References of "Koedam, N"
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See detailA methodological framework to quantify anthropogenic effects on landscape pattern.
Bogaert, Jan ULg; Barima, Y S S; Ji, J et al

in Hong, S-K; Wu, J; Kim, J-E (Eds.) et al Landscape Ecology in Asian Cultures. Ecological Research Monographs. (2011)

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See detailImpact of anthropogenic disturbance on a mangrove forest assessed by a 1-D cellular automaton model using Lotka Volterra type competition.
Obade, P; Koedam, N; Soetaert, K et al

in International Journal of Design and Nature and Ecodynamics (2009), 3(4), 296-320

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See detailProtection Of Cucumber Against Pythium Root Rot By Fluorescent Pseudomonads: Predominant Role Of Induced Resistance Over Siderophores And Antibiosis
Ongena, MARC ULg; Daayf, F.; Jacques, P. et al

in Plant Pathology (1999), 48(1),

Four Pseudomonas strains were evaluated for their intrinsic properties conferring their ability to protect long English cucumber against Pythium aphanidermatum in hydroponic culture. Two of the strains ... [more ▼]

Four Pseudomonas strains were evaluated for their intrinsic properties conferring their ability to protect long English cucumber against Pythium aphanidermatum in hydroponic culture. Two of the strains, BTP1 and its siderophorenegative mutant M3, increased plant yield as compared with the non-inoculated control plants. Strain BTP7 was intermediate in its biocontrol activity while strain ATCC 17400 failed to reduce disease development. The role of pyoverdines could not be confirmed since treatment with either BTP1 or its siderophore-negative mutant M3 provided similar suppression of Pythium disease. In addition, no siderophores were detected in the nutrient solution. BTP1 did not inhibit pathogen growth in vitro on several media, suggesting that antibiosis was not a mechanism of suppression. Quantification of root bacterial populations did not indicate differences among the strains. On the other hand, roots treated with either BTP1 or its sid¹ mutant M3 contained more antifungal phenolics than roots from any other treatments including controls. These results suggest that antifungal compounds induced by inoculation of cucumber roots with the fluorescent Pseudomonas strains BTP1 and M3 participate actively in the protection of cucumber plants against P. aphanidermatum [less ▲]

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See detailPyoverdine production is not the sole trait involved in the biological control of soil diseases by Pseudomonas fluorescens ATCC 17400.
Jacques, Ph.; Cornelis, P.; Gaballa, A. et al

Poster (1994, June)

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See detailIn vitro antagonism of two potential biopesticides Bacillus subtilis and Pseudomonas fluorescens : biochemical aspects.
Jacques, Ph.; Hbid, Ch.; Ongena, Marc ULg et al

in Proceedings "Biological control of fruit and foliar diseases" (1993, September)

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See detailMolecular analysis of interaction between fluorescent Pseudomonads and Pythium spp
Jacques, Ph.; Mistry, Ch.; Ongena, Marc ULg et al

Poster (1992, July)

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See detailStudy of the antagonism developped by fluorescent Pseudomonas against Pythium spp. using Tn5 and NTG mutants.
Jacques, Ph.; Mistry, C.; Ongena, Marc ULg et al

in Archives Internationales de Physiologie et de Biochimie (1992), 101(B21),

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