Abstract
Habitat degradation alters many ecosystem processes, and the potential for the reestablishment of ecosystem function through restoration is an area of active research. Among marine systems, coastal habitats are particularly vulnerable to anthropogenic degradation and, in response, are the focus of marine ecological restoration. One of the crucial functions of structurally complex coastal habitats (e.g., saltmarshes, seagrass meadows, kelp forests, coral reefs) are as nurseries to coastal and offshore species, many of whose larvae utilize sound to locate suitable nursery habitat. However, the effect of habitat degradation and subsequent restoration on underwater soundscapes and their function as navigational cues for larvae is unexplored. We investigated these phenomena in sponge-dominated hardbottom habitat in the waters surrounding the middle Florida Keys (Florida, United States) that have been degraded in recent decades by massive sponge die-offs caused by harmful algal blooms. One of the consequences of sponge die-offs are dramatic changes in underwater sounds normally produced by sponge-associated animals. We tested whether soundscapes from healthy hardbottom habitat influenced larval recruitment, and then examined how hardbottom degradation and restoration with transplanted sponges affected underwater soundscapes and the recruitment of larval fishes and invertebrates. Larval assemblages recruiting to healthy areas were significantly different than those assemblages recruiting to either degraded or restored hardbottom areas. Fewer larvae recruited to degraded and restored areas compared to healthy hardbottom, particularly during the full moon. Experimental playback of healthy hardbottom soundscapes on degraded sites did not promote larval community differences although some individual species responded to the playback of healthy habitat soundscapes. These results indicate that habitat-associated soundscapes have idiosyncratic effects on larval settlement, which is diminished by the degradation of nursery habitat but can be reestablished with appropriate habitat restoration.
Highlights
IntroductionThe direct and indirect influences of anthropogenic disturbance have extensively altered earth’s environments for millennia, since the onset of the Industrial Revolution (e.g., Boivin et al, 2016)
More larval and postlarval fish and invertebrates recruited into healthy hardbottom habitat (4,079 total; 805 ± 165.0 [median ± m.a.d.]) than into degraded or restored hardbottom (3,278 and 3,034 total; 416 ± 157.0 and 366 ± 243.0, respectively) (Figure 2A); these differences were non-significant
We examined if habitat degradation and its restoration influenced larval recruitment into tropical hardbottom habitat and whether differences in underwater sound play a role in that process
Summary
The direct and indirect influences of anthropogenic disturbance have extensively altered earth’s environments for millennia, since the onset of the Industrial Revolution (e.g., Boivin et al, 2016). Human population density is three times higher in coastal than inland areas (Small and Nicholls, 2003), which focuses and exacerbates the effects of human habitation on estuarine and near-shore environments (Kennish, 2002). Anthropogenic stressors have degraded marine ecosystems, with nearly half of which affected by multiple stressors (Halpern et al, 2008). Coastal ecosystems are vulnerable (Lotze and Milewski, 2004), as are the vital ecological processes operating within them (Worm et al, 2006), such as productivity (Short and Wyllie-Echeverria, 1996) and the provisioning of shelter (Herrnkind et al, 1997). Few studies have examined the impact of habitat deterioration on the functioning of more enigmatic ecological phenomena - such as underwater soundscapes (Butler et al, 2016)
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