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In the most comprehensive global analysis of genetic diversity ever undertaken, an international team of scientists has found that genetic diversity is being lost across the globe but that conservation efforts are helping to safeguard species.

The landmark study, in Nature, was led by Associate Professor Catherine Grueber from the School of Life and Environmental Sciences and a team of researchers from countries including the UK, Sweden, Poland, Spain, Greece and China.

The data spans more than three decades (from 1985鈥�2019) and looks at 628 species of animals, plants and fungi across all terrestrial and most maritime realms on Earth.

Two-thirds of the populations analyzed are declining in genetic diversity, but conservation efforts designed to improve environmental conditions, grow populations and introduce new individuals for breeding鈥攆or example, habitat restoration and animal translocations鈥攁re sustaining鈥攁nd in some cases increasing鈥攇enetic diversity in populations.

Associate Professor Grueber said, "There is no getting around the fact that biodiversity is declining at unprecedented rates across the globe鈥攂ut there are glimmers of hope. The action of conservationists is reversing these losses and helping to create genetically diverse populations that can better meet the challenges of the future."

The team of scientists used innovations in genetic analysis to gain new insights from studies carried out decades ago. Creating a common measurement scale, they were able to make comparisons between studies, even when they used different methodologies and collected genetic data in different ways.

"This kind of comprehensive global study would not have been possible even 10 years ago," Associate Professor Grueber said. "Advances in genetics and statistics have given us new tools that mean we can continue to learn from studies long after they were carried out鈥攁 huge benefit when we are looking at populations and trends on a global scale."

Conservation efforts that could improve or maintain genetic diversity include translocations鈥攚here animals are moved between populations to benefit a species or ecosystem鈥攈abitat restoration, population control鈥攚here some individuals are removed to improve conditions for those that remain鈥攁nd controlling feral or pest species.

Successes include the reintroduction of the , the release of from captive breeding programs in Scandinavia, translocation of into existing populations in North America, and the effective treatment of disease within , which has improved the health of colonies in north-central Montana in the US.

The authors hope the findings will encourage more conservation efforts and lead to increased protections for populations that are currently not managed.

Co-first author Dr. Robyn Shaw, from the University of Canberra, said, "Despite successes, we can't be complacent. Two-thirds of the populations analyzed are facing threats, and among these populations less than half received any kind of conservation management. It's vital that we learn from what is working so that we can protect species in the long-term."