Abstract
Sponges act as important microhabitats in the marine environment and promote biodiversity by harboring a wide variety of macrofauna, but little is known about the magnitude and patterns of diversity of sponge-associated communities. This study uses DNA barcoding to examine the macrofaunal communities associated with Stylissa carteri in the central Saudi Arabian Red Sea, an understudied ecosystem with high biodiversity and endemism. In total, 146 operational taxonomic units (OTUs) were distinguished from 938 successfully-sequenced macrofauna individuals from 99 sponges. A significant difference was found in the macrofaunal community composition of S. carteri along a cross-shelf gradient using OTU abundance (Bray–Curtis dissimilarity index), with more amphipods associated with offshore sponges and more brittle stars and fishes associated with inshore sponges. The abundance of S. carteri also showed a gradient, increasing with proximity to shore. However, no significant differences in macrofaunal community composition or total macrofauna abundance were observed between exposed and sheltered sides of the reefs and there was no significant change in total macrofauna abundance along the inshore–offshore gradient. As climate change and ocean acidification continue to impact coral reef ecosystems, understanding the ecology of sponges and their role as microhabitats may become more important for understanding their full ramifications for biodiversity.
Highlights
Tropical coral reefs are among the most diverse ecosystems on the planet
The results of this study provide valuable information concerning the role of S. carteri as a host and its potential role in promoting or maintaining biodiversity in these coral reef systems
The study was conducted on coral reefs of the central Red Sea, off the coast of Thuwal, Saudi
Summary
Tropical coral reefs are among the most diverse ecosystems on the planet. Studying biodiversity in these environments is important for gaining knowledge about the variety of organisms present, and for understanding how the environment shifts and is affected by climate change and Diversity 2019, 11, 18; doi:10.3390/d11020018 www.mdpi.com/journal/diversityDiversity 2019, 11, 18 anthropogenic stresses. Tropical coral reefs are among the most diverse ecosystems on the planet. Studying biodiversity in these environments is important for gaining knowledge about the variety of organisms present, and for understanding how the environment shifts and is affected by climate change and Diversity 2019, 11, 18; doi:10.3390/d11020018 www.mdpi.com/journal/diversity. Recent studies show that between 33 and 91 percent of marine species are currently undescribed [1,2], making baseline data for studies involving environmental change very difficult to obtain. The majority of these undescribed species are invertebrates from tropical coastal environments [2]. Sponges are often dominant members of sessile macrobenthos, but they are often overlooked in biodiversity studies (or lumped into very coarse taxonomic groups) because they are character-poor and typically require microstructural study for identification, are taxonomically challenging [3,4].
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