Resilience to changes in salinity and predator diversity in representative Gulf of Mexico estuarine fish predator-prey interactions

Predators strongly influence ecological communities and subsequent ecosystem function by directly consuming prey individuals and indirectly by inciting alterations in prey behavior, termed non-consumptive effects (NCEs). Gulf of Mexico estuaries support complex food webs structured by numerous speci...

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Bibliographic Details
Published in:Journal of experimental marine biology and ecology 2024-11, Vol.580, p.152053, Article 152053
Main Authors: Alford, Scott B., Husband, Shea A., Martin, Charles W.
Format: Article
Language:English
Subjects:
Anti-predator behavior
Context dependence
Fundulus
Non-consumptive effects
Salinity
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Summary:Predators strongly influence ecological communities and subsequent ecosystem function by directly consuming prey individuals and indirectly by inciting alterations in prey behavior, termed non-consumptive effects (NCEs). Gulf of Mexico estuaries support complex food webs structured by numerous species interactions maintained in constant environmental flux from variation in salinity. Environmental variation presents a source of physiological stress for estuarine fish and plays a role in their distributions and subsequent interactions. Here, we present the results of a mesocosm experiment examining if acute changes in salinity disrupt NCEs of different predators on estuarine prey. We exposed Gulf killifish (Fundulus grandis) to visual and/or olfactory cues from a common estuarine predator, red drum (Sciaenops ocellatus), and from a freshwater predator that is a transient species in lower portions of estuaries, largemouth bass (Micropterus salmoides), under either decreasing, constant, or increasing salinity. Killifish decreased shoal size and movement in response to olfactory cues or both visual and olfactory cues compared to when they were exposed to no cues or visual cues, demonstrating variable perceived risk dependent on cue type. Behavioral response did not vary by predator species, implying a generalized response to different fish predators. Prey did not change behavior when exposed to decreasing salinity compared to constant salinity. However, prey movement increased with increasing salinity, indicating that salinity changes may provide cues to search for different habitats instead of a stressor. Our experiment indicates that estuarine predator-prey interactions may be resilient to acute salinity changes given the broad tolerances of euryhaline species. •Examined effects of environmental, diversity changes on estuarine fish interactions.•Killifish response to predator cues depended on cue type.•Killifish displayed generalized responses to multiple fish predator species.•Changing salinity did not disrupt killifish response to predator cues.•Interaction resiliency from general predator response and environmental tolerance.
ISSN:0022-0981
DOI:10.1016/j.jembe.2024.152053