Numero del progetto:

Agenti di biocontrollo contro le malattie e gli organismi nocivi dei vegetali

Biological control is an old practice yet recently gaining attention again. In today’s agricultural practices, biological control needs to be up scaled to meet with growers’ expectations in terms of efficacy, ease of use and ultimately costs. The current project will research on highly potent strategies to biologically control pests and disease with antagonists to provide management strategies against major pests and diseases in orchards, vineyards, specialty and field crops. Utilizing approaches spanning from gene sequencing to citizen science, this project will deliver fundamental and applied knowledge to support the use of biological control agents and strategies by Swiss growers willing to operate a shift towards ecologically-sound practices.

Cognome, Nome Sede
Bänziger Irene Reckenholz
Brabant Cécile Changins
Breitenmoser Stève Changins
Dahlin Paul Wädenswil
Egger Barbara Wädenswil
Freimoser Florian Changins
Grabenweger Giselher Reckenholz
Hilber Maja Wädenswil
Hiltpold Ivan Changins
Kehrli Patrik Changins
Klötzli Françoise Changins
Laurent Julie Changins
Linder Christian Changins
Nägeli Lukas Changins
Pelludat Cosima Changins
Peter Jules Reckenholz
Schumpp Olivier Changins
Schürch Gabus Stéphanie Changins
Stucky Tobias Wädenswil

Kambor J., La Forgia D., Wilhelm M.
SOPRA: Schädlingsprognose in Zeiten des Klimawandels.
Obst+Wein, 159, (7), 2023, 14-17.
altre lingue: francese

Nägeli L., Schuler M., Segessemann T., Frei D., Frey J., Ahrens C., Wolfe K., Freimoser F.
Genome sequence data of the strongly antagonistic yeast Pichia kluyveri isolate APC 11.10 B as a foundation for analysing biocontrol mechanisms.
Data in Brief, Preprint, 2023, 1-7.

Rueda-Mejia M. P., Bühlmann A., Ortiz-Merino R. A., Lutz S., Ahrens C., Künzler M., Freimoser F.
Pantothenate auxotrophy in a naturally occurring biocontrol yeast.
Applied and Environmental Microbiology, In press, 2023, 1-13.

Todd Kabaluk, Grabenweger G., La Forgia D.
The meeting of minds to share solutions for a complex insect pest.
Arthropod-Plant Interactions, In Press, 2023, 1-2.

Kunkel B., Cissel W. J., Tooker J. F., Howe D. K., Denver D. R., Mc Donnell R. J., Hiltpold I.
Nematodes associated with terrestrial slugs in Mid-Atlantic (Delaware, USA) soybean.
Agronomy, 13, (645), 2023, 1-11.

La Forgia D., Martin C., Turlings T. C. J., Verheggen F.
2‑Pentylfuran: an aggregation attractant for wireworms.
Arthropod-Plant Interactions, In Press, 2023, 1-8.

Spescha A., Zwyssig M., Hess Hermida M., Moix A., Bruno P., Enkerli J., Campos-Herrera R., Grabenweger G., Maurhofer M.
When competitors join forces: consortia of entomopathogenic microorganisms increase killing speed and mortality in leafand root‑feeding insect hosts.
Microbial Ecology, 2023, 1-14.

Reinbacher L., Praprotnik E., Razinger J., Bacher S., Grabenweger G.
Influence of wireworm diet on its susceptibility to and control with the entomopathogenic fungus Metarhizium brunneum (Hypocreales: Clavicipitaceae) in laboratory and field settings.
Journal of Economic Entomology, 116, (1), 2023, 108-118.

Spescha A., Weibel J., Wyser L., Brunner M., Hess Hermida M., Moix A., Scheibler F., Guyer A., Campos-Herrera R., Grabenweger G., Maurhofer M.
Combining entomopathogenic Pseudomonas bacteria, nematodes and fungi for biological control of a below-ground insect pest.
Agriculture, Ecosystems & Environment, 348, 2023, 1-12.

Breitenmoser S.
Bulletin hebdomadaire Réseau pyrale du maïs et bilan 2022.
Ed. Agroscope, Agrometeo. 20. April, 2022, 9 pp.

Knecht L., Born Y., Pelludat C., Pothier J., Smits T., Loessner M., Fieseler L.
Spontaneous resistance of Erwinia amylovora against bacteriophage Y2 affects infectivity of multiple phages.
Frontiers in Microbiology, 13, 2022, 1-14.

