Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-11T06:18:15.559Z Has data issue: false hasContentIssue false

Tansley Review No. 96 Structural diversity in (vesicular)–arbuscular mycorrhizal symbioses

Published online by Cambridge University Press:  01 November 1997

F. A. SMITH
Affiliation:
Department of Botany, The University of Adelaide, SA 5005, Australia
S. E. SMITH
Affiliation:
Department of Soil Science, University of Adelaide, SA 5005, Australia
Get access

Abstract

Summary 373

I. Introduction: Arum-types and Paris-types 374

II. Possible functional implications 375

III. Extent of the two classes in the plant kingdom 377

1. Bryophytes and Pteridophytes 377

2. Gymnosperms 379

3. Angiosperms 379

IV. Is the distinction between classes useful? 383

V. The structural basis 383

VI. The role of the fungal genome 384

VII. Physiology revisited 384

VIII. Conclusions 385

Acknowledgements 386

References 386

This review describes diversity in the structure of (vesicular)–arbuscular (VA) mycorrhizas, i.e. endomycorrhizas formed by Glomalean fungi. In particular, we consider the extent in the plant kingdom of the two classes first described by Gallaud (1905). These are: (1) the Arum-type, defined on the basis of an extensive intercellular phase of hyphal growth in the root cortex and development of terminal arbuscules on intracellular hyphal branches; (2) the Paris-type, defined by the absence of the intercellular phase and presence of extensive intracellular hyphal coils. Arbuscules are intercalary structures on the coils. However, there have been many reports that in Paris-types arbuscules are relatively few in numbers, small, or absent altogether.

A survey of the literature has revealed that Paris-types occur more frequently in the plant kingdom than Arum-types and predominate in ferns, gymnosperms and many wild angiosperms. The cultivated herbs that are the subject of much experimental work are mostly Arum-types. Although evidence is still limited, there are differences at the family level. In 41 angiosperm families there are records of only Paris-type VA mycorrhizas and in 30 families records of only Arum-types. Another 21 families have examples of both classes, or intermediates between them. Accordingly, we consider whether the original division into two classes is still useful. We conclude that it is when considering the physiology of the symbiosis and especially the issue of whether different fungus/host interfaces have specialized roles in transfer of inorganic nutrients and organic carbon between the partners. If there is no such specialization between hyphal coils and arbuscules, then the latter might not be necessary for the function of Paris-types. This would account for reports of the infrequency or absence of arbuscules in this class. The control exerted on structures by the genomes of host and fungus, and possible reasons (anatomical and physiological) for the existence of the VA mycorrhizal structures, are discussed. The presence or absence of extensive intercellular spaces and differences in the wall structure of cortical cells might be particularly important in determining which type of VA mycorrhiza is formed.

Type
Tansley Review No. 96
Copyright
© Trustees of the New Phytologist 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)