This manuscript focuses on the ecosystem and biodiversity response to wreck sites around Malta and Gozo at the molecular level. By collecting sediment samples around ten wreck sites from depths of 10 - 110 metres , we show how the microbial species diversity is influenced by certain environmental and anthropogenic factors associated with each wreck. From identifying factors that are influencing the microbial diversity across these 10 wreck sites that lie on the Maltese seabed, we have identified drivers that influence the microbial community across a range of depths, pressures and sediment types.. Deepening the Understanding of Wreck Ecology: A comparative study of marine sediment microbiomes across 10 Malta wreck sites.

The anthropogenic influences of historical shipwrecks in the marine environment remain largely uncharacterized, particularly when looking at wrecks ~100 metres deep that were lost over 100 years ago. Below 100 metres, light is reduced and the marine environment transitions from a euphotic to a mesophotic zone. At these depths, there are also significant changes in oxygen levels and pressure; these factors can contribute to a shift in microbial communities and metabolic pathways, providing insights into the adaptation and evolution of microorganisms. In this study, sediment samples were collected by a team of rebreather divers from across nine wreck sites varying in depth from 5 to 100 metres off the coast of Malta. All samples were collected with the proper prior informed consent and authorisation from the Government of Malta for the collection of marine genetic resources. The study used chemical analysis and metabarcoding to address how wrecks and associated influences shape microbial diversity and community composition in the surrounding environment. The alpha (ɑ) diversity of microbes was higher in the sediment next to the shipwrecks compared to the control samples taken over 100m away from any wreck sites. Across all 9 of the wreck sites studied, sediment size proved to be the biggest driver of diversity, followed by frame type and oil leaks. This study shows wrecks that range in depth, frame type and country of origin can significantly influence the surrounding microbial ecosystem and sediment chemistry across different sediment types.