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Contrasting trophic-cascade effects driven by variation in morphology of the perches used by a larval damselfly

Qinghua Zhao, YinG Pan, John Griffin Orcid Logo, Junzhao Sun, Shucun Sun

Freshwater Biology, Volume: 61, Issue: 5, Pages: 693 - 701

Swansea University Author: John Griffin Orcid Logo

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DOI (Published version): 10.1111/fwb.12739

Abstract

1. The presence of habitat structures (e.g. caves, ledges, branches) has well-documented ecologicaleffects. However, it remains largely unknown how variation in the morphology of particular habitatstructures affects ecological interactions.2. Using an algae–cladoceran grazer–larval damselfly food ch...

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Published in: Freshwater Biology
ISSN: 00465070
Published: 2016
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa31869
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Abstract: 1. The presence of habitat structures (e.g. caves, ledges, branches) has well-documented ecologicaleffects. However, it remains largely unknown how variation in the morphology of particular habitatstructures affects ecological interactions.2. Using an algae–cladoceran grazer–larval damselfly food chain as a model in a series of microcosmexperiments, we manipulated food-chain length and the length (long versus short) and diameter(thick versus thin) of vertically orientated damselfly perches (habitat structure) and examined thedensity of the grazers and algae. Because the larval damselflies are usually more flexible on thinnerperches and have broader foraging domains on longer perches, we predicted that when on long andthin perches they would suppress grazer density more efficiently and hence confer a more positivetrophic-cascade effect on algal growth.3. As predicted, larval damselflies occupying long and thin perches most strongly reduced grazerdensity and increased algal density, illustrating a positive trophic cascade. In all other damselflytreatments, and despite reduced grazer density, algal density declined, showing a negative trophiccascade due to an elevation in grazer foraging efficiency under predation risk. This probably resultedfrom the increased activity of the grazers and their spatial shift to the lower water column wherealgal density was higher.4. In conclusion, perch morphology affected the direction and strength of the trophic cascade byaltering both density-mediated and behaviour-mediated indirect interactions. Considering thatanthropogenic disturbance is dramatically changing the morphological diversity of habitat structures,we call for more research into the ecological consequences of such physical diversity at communityand ecosystem levels.
Keywords: algae–cladoceran–damselfly, habitat structures, morphology, species interaction, trophic cascade
College: Faculty of Science and Engineering
Issue: 5
Start Page: 693
End Page: 701