The parts of the world’s oceans with the most varied mix of species are seeing the biggest impacts from a warming climate and commercial fishing, a new study warns
February 26, 2017 — The research, published in Science Advances, identifies six marine “hotspots” of “exceptional biodiversity” in the tropical Pacific, southwestern Atlantic, and western Indian Oceans.
Warming sea temperatures, weakening ocean currents and industrial fishing means these areas are at particular risk of losing many of their species, the researchers say.
From the cold depths of the Arctic waters to the colourful reefs of the tropics and subtropics, the oceans play host to tens of thousands of different species. But they are not evenly spread across the world.
Using data on 1,729 types of fish, 124 marine mammals and 330 seabirds, the new study estimates how varied the species are in each part of the oceans. They call this the species “richness”.
You can see this in the map from the study below. It shows an index of species richness, from the lowest (dark blue) to the highest (red).
From this process, the researchers identified six hotspots where the number and mix of species is exceptionally high. These are outlined in the map above.
The six hotspots are predominantly in the southern hemisphere. Three are closely packed together around southeast Asia (4), southern Australia and New Zealand (5), and the central Pacific Ocean (6). The other three are more spread out, covering Africa’s southeastern coastline and Madagascar (3), the Pacific waters of Peru and the Galapagos Islands (1), and the southwestern Atlantic ocean off the coast of Uruguay and Argentina (2).
The six hotspots for marine biodiversity are also areas that are seeing the biggest impacts of climate change, the researchers find.
The study maps these impacts by combining increases in sea surface temperature, slowing ocean currents, and declining ocean “productivity” since 1980 into a single metric.
These three impacts go hand-in-hand, explains lead author Dr Francisco Ramírez, a postdoctoral researcher at the Estación Biológica de Doñana in Spain. He tells Carbon Brief:
The map below shows these combined impacts across the world’s oceans, from a score of zero (no impact) shaded dark blue, to one (the largest impact) in red. You can see that some of the most affected areas overlap with the biodiversity hotspots from the previous map – particularly around southeast Asia and along South America’s coastlines.
The impacts won’t be the same in all of the hotspots, notes Dr Rick Stuart-Smith, a research fellow at the University of Tasmania, who wasn’t involved in the research but led a similar study in 2015. He explains to Carbon Brief:
On the other hand, the reef fishes in parts of the southwestern Pacific Ocean hotspot have distributions that suggest that many may in fact benefit from warmer waters.
There is also another pressure to consider – commercial fishing, the paper says:
The study identifies 30 countries that are responsible for around 80% of the commercial fishing in the Major Fishing Areas that cover the six marine hotspots. The biggest players include China, Peru, Indonesia, Chile and Japan.
This means that some of the most diverse regions of the world’s oceans are facing multiple threats, says Ramírez:
Protecting these hotspots will therefore need international cooperation on both climate change and sustainable fishing practises, the paper concludes:
It’s also important to note that conservation efforts are still needed in other areas of the oceans, even if they aren’t home to lots of species, says Dr Jorge García Molinos, assistant professor in the Arctic Research Centre at Hokkaido University, who wasn’t involved in the study. He tells Carbon Brief:
For example, research has shown that the location of biodiversity hotspots can be different depending on whether the focus is on the number of species, what those specific species are, and the role they play in that ecosystem. As a result, the species richness approach often overlooks some other important habitats, notes Molinos: