Marina Vemmer scite author profile

This study reports the development of encapsulated and dried entomopathogenic fungus Metarhiuzm brunneum with reduced conidia content, increased conidiation, a high drying survival and enhanced shelf life. Dried beads prepared with the fillers corn starch, potato starch, carboxymethylcellulose or autoclaved baker's yeast, showed enhanced survival with increasing filler content. The maximum survival of 82% was found for beads with 20% corn starch at <0.1 water activity. While increasing starch content inhibits the conidiation, autoclaved baker's yeast and a combination with starch enhanced the conidiation to 1.0 × 10 conidia/bead. Beads with conidia content reduced to 0.01% multiplied conidia in a "microfermentation" by the factor 1000. A bioassay confirmed that conidia formed from rehydrated beads were virulent against Tenebrior molitor larvae. After six months of storage, encapsulated conidia showed improved shelf life compared to non-formulated conidia. This "microfermenter" will pave the way for encapsulated fungi to be used as cost-effective biocontrol agents.

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Calcium gluconate as cross-linker improves survival and shelf life of encapsulated and driedMetarhizium brunneumandSaccharomyces cerevisiaefor the application as biological control agents

Humbert

Przyklenk

Vemmer

et al. 2017

Journal of Microencapsulation

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Development of a CO₂‐releasing coformulation based on starch, Saccharomyces cerevisiae and Beauveria bassiana attractive towards western corn rootworm larvae

Vemmer

Schumann

Beitzen-Heineke³

et al. 2016

Pest Management Science

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The role of carbon dioxide as an orientation cue for western corn rootworm larvae within the maize root system: implications for an attract‐and‐kill approach

Schumann

Patel

Vemmer

et al. 2013

Pest Management Science

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CO2 is a weak attractant for western corn rootworm larvae within the root system. Consequently, an attract-and-kill strategy based on a CO2 product will not contribute to better control compared with conventional Tefluthrin applications. Host-specific compounds, combined with a CO2 source, should be used to target more larvae, making attract and kill a feasible management option against this pest.

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Marina Vemmer

Review of encapsulation methods suitable for microbial biological control agents

A bioencapsulation and drying method increases shelf life and efficacy ofMetarhizium brunneumconidia

Calcium gluconate as cross-linker improves survival and shelf life of encapsulated and driedMetarhizium brunneumandSaccharomyces cerevisiaefor the application as biological control agents

Development of a CO₂‐releasing coformulation based on starch, Saccharomyces cerevisiae and Beauveria bassiana attractive towards western corn rootworm larvae

The role of carbon dioxide as an orientation cue for western corn rootworm larvae within the maize root system: implications for an attract‐and‐kill approach

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Marina Vemmer

Review of encapsulation methods suitable for microbial biological control agents

A bioencapsulation and drying method increases shelf life and efficacy ofMetarhizium brunneumconidia

Calcium gluconate as cross-linker improves survival and shelf life of encapsulated and driedMetarhizium brunneumandSaccharomyces cerevisiaefor the application as biological control agents

Development of a CO2‐releasing coformulation based on starch, Saccharomyces cerevisiae and Beauveria bassiana attractive towards western corn rootworm larvae

The role of carbon dioxide as an orientation cue for western corn rootworm larvae within the maize root system: implications for an attract‐and‐kill approach

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Development of a CO₂‐releasing coformulation based on starch, Saccharomyces cerevisiae and Beauveria bassiana attractive towards western corn rootworm larvae