Ecological Interactions Affecting the Efficacy of Aphidius colemani in Greenhouse Crops

Sara G Prado¹, Sarah E Jandricic², Steven D Frank³

Affiliations

¹ David Clark Labs, Department of Applied Ecology, North Carolina State University, Raleigh, NC 27695, USA. sprado@ncsu.edu.
² Ontario Ministry of Agriculture, Food and Rural Affairs, 4890 Victoria Avenue North, Vineland, ON L0R 2E0, Canada. Sarah.Jandricic@ontario.ca.
³ Gardner Hall, Department of Entomology, North Carolina State University, Raleigh, NC 27695, USA. sdfrank@ncsu.edu.

PMID: 26463203
PMCID: PMC4553498
DOI: 10.3390/insects6020538

Review

Ecological Interactions Affecting the Efficacy of Aphidius colemani in Greenhouse Crops

Sara G Prado et al. Insects. 2015.

. 2015 Jun 11;6(2):538-75.

doi: 10.3390/insects6020538.

Authors

Sara G Prado¹, Sarah E Jandricic², Steven D Frank³

Affiliations

¹ David Clark Labs, Department of Applied Ecology, North Carolina State University, Raleigh, NC 27695, USA. sprado@ncsu.edu.
² Ontario Ministry of Agriculture, Food and Rural Affairs, 4890 Victoria Avenue North, Vineland, ON L0R 2E0, Canada. Sarah.Jandricic@ontario.ca.
³ Gardner Hall, Department of Entomology, North Carolina State University, Raleigh, NC 27695, USA. sdfrank@ncsu.edu.

PMID: 26463203
PMCID: PMC4553498
DOI: 10.3390/insects6020538

Abstract

Aphidius colemani Viereck (Hymenoptera: Braconidae) is a solitary endoparasitoid used for biological control of many economically important pest aphids. Given its widespread use, a vast array of literature on this natural enemy exists. Though often highly effective for aphid suppression, the literature reveals that A. colemani efficacy within greenhouse production systems can be reduced by many stressors, both biotic (plants, aphid hosts, other natural enemies) and abiotic (climate and lighting). For example, effects from 3rd and 4th trophic levels (fungal-based control products, hyperparasitoids) can suddenly decimate A. colemani populations. But, the most chronic negative effects (reduced parasitoid foraging efficiency, fitness) seem to be from stressors at the first trophic level. Negative effects from the 1st trophic level are difficult to mediate since growers are usually constrained to particular plant varieties due to market demands. Major research gaps identified by our review include determining how plants, aphid hosts, and A. colemani interact to affect the net aphid population, and how production conditions such as temperature, humidity and lighting affect both the population growth rate of A. colemani and its target pest. Decades of research have made A. colemani an essential part of biological control programs in greenhouse crops. Future gains in A. colemani efficacy and aphid biological control will require an interdisciplinary, systems approach that considers plant production and climate effects at all trophic levels.

Keywords: abiotic factors; aphid biological control; parasitoid abundance; parasitoid attack rate; tritrophic interactions.

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Figures

**Figure 1**
Ecological factors in greenhouse crops that can affect the efficacy of *A. colemani* and management of aphid pests. Full black arrows indicate direct negative effects on either the wasp or the pest. Full grey arrows indicate direct positive or negative effects on either the wasp or the pest. Dashed grey arrows indicate indirect positive or negative effects on either the wasp or the pest. Size of arrows approximately corresponds to size of effect, based on our literature review. EPF’s stands for entomopathogenic fungi.

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References

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Ecological Interactions Affecting the Efficacy of Aphidius colemani in Greenhouse Crops

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Ecological Interactions Affecting the Efficacy of Aphidius colemani in Greenhouse Crops

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