A New Fungal Endophyte, Helminthosporium velutinum, Promoting Growth of a Bioalcohol Plant, Sweet Sorghum

Diene, Ousmane; Takahashi, Takuya; Yonekura, Akane; Nitta, Youji; Narisawa, Kazuhiko

doi:10.1264/jsme2.me09165

Cited by 15 publications

(7 citation statements)

References 13 publications

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“…DSE fungi consist of a diverse group, are distributed worldwide, and are associated with a broad range of hosts that include around 600 species of plants from 320 genera and 114 families, such as Poaceae and Solanaceae, especially under harsh climatic conditions (1, 17, 33). To date, however, only 9 DSE species, Chloridium paucisporum , Leptodontidium orchidichola , Phialocephala dimorphosphora , P. fortinii , Phialophora finlandica , Meliniomyces variabilis , Heteroconium chaetospira , Veronaeopsis simplex , and Helminthosporium velutinum , have been reported (6, 17, 22, 23). Most of these DSE species were isolated from northern coniferous and boreal forests in nutrient-poor soils, except Heteroconium chaetospira , Veronaeopsis simplex , and Helminthosporium velutinum , three species of different genera, all isolated from coniferous rainforests, including freshwater in Japan.…”

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“…Most of these DSE species were isolated from northern coniferous and boreal forests in nutrient-poor soils, except Heteroconium chaetospira , Veronaeopsis simplex , and Helminthosporium velutinum , three species of different genera, all isolated from coniferous rainforests, including freshwater in Japan. Furthermore, recent studies showed multiple useful traits, such as nitrogen provision, growth promotion, and disease suppression, in host plants to be associated with these three taxa (6, 18, 19, 35). Based on these findings, DSE populations in Japan may be more diverse than previously thought and include other undescribed species.…”

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<i>Pseudosigmoidea ibarakiensis</i> sp. nov., a Dark Septate Endophytic Fungus from a Cedar Forest in Ibaraki, Japan

Diene¹,

Wang

Narisawa

2013

Microb. Environ.

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A dark septate fungus of Pseudosigmoidea, Hyphomycetes, was recovered from forest soil in Ibaraki prefecture, Japan. The isolate is characterized by pale to brown conidia with up to 8 septa measuring 68–132 × 4–7.9 μm. It is also unique in producing conidia borne by long conidogenious cells in agar medium with or without water, compared to P. cranei, which must be immersed in water to sporulate. Morphological analysis indicated that the isolate is distinct from P. cranei and is described as a new species, P. ibarakiensis sp. nov. Pathogenicity tests of Chinese cabbage and cucumber seedlings indicated that the fungus grows as an endophyte and colonizes, inter and intracellularly, the root epidermal and cortical layers without causing apparent disease symptoms in the host. This endophyte showed the ability to support cucumber plant growth under conditions where NaNO3 was replaced by organic nitrogen but also conferred to Chinese cabbage the ability to grow at low pH. It also became successfully established in six other plants, including the Brassicae, Solanaceae, Poaceae, and Liliacea families, suggesting its adaptability to a broad range of host plants.

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<i>Pseudosigmoidea ibarakiensis</i> sp. nov., a Dark Septate Endophytic Fungus from a Cedar Forest in Ibaraki, Japan

Diene¹,

Wang

Narisawa

2013

Microb. Environ.

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“…Therefore, to our knowledge, this study is the first report involving DSEs in such environments. Three of the isolates used in the present study, i.e., H. velutinum isolate 41-1, V. simplex isolate Y34 and P. ibarakiensis isolate I.4-2-1, have already been reported to support plant growth under nutrient-deficient and other acidic pH conditions but not in contaminated conditions [30] , [31] , [32] . These results shed a light on a new field of use of these isolates.…”

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The Role of Dark Septate Endophytic Fungal Isolates in the Accumulation of Cesium by Chinese Cabbage and Tomato Plants under Contaminated Environments

2014

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Following the 2011 Fukushima Daiichi Nuclear Power Plant accident, the preservation of the food chain from radionuclides contamination has become of crucial importance. The potential of Dark septate endophytic fungi in the management of Cs accumulation in plants under contaminated environments was investigated using Chinese cabbage and tomato plants. Four endophytic fungal isolates of different species, i.e. Pseudosigmoidea ibarakiensis I.4-2-1, Veronaeopsis simplex Y34, Helminthosporium velutinum 41-1, and as yet unidentified taxon 312-6 were tested In Vitro in two levels of Cs (5ppm and 10ppm). On the plant growth, the inoculation of the selected DSEs to both Chinese cabbage and tomato resulted in an increased biomass of up to 82% and 122%, respectively compared to control (non-inoculated) plants. With regards to the Cs accumulation, it varied with the host plant considered. In Chinese cabbage, DSEs inoculation caused higher Cs accumulation in above ground plant parts, whereas in tomato, Cs accumulation decreased significantly with three of the isolates tested, i.e., V. simplex Y34, P. ibarakiensis I.4-2-1, and the as yet unidentified taxon 312-6 suggesting low-risk transfer on the above ground plants parts as a result of high and negative plant reactions rather than high and positive reactions as it is the case with Chinese cabbage. These results suggested that DSEs can be recommended for use with Chinese cabbage to enhance phytoremediation of Cs in surrounding contaminated areas. With tomato, DSEs can be recommended for decreasing the accumulation of Cs in plants under contaminated environments.

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“…DSEs are defined as conidial or sterile ascomycetous fungi that colonize the root tissues of diverse plants intracellularly and intercellularly without any harmful effects or typical mycorrhizal structure formation ( 2 , 23 , 29 ). Previous findings indicated that DSEs have beneficial features for host plants, such as promoting plant growth, enhancing host tolerance against environmental stresses, and deterring encroachment by phytopathogens ( 10 – 12 , 44 ). Since DSEs may be easily isolated from the environment and artificially cultured as a granular inoculum for plants ( 23 , 28 , 50 ), they are expected to become useful biofertilizers and bioagents for preventing soil disease.…”

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Fungus-Bacterium Symbionts Promote Plant Health and Performance

Guo

Narisawa

2018

Microb. Environ.

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A New Fungal Endophyte, Helminthosporium velutinum, Promoting Growth of a Bioalcohol Plant, Sweet Sorghum

Cited by 15 publications

References 13 publications

<i>Pseudosigmoidea ibarakiensis</i> sp. nov., a Dark Septate Endophytic Fungus from a Cedar Forest in Ibaraki, Japan

<i>Pseudosigmoidea ibarakiensis</i> sp. nov., a Dark Septate Endophytic Fungus from a Cedar Forest in Ibaraki, Japan

The Role of Dark Septate Endophytic Fungal Isolates in the Accumulation of Cesium by Chinese Cabbage and Tomato Plants under Contaminated Environments

Fungus-Bacterium Symbionts Promote Plant Health and Performance

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