Mario Schumann scite author profile

Herbivorous insect pests living in the soil represent a significant challenge to food security given their persistence, the acute damage they cause to plants and the difficulties associated with managing their populations. Ecological research effort into rhizosphere interactions has increased dramatically in the last decade and we are beginning to understand, in particular, the ecology of how plants defend themselves against soil-dwelling pests. In this review, we synthesise information about four key ecological mechanisms occurring in the rhizosphere or surrounding soil that confer plant protection against root herbivores. We focus on root tolerance, root resistance via direct physical and chemical defences, particularly via acquisition of siliconbased plant defences, integration of plant mutualists (microbes and entomopathogenic nematodes, EPNs) and the influence of soil history and feedbacks. Their suitability as management tools, current limitations for their application, and the opportunities for development are evaluated. We identify opportunities for synergy between these aspects of rhizosphere ecology, such as mycorrhizal fungi negatively affecting pests at the root-interface but also increasing plant uptake of silicon, which is also known to reduce herbivory. Finally, we set out research priorities for developing potential novel management strategies. Re: Revision of our review APSOIL-D-16-00199 Dear Prof van Gestel, Many thanks for your email advising us that our paper may be considered for publication pending major revisions. Please find enclosed our revised article New frontiers in belowground ecology for plant protection from root-feeding insects. As you will see this paper has been substantially rewritten and developed. Full details of these changes are in our response to reviewers. We are thankful to both reviewers for constructive comments and suggestions. We are grateful for the extension you provided and very sorry that we were late returning this revision to you. Please don't hesitate to contact me if I can provide further information.

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Wireworm damage reduction in potatoes with an attract-and-kill strategy using Metarhizium brunneum

Brandl

Schumann

Przyklenk

et al. 2016

J Pest Sci

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Evaluation of an attract and kill strategy for western corn rootworm larvae

Schumann

Patel

Vidal

2013

Applied Soil Ecology

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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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Mario Schumann

New frontiers in belowground ecology for plant protection from root-feeding insects

Wireworm damage reduction in potatoes with an attract-and-kill strategy using Metarhizium brunneum

Evaluation of an attract and kill strategy for western corn rootworm larvae

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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Mario Schumann

New frontiers in belowground ecology for plant protection from root-feeding insects

Wireworm damage reduction in potatoes with an attract-and-kill strategy using Metarhizium brunneum

Evaluation of an attract and kill strategy for western corn rootworm larvae

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

Contact Info

Product

Resources

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