Climate change is forcing marine species to migrate across hostile coastal environments. Using environmental DNA from seawater, this research demonstrates a powerful new way to detect and monitor biodiversity, revealing hundreds of species per sample. eDNA offers a scalable, sensitive tool for tracking ecosystem change and guiding conservation in rapidly changing marine environments.

Toxoplasma gondii is a widespread parasite introduced to New Zealand via cats and increasingly threatens native wildlife. This research conducts the first national survey of toxoplasmosis in native birds, identifying infection prevalence, affected organs, and ecological risk factors to better understand its impact on biodiversity.

This research uses helicopter surveys to study javelina habitat use in South Texas. By mapping sightings and woody vegetation cover, it reveals that javelinas prefer dense thornscrub environments. The findings support improved wildlife management and help distinguish native javelinas from invasive wild pigs.

This research investigates fragmented alpine salamander populations across the Dinarides to understand their evolutionary history, local adaptation, and vulnerability. By analysing poison levels, water-loss resistance, environmental differences, and future climate suitability, the study aims to reveal how habitat shapes amphibian evolution and provide essential data for conserving the ancient Salamandra atra prenjensis lineage.