A difference in larval mosquito size allows a biocontrol agent to target the invasive species
Data files
Jun 29, 2023 version files 285.76 KB
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Cx_1-C1-J-2183.docx
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Cx_1-TL2-N-3014.docx
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Cx_10-C1-J-2183.docx
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Cx_10-TL2-N-3014.docx
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Cx_11-C1-J-2183.docx
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Cx_11-TL2-N-3014.docx
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Cx_16-C1-J-2183.docx
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Cx_16-TL2-N-3014.docx
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Cx_18-C1-J-2183.docx
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Cx_18-TL2-N-3014.docx
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Cx_19-C1-J-2183.docx
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Cx_19-TL2-N-3014.docx
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Cx_4-C1-J-2183.docx
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Cx_4-TL2-N-3014.docx
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Cx_8-C1-J-2183.docx
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Cx_8-TL2-N-3014.docx
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larval_mosquito_prey_lengths.csv
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predation_efficiency_data.csv
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README.md
Abstract
As the global temperature rises in the coming decades, Aedes albopictus is expected to invade and establish in South East England, where Culex pipiens is currently the most common native mosquito species. Biocontrol measures that use local cyclopoid copepods against Ae. albopictus may be compromised if the copepods prefer alternate Cx. pipiens prey. In this study, I assessed the predation efficiency of Megacyclops viridis copepods against French Ae. albopictus larvae and larvae that hatched from egg rafts of Cx. pipiens collected in South East England. The experiments were conducted at 15°C and 25°C, which are representative of present and future summer temperatures in South East England. Ae. albopictus larvae that survived the course of the experiment in the predator-absent controls were significantly smaller than Cx. pipiens larvae that survived in the absence of predation. The background mortality of Cx. pipiens larvae increased with the ten-degree increase in temperature, and the smaller size of surviving Cx. pipiens larvae at 25°C, relative to survivors at 15°C, suggests that larger Cx. pipiens larvae were more likely to die at the higher temperature setting. Across all experimental treatments, the ratio of copepod body length to mean prey length, based on larval lengths of survivors from the corresponding predator-absent controls, was a significant predictor of the copepod’s predation efficiency. Adding temperature setting to the predation efficiency model as a predictor did not improve model fit. Within the mixed prey treatments, the predation efficiency of M. viridis was 34.5 percentage points higher against Ae. albopictus prey than against Cx. pipiens prey. The higher predation efficiency that M. viridis exhibited against invasive Ae. albopictus prey, likely due to the smaller size of these larvae, supports the future use of M. viridis as a biocontrol agent in the UK.