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Dr. rer. nat. Matthias Becker

Dr. rer. nat.

Matthias Becker

Großbeeren
033701 - 78 216
becker.matthias@igzev.de

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Wissenschaftler

Publikationen
Personalisierte Seite
Aufsätze referiert mit Begutachtungssystemen

Successful formulation and application of plant growth-promoting Kosakonia radicincitans in maize cultivation

Berger, B.; Patz, S.; Ruppel, S.; Dietel, K.; Faetke, S.; Junge, H.; Becker, M. 2018. Successful formulation and application of plant growth-promoting Kosakonia radicincitans in maize cultivation. BioMed Research International 2018, Article ID 6439481.

DOI: 10.1155/2018/6439481

Around the pole: evolution of sub-Antarctic Ranunculus.

Lehnebach, C.A.; Winkworth, R.C.; Becker, M.; Lockhart, P.J.; Hennion, F. 2017. Around the pole: evolution of sub-Antarctic <i>Ranunculus</i>. Journal of Biogeography 44(4), 875-886.

DOI: 10.1111/jbi.12952

Linkage between trichome morphology and leaf optical properties in New Zealand alpine Pachycladon (Brassicaceae).

Mershon, J.P.; Becker, M.; Bickford, C.P. 2015. Linkage between trichome morphology and leaf optical properties in New Zealand alpine Pachycladon (Brassicaceae). New Zealand Journal of Botany 175-182.

The fungal cell wall integrity MAPK cascade is crucial for hyphal Network formation and maintenance of restrictive growth of Epichloë festucae in symbiosis with Lolium perenne.

Becker, Y.; Eaton, C.J.; Brasell, E.; May, K.J.; Becker, M.; Hassing, B.; Cartwright, G.M.; Reinhold, L.; Scott, B. 2015. The fungal cell wall integrity MAPK cascade is crucial for hyphal Network formation and maintenance of restrictive growth of Epichloë festucae in symbiosis with Lolium perenne. Molecular Plant Microbe Interaction 28 (1), 69-85.

We are still learning about the nature of species and their evolutionary relationships.

Lockhart, P.J.; Larkum, A.W.D.; Becker, M.; Penny, D. 2014. We are still learning about the nature of species and their evolutionary relationships. Annals Missouri Botanical Garden 100, 6-13.

Hybridization may facilitate in situ survival of endemic species through periods of climate change.

Becker, M.,; Gruenheit, N.; Steel, M.; Voelckel, C.; Deusch, O.; Heenan, P.B.; McLenachan, P.A.; Kardailsky, O.; Leigh, J.W.; Lockhart, P. 2013. Hybridization may facilitate in situ survival of endemic species through periods of climate change. Nature Climate Change 3, 1039–1043.

Sammelwerke (Einzelbeiträge)

Ruppel, S.; Patz, S.; Becker, M.; Berger, B.; Scherwinski, A.-C.; Hegazi, N. 2018. The phyllosphere of Lepidium sativum – a habitat of human probiotic bacteria. 2nd Plant Microbiome Symposium. 19.-21. Februar, Amsterdam, Proceedings.

Ruppel, S.; Patz, S.; Becker, M.; Berger, B.; Scherwinski, A.-C.; Hegazi, N. 2018. The phyllosphere of Lepidium sativum – a habitat of human probiotic bacteria. 2nd Plant Microbiome Symposium. 19.-21. Februar, Amsterdam, Proceedings.

The phyllosphere of Lepidium sativum- a habitat of human probiotic of pathogenic bacteria?

Ruppel, S.; Patz, S.; Becker, M.; Berger, B.; Scherwinski, A.-C.; Hegazi, N. 2018. The phyllosphere of Lepidium sativum- a habitat of human probiotic of pathogenic bacteria? 3rd International Workshop on Interactions between crop plants and human pathogens. 12.-14.03.2018 Berlin, Book of Abstracts.

To be or not to be a pathogen: Differentiate true virulence factors of bacteria from false positives

Becker, M.; Becker, Y.; Ruppel, S.; Patz, S. 2018. To be or not to be a pathogen: Differentiate true virulence factors of bacteria from false positives. 3rd International Workshop on Interactions between crop plants and human pathogens. 12.-14.03.2018, Berlin, Book of Abstracts, 7.

