 to 7 days at 28°C and agar plugs from the sporulating colonies were inverted onto excised tuber tissue. Disks were incubated at 28°C in the dark and the presence of necrosis was evaluated after 5 days (1). All tuber slice assays were repeated three times. The noninoculated control tuber slices did not show any necrosis, while those inoculated with the strain did. To our knowledge, this is the first report of S. acidiscabies causing potato scab disease in Uruguay. References: (1) D. H. Park et al. Plant Dis. 87:1290, 2003. (2) L. A. Wanner. Phytopathology 96:1361, 2006.