Chemically Insignificant Social Parasites Exhibit More Anti-Dehydration Behaviors than Their Hosts
Social parasites have evolved adaptations to overcome host resistance as they infiltrate host colonies and establish there. Among the chemical adaptations, a few species are chemically “insignificant”; they are poor in recognition cues (cuticular hydrocarbons) and evade host detection. As cuticular...
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| Format: | article |
| Language: | EN |
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MDPI AG
2021
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| Subjects: | |
| Online Access: | https://doaj.org/article/c6b4caa252bf4c70b0c08b7c1880fd13 |
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| Summary: | Social parasites have evolved adaptations to overcome host resistance as they infiltrate host colonies and establish there. Among the chemical adaptations, a few species are chemically “insignificant”; they are poor in recognition cues (cuticular hydrocarbons) and evade host detection. As cuticular hydrocarbons also serve a waterproofing function, chemical insignificance is beneficial as it protects parasites from being detected but is potentially harmful because it exposes parasites to desiccation stress. Here I tested whether the social parasites <i>Polistes atrimandibularis</i> employ behavioral water-saving strategies when they live at <i>Polistes biglumis</i> colonies. Observations in the field showed that parasites were less active than their cohabiting host foundresses, spent more time at the nest, and rested in the shadowy, back face of the nest, rather than at the front face, which contradicted expectations for the use of space for dominant females—typically, dominants rest at the nest front-face. These data suggest that behavioral adaptations might promote resistance to desiccation stress in chemical insignificant social parasites. |
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