Robin Dietsch
Fachbereich Ingenieurwissenschaften und Mathematik
https://orcid.org/0000-0001-6133-140X8 Publikationen
2025 | Artikel | FH-PUB-ID: 5766 | 
Dietsch, Robin, et al. “Solute Excretion Improves Trehalose Uptake and Desiccation Tolerance of Metarhizium Brunneum Blastospores.” Biotechnology for the Environment, vol. 2, no. 1, 1, Springer Science and Business Media LLC, 2025, doi:10.1186/s44314-024-00016-z.
HSBI-PUB
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| Download (ext.)
2023 | Konferenzbeitrag | FH-PUB-ID: 3152 |
Dietsch, Robin. Hypotonic Manipulation of the Intracellular Composition of M. Brunneum Blastospores to Improve Desiccation Tolerance. 2023.
HSBI-PUB
| Dateien verfügbar
2022 | Konferenzbeitrag | FH-PUB-ID: 3148 |
Dietsch, Robin. Single Cell Coating of Fungal Blastospores – A Promising Approach to Increase Desiccation Tolerance. FH Bielefeld, 2022.
HSBI-PUB
| Dateien verfügbar
2022 | Patent | FH-PUB-ID: 3142
Dietsch, Robin, et al. Beschichtete Pilzsporen Und Deren Verwendung Als Pflanzenbehandlungsmittel. 2022.
HSBI-PUB
2021 | Konferenzbeitrag | FH-PUB-ID: 3156 |
Dietsch, Robin, et al. Polymer Coating of Single Metarhizium Brunneum Blastospores to Improve Desiccation Tolerance. 2021.
HSBI-PUB
| Dateien verfügbar
2021 | Konferenzbeitrag | FH-PUB-ID: 3146 |
Dietsch, Robin. Improving Blastospore Desiccation Tolerance by Decelerated Rehydration and a Novel Formulation Approach. 2021.
HSBI-PUB
| Dateien verfügbar
2021 | Artikel | FH-PUB-ID: 3137 |
Dietsch, Robin, et al. “Desiccation-Tolerant Fungal Blastospores: From Production to Application.” Current Research in Biotechnology, vol. 3, Elsevier BV, 2021, pp. 323–39, doi:10.1016/j.crbiot.2021.11.005.
HSBI-PUB
| Dateien verfügbar
| DOI
2020 | Konferenzbeitrag | FH-PUB-ID: 3138 |
Dietsch, Robin. Formulation of M. Brunneum Blastospores for Drying, Storage, and Potato Colonization. 2020.
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8 Publikationen
2025 | Artikel | FH-PUB-ID: 5766 |
Dietsch, Robin, et al. “Solute Excretion Improves Trehalose Uptake and Desiccation Tolerance of Metarhizium Brunneum Blastospores.” Biotechnology for the Environment, vol. 2, no. 1, 1, Springer Science and Business Media LLC, 2025, doi:10.1186/s44314-024-00016-z.
HSBI-PUB
| DOI
| Download (ext.)
2023 | Konferenzbeitrag | FH-PUB-ID: 3152 |
Dietsch, Robin. Hypotonic Manipulation of the Intracellular Composition of M. Brunneum Blastospores to Improve Desiccation Tolerance. 2023.
HSBI-PUB
| Dateien verfügbar
2022 | Konferenzbeitrag | FH-PUB-ID: 3148 |
Dietsch, Robin. Single Cell Coating of Fungal Blastospores – A Promising Approach to Increase Desiccation Tolerance. FH Bielefeld, 2022.
HSBI-PUB
| Dateien verfügbar
2022 | Patent | FH-PUB-ID: 3142
Dietsch, Robin, et al. Beschichtete Pilzsporen Und Deren Verwendung Als Pflanzenbehandlungsmittel. 2022.
HSBI-PUB
2021 | Konferenzbeitrag | FH-PUB-ID: 3156 |
Dietsch, Robin, et al. Polymer Coating of Single Metarhizium Brunneum Blastospores to Improve Desiccation Tolerance. 2021.
HSBI-PUB
| Dateien verfügbar
2021 | Konferenzbeitrag | FH-PUB-ID: 3146 |
Dietsch, Robin. Improving Blastospore Desiccation Tolerance by Decelerated Rehydration and a Novel Formulation Approach. 2021.
HSBI-PUB
| Dateien verfügbar
2021 | Artikel | FH-PUB-ID: 3137 |
Dietsch, Robin, et al. “Desiccation-Tolerant Fungal Blastospores: From Production to Application.” Current Research in Biotechnology, vol. 3, Elsevier BV, 2021, pp. 323–39, doi:10.1016/j.crbiot.2021.11.005.
HSBI-PUB
| Dateien verfügbar
| DOI
2020 | Konferenzbeitrag | FH-PUB-ID: 3138 |
Dietsch, Robin. Formulation of M. Brunneum Blastospores for Drying, Storage, and Potato Colonization. 2020.
HSBI-PUB
| Dateien verfügbar