Abstract
Sponges and other sessile invertebrates are lacking behavioural escape or defense mechanisms and rely therefore on morphological or chemical defenses. Studies from terrestrial systems and marine algae demonstrated facultative defenses like induction and activation to be common, suggesting that sessile marine organisms also evolved mechanisms to increase the efficiency of their chemical defense. However, inducible defenses in sponges have not been investigated so far and studies on activated defenses are rare. We investigated whether tropical sponge species induce defenses in response to artificial predation and whether wounding triggers defense activation. Additionally, we tested if these mechanisms are also used to boost antimicrobial activity to avoid bacterial infection. Laboratory experiments with eight pacific sponge species showed that 87% of the tested species were chemically defended. Two species, Stylissa massa and Melophlus sarasinorum, induced defenses in response to simulated predation, which is the first demonstration of induced antipredatory defenses in marine sponges. One species, M. sarasinorum, also showed activated defense in response to wounding. Interestingly, 50% of the tested sponge species demonstrated induced antimicrobial defense. Simulated predation increased the antimicrobial defenses in Aplysinella sp., Cacospongia sp., M. sarasinorum, and S. massa. Our results suggest that wounding selects for induced antimicrobial defenses to protect sponges from pathogens that could otherwise invade the sponge tissue via feeding scars.
Highlights
Sponges and other sessile invertebrates are lacking behavioural escape or defense mechanisms and rely on morphological or chemical defenses
All sponge specimens were collected around Guam (13.4° N, 144.6° E) at depths between 2–15 m. 19 specimens of each species were cut at their base from the substratum, put into individual 4-L plastic bags in situ, deposited into a cooler filled with seawater for transportation to the University of Guam Marine Laboratory (UOGML)
N. carbonaria was even preferred by the pufferfish when it was induced compared to non-induced extracts (Wilcoxon, p = 0.02), but this effect was absent in the urchin assay
Summary
Sponges and other sessile invertebrates are lacking behavioural escape or defense mechanisms and rely on morphological or chemical defenses. Already in the 1950s it was discovered that sponges yield a wide array of biologically active secondary metabolites [1]. Since more than 5300 chemical compounds have been described in sponges [2]. Marine natural products research has been driven mainly by pharmacological screening programs, which aim at the discovery of new chemical structures with pharmacological activity, neglecting the ecological functions of these compounds. Studies in the field of marine chemical ecology focus on PLOS ONE | DOI:10.1371/journal.pone.0132236. Studies in the field of marine chemical ecology focus on PLOS ONE | DOI:10.1371/journal.pone.0132236 July 8, 2015
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