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Literature DB >> 20177716

Ectomycorrhization of Tricholoma matsutake and two major conifers in Finland-an assessment of in vitro mycorrhiza formation.

Lu-Min Vaario¹, Taina Pennanen, Tytti Sarjala, Eira-Maija Savonen, Jussi Heinonsalo.

Abstract

This study aimed to test the ability of Tricholoma matsutake isolates to form mycorrhizas with aseptic seedlings of Pinus sylvestris L. and Picea abies (L.) Karst. Germinated seedlings of Scots pine and Norway spruce were separately inoculated with either isolates originating from Finland or Japan. Eight months after inoculation, the Finnish isolate had formed a sheath and Hartig net on both host species. Ectomycorrhizal Scots pine seedlings inoculated with the Finnish isolate showed the same shoot height and dry mass as the controls. Ectomycorrhizal Norway spruce seedlings inoculated with the Finnish isolate had similar shoot height but slightly less dry mass than the control seedlings. For both tree species, inoculation with the Finnish isolate resulted in reduced total nitrogen content per seedling, but carbon content was unaffected. Inoculation with the Japanese isolate resulted in an initial Hartig net-like structure in pine but not in spruce. No typical Hartig net was observed on either tree species. Furthermore, seedlings of both species inoculated with the Japanese isolate showed significantly reduced growth, dry mass, nitrogen, and carbon content per seedling and shoot height (in spruce) compared to the controls. This study documents and describes the in vitro ectomycorrhization between T. matsutake and Scots pine or Norway spruce and the variable mycorrhizal structures that matsutake isolates can form.

Entities: Chemical Species

Mesh：

Substances：
Carbon
Nitrogen

Year: 2010 PMID： 20177716 DOI： 10.1007/s00572-010-0304-8

Source DB: PubMed Journal: Mycorrhiza ISSN： 0940-6360 Impact factor: 3.387

6 in total

1. Ectomycorrhizal community structure varies among Norway spruce (Picea abies) clones.

Authors: T Korkama; A Pakkanen; T Pennanen
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2. The influence of ectotrophic mycorrhizal fungi on the resistance of pine roots to pathogenic infections. II. Production, identification, and biological activity of antibiotics produced by Leucopaxillus cerealis var. piceina.

Authors: D H Marx
Journal: Phytopathology Date: 1969-04 Impact factor: 4.025

3. Effects of experimental conditions on mycorrhizal relationships between Pinus sylvestris and Lactarius deliciosus and unprecedented fruit-body formation of the Saffron milk cap under controlled soilless conditions.

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4. Saprobic potential of Tricholoma matsutake: growth over pine bark treated with surfactants.

Authors: Lu-Min Vaario; Alexis Guerin-Laguette; Norihisa Matsushita; Kazuo Suzuki; Frédéric Lapeyrie
Journal: Mycorrhiza Date: 2002-02 Impact factor: 3.387

5. The mycorrhizal fungus Tricholoma matsutake stimulates Pinus densiflora seedling growth in vitro.

Authors: Alexis Guerin-Laguette; Katsumi Shindo; Norihisa Matsushita; Kazuo Suzuki; Frédéric Lapeyrie
Journal: Mycorrhiza Date: 2004-08-20 Impact factor: 3.387

6. In vitro ectomycorrhizal specificity between the Asian red pine Pinus densiflora and Tricholoma matsutake and allied species from worldwide Pinaceae and Fagaceae forests.

Authors: Akiyoshi Yamada; Hisayasu Kobayashi; Hitoshi Murata; Erbil Kalmiş; Fatih Kalyoncu; Masaki Fukuda
Journal: Mycorrhiza Date: 2009-11-26 Impact factor: 3.387

6 in total

11 in total

1. The ectomycorrhizal fungus Tricholoma matsutake is a facultative saprotroph in vitro.

Authors: Lu-Min Vaario; Jussi Heinonsalo; Peter Spetz; Taina Pennanen; Jaakko Heinonen; Arja Tervahauta; Hannu Fritze
Journal: Mycorrhiza Date: 2011-10-18 Impact factor: 3.387

2. Tricholoma matsutake dominates diverse microbial communities in different forest soils.

Authors: Lu-Min Vaario; Hannu Fritze; Peter Spetz; Jussi Heinonsalo; Peter Hanajík; Taina Pennanen
Journal: Appl Environ Microbiol Date: 2011-10-07 Impact factor: 4.792

3. Ectomycorrhizas in vitro between Tricholoma matsutake, a basidiomycete that associates with Pinaceae, and Betula platyphylla var. japonica, an early-successional birch species, in cool-temperate forests.

Authors: Hitoshi Murata; Akiyoshi Yamada; Tsuyoshi Maruyama; Hitoshi Neda
Journal: Mycorrhiza Date: 2014-09-20 Impact factor: 3.387

4. Root endophyte symbiosis in vitro between the ectomycorrhizal basidiomycete Tricholoma matsutake and the arbuscular mycorrhizal plant Prunus speciosa.

Authors: Hitoshi Murata; Akiyoshi Yamada; Satoru Yokota; Tsuyoshi Maruyama; Naoki Endo; Kohei Yamamoto; Tatsuro Ohira; Hitoshi Neda
Journal: Mycorrhiza Date: 2013-10-26 Impact factor: 3.387

5. Tricholoma matsutake can absorb and accumulate trace elements directly from rock fragments in the shiro.

Authors: Lu-Min Vaario; Taina Pennanen; Jinrong Lu; Jorma Palmén; Jarkko Stenman; Jussi Leveinen; Petri Kilpeläinen; Veikko Kitunen
Journal: Mycorrhiza Date: 2014-10-30 Impact factor: 3.387

6. Root endophyte interaction between ectomycorrhizal basidiomycete Tricholoma matsutake and arbuscular mycorrhizal tree Cedrela odorata, allowing in vitro synthesis of rhizospheric "shiro".

Authors: Hitoshi Murata; Akiyoshi Yamada; Tsuyoshi Maruyama; Naoki Endo; Kohei Yamamoto; Tatsuro Ohira; Tomoko Shimokawa
Journal: Mycorrhiza Date: 2012-10-14 Impact factor: 3.387

10. Chemical Fingerprinting of Conifer Needle Essential Oils and Solvent Extracts by Ultrahigh-Resolution Fourier Transform Ion Cyclotron Resonance Mass Spectrometry.

Authors: Omolara O Mofikoya; Marko Mäkinen; Janne Jänis
Journal: ACS Omega Date: 2020-04-30