This thesis presents an investigation into the responses to extracts of
Ascophyllum nodosum (Maxicrop seaweed extracts - MSE) of two different plants
species - wheat and strawberry, and their interactions with two soil-borne pathogens,
Gaeumannomyces graminis and Phytophthora fragariae respectively, under various
environmental conditions.
The responses to MSE using hydroponic, glasshouse and field experiments
showed that levels of Take-all infection in wheat were reduced by some of the
treatments applied. Repeat experiments showed that consistency of results was poor but
a positive trend for disease suppression followed MSE treatments.
Studies of strawberry infection by Phytophthora fragariae revealed a
significantly reduced level of disease severity in plants grown both in hydroponics and
in the growth chamber in response to MSE. In vitro studies of the fungus demonstrated
that the seaweed extract treatments severely altered mycelial growth, which drastically
reduced formation of sporangia and release of zoo spores. Experiments using β-glucan,
β-glucanase and laminarin showed that these could not reproduce the effects observed
for MSE treatments suggesting that these components were not responsible for the MSE
effect. Applications of potassium salts however, did reproduce the responses observed
when applied at concentrations similar to the ones found in the seaweed extract. In these
investigations, no significant benefits to non-inoculated strawberry plants could be
identified as a response to MSE. Measurement of growth of disease infected plants,
however clearly demonstrated that they benefited in terms of growth from the MSE
amendments probably as a consequence of the disease suppression obtained.
Date of Award | 2002 |
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Original language | English |
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Awarding Institution | |
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The influence of extracts of Ascophvllum nodosum on plant and soil-borne pathogen interactions
CUNHA, F. M. J. (Author). 2002
Student thesis: PhD