Larval settlement: the role of surface topography for sessile coral reef invertebrates.

Steve Whalan,Rocky De Nys,Muhammad A Abdul Wahab,Andrew J Poole,Susanne Sprungala,Tilmann Harder

doi:10.1371/journal.pone.0117675

Abstract

For sessile marine invertebrates with complex life cycles, habitat choice is directed by the larval phase. Defining which habitat-linked cues are implicated in sessile invertebrate larval settlement has largely concentrated on chemical cues which are thought to signal optimal habitat. There has been less effort establishing physical settlement cues, including the role of surface microtopography. This laboratory based study tested whether surface microtopography alone (without chemical cues) plays an important contributing role in the settlement of larvae of coral reef sessile invertebrates. We measured settlement to tiles, engineered with surface microtopography (holes) that closely matched the sizes (width) of larvae of a range of corals and sponges, in addition to surfaces with holes that were markedly larger than larvae. Larvae from two species of scleractinian corals (Acropora millepora and Ctenactis crassa) and three species of coral reef sponges (Luffariella variabilis, Carteriospongia foliascens and Ircinia sp.,) were used in experiments. L. variabilis, A. millepora and C. crassa showed markedly higher settlement to surface microtopography that closely matched their larval width. C. foliascens and Ircinia sp., showed no specificity to surface microtopography, settling just as often to microtopography as to flat surfaces. The findings of this study question the sole reliance on chemical based larval settlement cues, previously established for some coral and sponge species, and demonstrate that specific physical cues (surface complexity) can also play an important role in larval settlement of coral reef sessile invertebrates.

Highlights

Understanding processes that contribute to distribution patterns of organisms is a cornerstone of ecology
The 400 μm treatment closely resembled larval width for A. millepora, L. variabilis and Ircinia sp., with larger sized holes (700 μm and 1000 μm) being 200–400 μm larger than the larval widths of all five species
The notable outcome of this study was that surface microtopography plays a substantial role in settlement for some larvae, in part supporting previous studies on corals and sponges that have established the importance of surface topography in larval recruitment [37,38,39,40]

Summary

Introduction

Understanding processes that contribute to distribution patterns of organisms is a cornerstone of ecology. Habitat selection can revolve around complex behaviours with some taxa demonstrating defined and innate behaviours that optimise selection [5,6]. This is often displayed for breeding [7], with marine turtles returning to natal beaches to lay eggs [8], brood parasitism in birds [9,10], and insects using chemical cues to oviposit eggs in habitats that minimise predatory risks, or optimise food resources for emerging larvae [11] being among the many examples identifying the use of behaviour to provide optimal habitats for offspring

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Conclusion