Lewis E. E., Stevens G., Hiltpold I.
Nematode use for testing theoretical models of behavioral ecology.
In: Nematodes as Model Organisms. Ed. Itamar Glazer, David I. Shapiro-Ilan, Paul W. Sternberg, CABI Publishing. 2022, 276-292.

Breitenmoser S.
3 questions à concernant la chrysomèle des racines du maïs (Diabrotica virgifera virgifera).
Revue UFA, (10), 2022, 14.

Breitenmoser S., Hiltpold I., Steinger T., Baux A.
Intercropping Winter Oilseed Rape (Brassica napus L.) Has the Potential to Lessen the Impact of the Insect Pest Complex.
Agronomy, 12, (3), 2022, 1-10.

La Forgia D., Verheggen F.
War in the darkness: The use of volatile organic compounds as biological alternatives to control wireworms.
In: ICE2022. 16. juillet, Helsinki. 2022, 1-24.

La Forgia D., Hiltpold I., Gindro K., Cléroux. M, Kehrli P.
Following stink odor: The use of oviposition induced plant volatile to enhance the presence of egg parasitoids in the field against Halyomorpha halys and Nezara Viridula.
In: Pherofruit 2022. 25. septembre, Girona (Spanien). 2022.

Schweizer C., Grabenweger G.
Maikäfer mit natürlichen Pilzen kontrollieren.
In: BEA 2022. 29. April, Bern Expo. 2022.
altre lingue: francese

Schweizer C., Grabenweger G.
Pilze, nützliche Helferin der Landwirtschaft.
In: BEA Bern. 29. April, Bern Expo. 2022.
altre lingue: francese

Ranca A., Fragnière A.-L., Ene S. A., Modic S., Rossi V., Caffi T., Razinger J., Rodrigo Santamalia E., Wipf D., Kehrli P.
Potential of cover crops to control arthropod pests in organic viticulture.
Bulletin of University of Agricultural Sciences and Veterinary Medicine ClujNapoca. Horticulture, 79, (1), 2022, 41-46.

Pelludat C., Gschwend F., Widmer F.
Nouvelles perspectives de la lutte biologique contre le feu bacterien.
Vignes et Vergers, 05, (Mai 2022), 2022, 14-16.

Knecht L. E., Heinrich N., Born Y., Felder K., Pelludat C., Loessner M. J., Fieseler L.
Bacteriophage S6 requires bacterial cellulose for Erwinia amylovora infection.
Environmental Microbiology, online, (15 March), 2022, 1-15.

Müller L., Müller D., Kammerecker S., Fluri M., Neutsch L., Remus-Emsermann M., Pelludat C.
Priority effects in the apple flower determine if the siderophore desferrioxamine is a virulence factor for erwinia amylovora CFBP1430.
Applied and Environmental Microbiology, 88, (7), 2022, 1-13.

Rueda Mejia M. P., Nägeli L., Lutz S., Ortiz-Merino R. A., Frei D., Frey J. E., Wolfe K. H., Ahrens C., Freimoser F.
Genome sequence data of the antagonistic soil-borne yeast Cyberlindnera sargentensis (SHA 17.2).
Data in Brief, 40, (February), 2022, 1-6.

Stucky T., Sy E. T., Krauss J., Dahlin P.
BioAct WG: Biologisches Nematizid im Einsatz gegen Wurzelgallennematoden.
Agroscope Science, 132, 2022, 1-12.

Breitenmoser S.
Bulletin hebdomadaire Réseau pyrale du maïs et bilan 2021.
Ed. Agroscope, Agrometeo. 24. Dezember, 2021, 25 pp.

Pelludat C., Gschwend F., Widmer F.
Neue Perspektiven der biologischen Feuerbrandbekämpfung.
Schweizer Zeitschrift für Obst- und Weinbau, 17, 2021, 10-12.

Breitenmoser S.
Bulletin hebdomadaire Réseau pyrale du maïs et bilan 2020.
Ed. Agroscope, Agrometeo. 2020, 21 pp.

Breitenmoser S.
Bulletin hebdomadaire Réseau pyrale du maïs et bilan 2019.
Ed. Agroscope, Agrometeo. 5. Dezember, 2019

Breitenmoser S.
Bulletin hebdomadaire Réseau pyrale du maïs 2018.
Ed. Agroscope, 31. Oktober, 2018

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