Climate change impact greater on marine systems in temperate regions

Long-term study of the temperate regions of the Earth reveals that marine biodiversity has increased due to the rising temperature in most locations. Terrestrial environment seems to be less directly affected by temperature change.

A study led by scientists from the Universities of Helsinki, St Andrews and Radboud University in the Netherlands, in collaboration with other international researchers, revealed clear biodiversity responses to temperature change in marine systems. Warming coincided with increases in the number of species in most locations.

The study focused only on the temperate regions of the globe, since monitoring data from polar and tropical regions remains scarce.

The data showed that increases in the number of marine species were more pronounced in warmer areas, where, on the other hand, the numbers of individuals tended to decrease with warming. These increases in the number of species are likely caused by the influx of climate migrants from species-rich warmer regions.

The international team used 21,500 biodiversity time series from temperate regions around the globe from the BioTIME database, measuring the change in the number of species and in the total number of organisms through time. The research team then related these changes with air and ocean temperature changes over the same time periods in each location.

Surprisingly the study did not detect any systematic responses on land, despite a larger increase in temperature, but this is not to say that temperature change is not affecting terrestrial biodiversity.

This may be because species on land have wider tolerance and more strategies to avoid warming temperatures compared to ocean organisms. For example, land-based organisms have access to small pockets of suitable climate even if the wider region is warming substantially. However, the findings also suggest that terrestrial species might be lagging behind and not keeping pace with temperature change, which is known as a “climatic debt”.

Lead researcher Laura Antão, from the Research Centre for Ecological Change at the University of Helsinki, said: “We know that biodiversity change is a complex phenomenon, and that temperature is a major factor affecting species distributions and survival. Our study provides a clear picture of the change in the numbers of species and individuals against changes in temperature, where we see mostly gains in the ocean coinciding with warming in these temperate locations. But we also see nuance in the responses, and this is very valuable, as it shows that biodiversity change is not the same everywhere."

“Our study is only possible by leveraging the effort of countless scientists collecting and sharing their data. It highlights how important it is to maintain and expand monitoring efforts, particularly for areas and groups of species for which we still have very sparse data. As we add more and more pieces describing how ocean and land biodiversity responses are different, further studies are needed to understand what might explain these differences.”, continued Laura Antão.


Laura H. Antão, Amanda E. Bates, Shane A. Blowes, Conor Waldock, Sarah R. Supp, Anne E. Magurran, Maria Dornelas & Aafke M. Schipper. Temperature-related biodiversity change across temperate marine and terrestrial systems. Nature Ecology and Evolution. 4 May 2020