Project Results

After a year or so of work on the project, I am happy to announce that we have posted the preprint of the first paper that uses the data funded by my backers! This study combines our data with publicly available data to investigate the patterns of genome evolution experienced by bacteria that have transitioned from a free-living life history strategy to living inside of sponges.

About This Project

My project tests the hypothesis that microbiomes drive ecological differences among three new sponge species (Ircinia spp.). To test this hypothesis, I will sequence the metagenomes of 21 sponges (n=7 for each species) to infer how ecologically impactful processes differ among the new species. By describing the ecological relevance of these new sponge species, my project can help advocate for their protection, the preservation of ecological diversity, and ultimately the health of coral reefs.

Ask the Scientists

What is the context of this research?

Species descriptions are often limited to comparisons of anatomical features. This approach is not suitable for many groups of organisms, including sponges, because they have relatively few complex traits. I developed a species delimitation pipeline to circumvent this obstacle, which successfully identified evidence of reproductive isolation among Caribbean members of the genus Ircinia using the hosts’ genetics and 16S rRNA data. This study formed the foundation for my current project as it discovered that the five Ircinia species, three of which are new to science, all host distinct microbiomes. I now seek to bring ecological relevance to these new species by using metagenomics to infer the physiological processes performed by their microbiomes.

What is the significance of this project?

It is no secret that coral reefs are under threat due to human activities and that we must act now to preserve the immense biological diversity that they support. Protection of coral reefs benefits from a thorough understanding of the biological processes that are being performed by their inhabitants. The microbiomes of sponges are involved in geochemical cycles that help maintain favorable environmental conditions for other coral reef inhabitants. Additionally, they produce chemicals that can be used in industrial and medicinal applications. My research will illuminate what ecological functions are being performed by the microbiomes of three new sponge species and will help demonstrate that there is much hidden diversity on coral reefs deserving protection.

What are the goals of the project?

I discovered and described the three new sponge species mentioned above, so I already have the specimens required for this study in hand. The publication detailing the results of the species delimitation study is in preparation.

The overarching goals of my current research project are to describe how microbiomes drive ecological differences among the three new sponge species and to investigate the contributions of these new species ecological processes on coral reefs. For each species, I will sequence the metagenomes of seven specimens (totaling 21 samples). These metagenomes represent the microbial DNA present in a specimen and will allow me to infer which biological processes are occurring in each species and how they may be impacting other coral reef organisms.