“The rapid decline of coral reefs has increased the need for exploring interdisciplinary methods for reef restoration,” explains Natalie Levy, a Ph.D. student at Bar-Ilan University in Ramat Gan, Israel. “Examining how to conserve the biodiversity of coral reefs is a key issue, but there is also an urgent need to invest in technology that can improve the coral ecosystem and our understanding of the reef environment.” In a paper published in the journal Science of the Total Environment, researchers from four of Israel’s leading universities highlight a three-dimensional printing method they developed to preserve coral reefs. Their innovation is based on the natural structure of coral reefs off the southern coastal Israeli city of Eilat, but their model is adaptable to other marine environments and may help curb reef devastation plaguing coral ecosystems around the world. The final stage is the translation and production of a ceramic reef in 3D printing. “Existing artificial reefs have difficulty replicating the complexity of coral habitats and hosting reef species that mirror natural environments. We introduce a novel, customizable 3D interface for producing scalable structures, utilizing real data collected from coral ecosystems,” explains Levy. The second is the recreation of a natural complexity of the coral reef, both in size and design, that will attract reef species such as fish and invertebrates that support the regrowth of natural coral reefs.

Read the full article at JNS.org