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Ultrastructural ontogeny of leaf cavity trichomes inAzolla implies a functional role in metabolite exchange (1985)

Calvert, H. E. ; Pence, M. K. ; Peters, G. A.

Springer

Protoplasma 129 (1985), S. 10-27

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ISSN: 1615-6102

Keywords: Azolla ; Anabaena ; Symbiosis ; Nitrogen fixation ; Trichome ; Transfer cell ; Ontogeny ; Ultrastructure ; Gland ; Metabolite exchange

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Anabaena azollae is associated with two types of multicellular epidermal trichomes inAzolla leaf cavities, the simple and branched hairs. The observation of transfer cell ultrastructure in some hair cells led to speculation that the cavity hairs might participate in metabolite exchange between the symbionts. The developmental ontogeny of cavity trichomes is described here, using transmission electron microscopy, with a goal of improving our understanding of possible functions of these structures in the symbiosis. The observations have established that all cells of simple and branched hairs develop the structural characteristics of transfer cells, but not simultaneously. Rather, there is an acropetal succession of transfer cell ultrastructure beginning in terminal cells, moving to body cells where present, and ending in stalk cells. The transfer cell stage is followed immediately by senescence in all hair cells. The timing of transfer cell differentiation, considered together with information from other studies, suggests that branched hairs may be involved in exchange of fixed nitrogen between the symbionts, while simple hairs may participate in exchange of fixed carbon fromAzolla toAnabaena.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01282301

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Lichens toGunnera — with emphasis onAzolla (1986)

Peters, G. A. ; Toia, R. E. ; Calvert, H. E. ; [et al.]

Springer

Plant and soil 90 (1986), S. 17-34

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ISSN: 1573-5036

Keywords: Anthoceros ; Azolla ; Blasia ; Gunnera ; Macrozamia ; N2 fixation ; Peltigera ; Symbiotic cyanobacteria ; SymbioticNostoc andAnabaena

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary N2-fixing cyanobacteria occur in symbiotic associations with fungi (ascomycetes) as lichens and with a few green plants. The associated cyanobacterium is always a species ofNostoc orAnabaena. Only a small number of plant genera are involved but there is a remarkable range of host diversity. Associations occur with several bryophytes (e.g.Anthoceros, Blasia, Cavicularia), a pteridophyte (Azolla), cycads (nine genera includingMacrozamia andEncephalartos) and an angiosperm (Gunnera). Except forGunnera, where the cyanobacterium penetrates the plant cells, the cyanobacteria are extracellular with specialized morphological modifications and/or structures of the host plant organs providing an environment which facilitates interaction with the prokaryote. Salient aspects of current knowledge pertaining to the establishment, perpetuation, and functioning of the individual symbioses are summarized. Where possible this includes information concerning recognition and specificity, mode(s) of infection, morphological modifications/adaptations of the host plant and a synopsis of morphological, physiological and biochemical changes common to the symbiotic cyanobacteria. The latter encompasses heterocyst frequencies, enzymes involved in ammonia assimilation, photosynthetic capability and metabolic interaction with the host. TheAzolla-Anabaena symbioses, which have potential agronomic significance as an alternative nitrogen source and maintain continuity with the endophyte through the sexual cycle, are emphasized.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02277384

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