The answers to what lies ahead for the world’s changing climate could be found in the bones of marine life from the past. While this may sound like an oddly specific reading from a fortune cookie, it’s exactly what a groundbreaking study led by Australian scientists discovered when looking for new means to monitor global environmental change.

Researchers from the University of South Australia (UniSA) have found that by peering – quite literally – into the jaws of history, they have been able to analyse chemical ‘fingerprints’ left within the teeth, bones, and even shells of aquatic organisms for a glimpse at the future of both environmental and climate change.

By taking a closer look at various ‘understudied’ marine species, the project – led by scientists at UniSA but combining the work of experts from universities across Canada, Croatia, and the UK – has been able to extract historical records of the environment from species it refers to as ‘natural data loggers’.

“Many aquatic organisms – like whales, seals, octopus, and even algae – harbour chemical fingerprints that can give us a record of the environment over time, from historical water temperatures, pollution levels, and ecosystem health,” said Dr Zoe Doubleday who led the study on behalf of UniSA’s Future Industries Institute.

“But they can also be used to predict the future.”

Using a technique called chemical sclerochronology – the study of periodic physical and chemical features in the hard tissues of animals that grow by accretion, including invertebrates and coralline red algae – “ready-made” archival data can be extracted efficiently and at a fraction of the cost of more traditional methods of environmental and climate data collection.

“Unlike traditional environmental monitoring, which can be costly and time consuming, or simply impossible, these organisms provide cheap, ready-made data,” said Dr Doubleday.

By studying this collection of “under-appreciated” organisms, ranging from sponges and barnacles to marine mammals and “everything in between”, the research team was able to compile an extensive database while its analysis has uncovered “huge gaps” in the current research landscape.