Compatible solutes accumulation capacity of the endophytic bacteria Kosakonia radicincitans

Cruz Barrera, F.M.; Jakobs-Schönwandt, D; Ruppel, S.; Becker, M.; Berger, B.; Junge, H.; Dietel, K.; Patel, A. 2017. Compatible solutes accumulation capacity of the endophytic bacteria Kosakonia radicincitans. Tropentag 2017: Future Agriculture: Social-ecological transitions and bio-cultural shifts. 20.-22.09.2017, Bonn. Book of Abstracts.

Crosscommunication of PGPB Kosakonia radicincitans with Solanum lycopersicum.

Berger, B.; Becker, M.; Becker, Y.; Patz, S.; Drungowski, M.; Baldermann, S.; Ruppel, S. 2016. Crosscommunication of PGPB Kosakonia radicincitans with Solanum lycopersicum. 3rd Doctoral Researcher’s Conference of GRK1798 „Signaling at the Plant-Soil Interface, Book of Abtracts, 34.

Entwicklung eines integrierten Fermentations- und Formulierungsverfahrens für das endophytische Bakterium Kosakonia radicincitans als neuartiges Düngemittel.

Cruz, M.; Jakobs-Schönwandt, D.; Becker, M.; Berger, B.;Junge, H.; Ruppel, S.; Patel, A. 2016. Entwicklung eines integrierten Fermentations- und Formulierungsverfahrens für das endophytische Bakterium Kosakonia radicincitans als neuartiges Düngemittel. XIV Meeting of the IOBC-WPRS Working Group Biological Control of Fungal and Bacterial Plant Pathogens, Book of Abstracts.

Kosakonia radicincitans: eine neue Bakterienart mit überraschend hohem Potential zur Steigerung von Pflanzenerträgen.

Ruppel, S.; Berger, B.; Becker, M.; Becker, Y.; Patz S.; Ekandjo, L.; Tchakounte, G.V. 2016. Kosakonia radicincitans: eine neue Bakterienart mit überraschend hohem Potential zur Steigerung von Pflanzenerträgen. Die Rolle der Bodenmikroorganismen bei der Ernährung von Kulturpflanzen, Internationale wissenschaftliche Tagung am 17./18. November 2016 an der Hochschule Anhalt in Bernburg-Strenzfeld, 25.

Rhizobacterial impact on plant P acquisition.

Ruppel, S., Berger, B., Becker, M., Patz, S., Hasan, S., Eichler-Löbermann, B. 2016. Rhizobacterial impact on plant P acquisition. Phosphorus 2020 – Challenges for Synthesis, Agriculture, and Ecosystems 8th International Phosphorus Workshop, September 12–16, 2016, 152.

The endophytic symbiont Epichloё festucae establishes an epiphyllous network on the surface of Lolium perenne leaves by development of an expressorium, an appressorium-like leaf exit structure.

Becker, Y.; Becker, M.; Green, K.; Scott, B. 2016. The endophytic symbiont Epichloё festucae establishes an epiphyllous network on the surface of Lolium perenne leaves by development of an expressorium, an appressorium-like leaf exit structure. 13th European Conference on Fungal Genetics, Book of Abstacts, 172.

Do fungal symbiont Epichloe festucae and the bacterial symbiont Kosakonia radicincitans colonize the same plant?

Becker, M.; Becker, Y.; Scott, B.; Ruppel, S. 2015. Do fungal symbiont Epichloe festucae and the bacterial symbiont Kosakonia radicincitans colonize the same plant? Microbe Symposium, Wien, Book of Abstracts, 142.

Morphogenesis, growth, and development of the grass symbiont Epichlöe festucae.

Scott, B.; Becker, Y.; Becker, M.; Cartwright, G. 2012. Morphogenesis, growth, and development of the grass symbiont Epichlöe festucae. In: Josè-Pèrez-Martin …(Eds.) Morphogenesis and Pathogenicity in Fungi, Volume 22 of the series Topics in Current Genetics, 243-264.

 

Phylogeny and speciation in succulent Geraniaceae (Geraniales).

Albers, F.; Becker, M. 2010. Phylogeny and speciation in succulent Geraniaceae (Geraniales). Schumannia, 6, 59-67.

Pollinator shift and speciation in Pelargonium alternans (Geraniaceae).

Becker, M.; Albers, F. 2010. Pollinator shift and speciation in Pelargonium alternans (Geraniaceae). Schumannia, 6, 207-226.

AUFSÄTZE (referiert mit...)
SAMMELWERKE (Einzelbeiträge)