Browsing by Author "Mortimer, Peter Edward"

Now showing 1 - 1 of 1
  • Thumbnail Image
    Item
    The effect of arbuscular mycorrhizal colonisation on the C economy, growth and nutrition of young grapevines
    (Stellenbosch : University of Stellenbosch, 2004-04) Mortimer, Peter Edward; Valentine, A. J.; Archer, E.; University of Stellenbosch. Faculty of Science. Dept. of Botany and Zoology.
    ENGLISH ABSTRACT: Arbuscular mycorrhizal (AM) C-costs in grapevines were investigated. Since both dormant vines and AM colonisation rely on stored C for initial growth, AM colonisation costs would therefore compete with plant growth for available C reserves. The aims of this study were to assess the host C economy during AM development and the subsequent C-costs of N and P uptake, as well as the effects of C costs on host growth. This was evaluated in two separate experiments; one assessing the symbiotic influence on the C costs of fungal establishment and nutritional benefits, whilst the other one evaluated the effects of the symbiosis on host growth and nutrient productivities. This study has shown that AM acts as a C sink, competing with the host for available C. Past work on the AM sink effect has focused mainly on the movement of photosynthetic C below ground to support the AM fungus. This however, does not take into account the effect that stored C will have on the C economy of the plant and symbiosis. The role of stored C becomes even more crucial when working with deciduous plants that rely on stored C for new growth at start of a growing season. It has been reported that stored C in AM plants is remobilized at the start of a growing season and then the C reserves are refilled towards the end of the season, when the plants enter dormancy. The initial costs of AM fungal colonisation were borne by the above-ground C reserves, at the expense of new growth in host plants. These costs were offset once the plateau phase was reached, and the depleted reserves started to refill. Once established, the active symbiosis imposed a considerable below ground C sink on host reserves. In spite of these costs, the improved P nutrition of AM roots was achieved with a more efficient C-use. This concurs with other findings, that of the belowground C allocated to AM roots, a greater part is used by AM respiration and a smaller part for P uptake. The C costs of the AM fungal phase of rapid development can be seen as negative to root growth and shoot development. These negative effects may continue for a period of time, even during the plateau phase of fungal development. Once the AM symbiosis is fully established, the host growth and development is then improved to a greater extent than in non-AM plants. From this study it can be concluded that AM growth directly competes with host development, but the symbionts revert to a beneficial partnership once it is fully established.