Conidial Persistence and Competitive Ability of the Antagonist Ulocladium atrum on Strawberry Leaves

The persistence of conidia and competitive ability of Ulocladium atrum , an antagonist of Botrytis cinerea , were studied in field plots of strawberry in The Netherlands. Single application of conidial suspensions (2 &#45 10 6 conidia ml -1 ) of U. atrum were sprayed on the canopy and repeated 1...

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Bibliographic Details
Published in:Biocontrol science and technology 2001-10, Vol.11 (5), p.623-636
Main Authors: Boff, P., De Kraker, J., Van Bruggen, A. H. C., Gerlagh, M., Köhl, J.
Format: Article
Language:English
Subjects:
Biological Farming Systems
Biologische bedrijfssystemen
Botrytis Cinerea
Competition
Ecology
Fragaria vesca
Leerstoelgroep Plantaardige productiesystemen
PE&RC
Plant Production Systems
Plantaardige Productiesystemen
PRI Crop and Production Ecology
PRI Gewas- en Productie-ecologie
Sporulation
Ulocladium atrum
Viability
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Summary:The persistence of conidia and competitive ability of Ulocladium atrum , an antagonist of Botrytis cinerea , were studied in field plots of strawberry in The Netherlands. Single application of conidial suspensions (2 &#45 10 6 conidia ml -1 ) of U. atrum were sprayed on the canopy and repeated 14 times, each in a different plot during the spring, summer or early winter of 1997 and 1998. Leaf samples were taken approximately weekly in the summer crops and monthly in the overwintering crops up to 30-120 days after application, to assess total conidial density, conidial viability, and competitive colonization of necrotic leaf tissue by U. atrum in relation to naturally occurring B. cinerea and other necrotrophic fungi. The total density of U. atrum conidia on green strawberry leaves declined exponentially after application by an average relative rate of -0.10/day. Variation in the rate of decrease between individual sprays was large and partly associated with the average daily precipitation during the first week after application. For pooled data, percentage viability of U. atrum conidia declined linearly at a rate of 1%/day after application. Colonization of necrotic strawberry leaf tissue by U. atrum increased with total conidial density and, at densities > 1500 conidia cm -2 , leaf colonization by naturally occurring B. cinerea was consistently reduced. With the exponential decline in total conidial density of U. atrum , effective suppression of B. cinerea on strawberry leaves can only be expected when U. atrum is applied less than one week before the leaves become necrotic. Further research needs to focus on enhanced rain-fastness of deposited conidia of U. atrum to reduce spore loss.
ISSN:0958-3157
1360-0478
DOI:10.1080/09583150120076175