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Breeding for microbiome-mediated disease resistance Organic Eprints
Hohmann, Pierre; Wille, Lukas; Studer, Bruno; Bodenhausen, Natacha; Messmer, Monika.
Plant-associated microbial communities play a crucial role for the expression of various plant traits including disease resistance. Increasing evidence suggests that host genotype influences the composition and function of certain microbial key groups, which, in turn, effects how the plant reacts to environmental stresses. Several studies indicate that modern plant breeding may have selected against plant traits essential for hosting and supporting beneficial microbes. However, they also highlight the presence of an exploitable genetic base for the regulation of the rhizosphere microbiota. We illustrate the concept of breeding for microbial symbioses with pea (Pisum sativum L.). Firstly, genotypic variation for the efficiency of a mycorrhizal symbiosis is...
Tipo: Conference paper, poster, etc. Palavras-chave: Breeding; Genetics and propagation Crop health; Quality; Protection.
Ano: 2017 URL: http://orgprints.org/32521/1/Micrope2017_Abstractbook.pdf
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Exploring fungal diversity associated with pea and barley in intercropping and pure cropping systems Organic Eprints
Hsung, Ming-Hui; Hartmann, Martin; Bodenhausen, Natacha; Haug, Benedikt; Messmer, Monika; Hohmann, Pierre.
Exploring fungal diversity associated with pea and barley in intercropping and pure cropping systems highlights the need to consider belowground interactions for optimization of intercropping.
Tipo: Conference paper, poster, etc. Palavras-chave: Crop combinations and interactions Breeding; Genetics and propagation Crop health; Quality; Protection.
Ano: 2019 URL: http://orgprints.org/36478/1/MHsung_GDC110919.pdf
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Petunia- and Arabidopsis-Specific Root Microbiota Responses to Phosphate Supplementation Organic Eprints
Bodenhausen, Natacha; Somerville, Vincent; Desirò, Alessandro; Walser, Jean-Claude; Borghi, Lorenzo; van der Heijden, Marcel G. A.; Schlaeppi, Klaus.
Phosphorus (P) is a limiting element for plant growth. Several root microbes, including arbuscular mycorrhizal fungi (AMF), have the capacity to improve plant nutrition and their abundance is known to depend on P fertility. However, how complex root-associated bacterial and fungal communities respond to various levels of P supplementation remains ill-defined. Here we investigated the responses of the root-associated bacteria and fungi to varying levels of P supply using 16S rRNA gene and internal transcribed spacer amplicon sequencing. We grew Petunia, which forms symbiosis with AMF, and the nonmycorrhizal model species Arabidopsis as a control in a soil that is limiting in plant-available P and we then supplemented the plants with complete fertilizer...
Tipo: Journal paper Palavras-chave: Composting and manuring Crop health; Quality; Protection.
Ano: 2019 URL: http://orgprints.org/36376/1/bodenhausen-etal-2019-phytobiomes-Vol3-Issue2-p112-124.pdf
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Resistance screening of pea against a complex of root-rot pathogens Organic Eprints
Wille, Lukas; Studer, Bruno; Messmer, Monika; Bodenhausen, Natacha; Hohmann, Pierre.
Pea (Pisum sativum L.) is highly prone to soil-borne pathogens and rotation breaks of up to ten years are recommended to avoid the build-up of high pathogen loads in the field. This stands in conflict with efforts to increase acreage of pea to strengthen low input farming systems and meet the pro- tein demand of a growing world population. Pea cultivars resistant against individual pathogen species exist, but not against pathogen complexes present under field conditions. Incorporating the microbial complexity present in the rhizosphere into plant variety testing is a potential means to harness beneficial plant-microbe interactions for resistance breeding programs.
Tipo: Conference paper, poster, etc. Palavras-chave: "Organics" in general Soil biology Breeding; Genetics and propagation Crop health; Quality; Protection.
Ano: 2018 URL: http://orgprints.org/34217/1/Poster_Wille_Diversifood_2018_PRINT.pdf
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Species-specific root microbiota dynamics in response to plant-available phosphorus Organic Eprints
Bodenhausen, Natacha; Somerville, Vincent; Desirò, Alessandro; Walser, Jean-Claude; Borghi, Lorenzo; van der Heijden, Marcel G. A.; Schlaeppi, Klaus.
Phosphorus (P) is a limiting element for plant growth. Several root microbes, including arbuscular mycorrhizal fungi (AMF), have the capacity to improve plant nutrition and their abundance is known to depend on P fertility. However, how complex root-associated bacterial and fungal communities respond to changes in P availability remains ill-defined. We manipulated the availability of soil P in pots and compared the root microbiota of non-mycorrhizal Arabidopsis with mycorrhizal Petunia plants. Root bacteria and fungi were profiled using ribosomal operon gene fragment sequencing, we searched for P sensitive microbes and tested whether a P sensitive core microbiome could be identified. Root microbiota composition varied substantially by P availability. A P...
Tipo: Journal paper Palavras-chave: Soil quality; Crop husbandry.
Ano: 2018 URL: http://orgprints.org/34930/1/bodenhausen-etal-2018-biorxiv-400119.full.pdf
Registros recuperados: 5
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