Observations on the Mycorrhizas of Forest Trees. II. The Rhizosphere of Pinus Radiata D. Don

Foster, R. C.; Marks, G. C.

doi:10.1071/bi9670915

Cited by 56 publications

(23 citation statements)

References 25 publications

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“…Distribution of glycogen-like rosettes in the hyphae was consistent with that found by several authors (Foster & Marks 1966;1967;Jordy et al 1998). Glycogen found in the mantle and Hartig net hyphae could be a result of seasonal variation (Duddridge & Read 1984;Genet et al 2000) and related to the physiological state of the association.…”

Section: Discussionsupporting

confidence: 90%

“…In this association carbon flows to the fungus, which absorb and translocate nutrients from the soil to the host plant (Sylvia et al 1997). The ultrastructure of many ectomycorrhizal forest tree species has been widely studied since the early works of Foster & Marks (1966;1967). Electron microscopy is a useful tool for cytochemical localization (Rincon et al 2001) and imunolocalization (Tagu et al 2001) allowing the researches to compare the ultrastructure of different types of ectomycorrhizas.…”

Section: Introductionmentioning

confidence: 99%

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Ultrastructural study of ectomycorrhizas on Pinus caribaea Morelet. var. hondurensis Barr. & Golf. seedlings

2004

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RESUMO - (Ehrenb.) Fr. was analyzed just before the transplant of these seedlings to the field to ascertain if fungi are established in the roots. Ectomycorrhizal fungi formed a well-developed compact mantle in lateral roots. Vacuoles, nuclei and dolipore septa were observed in mantle hyphae and numerous nuclei, endoplasmatic reticulum and polymorphic mitochondria were frequently located in the cytoplasm of Hartig net hyphae adjacent to plant cortical cells. Highly vacuolated cortical cells contained droplets of electron-dense material, nucleus and some organelles were observed in a narrow region of peripheral cytoplasm. The ectomycorrhizas of P. caribaea var. hondurensis exhibited typical ultrastructural characteristics of a compatible and physiological active association.

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Section: Discussionsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Ultrastructural study of ectomycorrhizas on Pinus caribaea Morelet. var. hondurensis Barr. & Golf. seedlings

2004

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“…The mantle, host epidermal and outer cortical cells of Matsutake mycorrhizal roots contain a large number of darkly stained inclusions, consistent with Pinus ectomycorrhizas (Foster & Marks, 1966). The progressive blackening and subsequent necrosis observed from base to tip in type I through to type IV mycorrhizal roots, appears to be a result of infection and progressive root colonization.…”

Section: mentioning

confidence: 97%

Matsutake – morphological evidence of ectomycorrhiza formation between Tricholoma matsutake and host roots in a pure Pinus densiflora forest stand

et al. 2000

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There has been conflicting debate over many years regarding the trophic status of Matsutake. Here we examined the morphology, structure and ultrastructure of Pinus densiflora roots collected from a Tricholoma matsutake Shiro within a pure Japanese red pine stand. Molecular investigations (PCR-RFLP analyses) indicated that T. matsutake was the highly dominant fungus within both the Shiro and the colonized root tips, suggesting that reported root morphology modifications can be attributed to T. matsutake infection. The external morphology of Matsutakecolonized roots is consistent with previous descriptions. The presence of extraradical mycelium, mantle, and intracortical Hartig net hyphae indicates clearly that T. matsutake forms an ectomycorrhizal association with P. densiflora in naturally occurring Shiros. The elucidation, for the first time, of the Hartig net ultrastructure at the host-fungus interface provides further and convincing evidence of a conventional ectomycorrhizal association. The progressive blackening, observed from base to tip in dominant mycorrhizal types, due to increased deposition of polyphenol and subsequent necrosis, appears to be a result of infection. However, the presence of highly nucleated vascular tissue indicates the viability of the vascular cylinder in these roots bearing necrotic cortices. Such a preponderance of black necrotic cortical tissues among colonized roots may reflect some atypical behaviour of T. matsutake.

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“…The fungi found around cultivated soil is quite different from uncultivated soil community purposely because growing plant creates a unique habitat for microorganisms and are inturn affected by their population. Relationship that occurred amongmicroorganisms, soil and roots were observed by Foster and Marks, (1967) through transmission electron microscopy (TEM) of the soil-root interface.The rhizoplane is the root surface of the plant (Rovira, 1965) and different from the rhizosphere which is the zone (soil) surrounding the plant root (Rovira, 1965).The Rhizoplane which is the root surface of the growing plants in the soil provide a unique habitat, the rhizosphere, which is particularly favourable for the development of the microorganisms in the soil. However, the majority of the microorganisms stimulated by rhizoplane are usually harmless saprophytes which live mainly on dead, decomposing root tissues.The root excretions such as volatile and dissolved exudates affect microbial growth in the root surrounding soil, also most microbial activities in the soil is associated with the roots or fresh decomposing organic materials, therefore, soil microorganisms including "Fungi" depend on available organic compounds for survival while activity of microorganisms in noncultivated soil will be dormant.It is claimed that the young root presents "a virgin niche" available for soil microorganism colonization and as the root grows through soil, the root exudates promote the fungal spores germination as a propagules and growth of fungal hyphae.…”

Section: Introductionmentioning

confidence: 99%

Fungi Colonization of the Rhizoplane of Okra (Hibiscusesculentus) Plant

Olanrewaju¹,

Akinro²,

Oladipupo³

2014

IOSRJESTFT

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Observations on the Mycorrhizas of Forest Trees. II. The Rhizosphere of Pinus Radiata D. Don

Cited by 56 publications

References 25 publications

Ultrastructural study of ectomycorrhizas on Pinus caribaea Morelet. var. hondurensis Barr. & Golf. seedlings

Ultrastructural study of ectomycorrhizas on Pinus caribaea Morelet. var. hondurensis Barr. & Golf. seedlings

Matsutake – morphological evidence of ectomycorrhiza formation between Tricholoma matsutake and host roots in a pure Pinus densiflora forest stand

Fungi Colonization of the Rhizoplane of Okra (Hibiscusesculentus) Plant

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