living on the edge

Fish that change their distribution towards the poles due to climate change are declining in abundance

Lipstick of the species Labrus bergylta at the edge of its warm distribution on the shores of the eastern Atlantic Ocean (Photo: Shahar Chaikin)
Lipstick of the species Labrus bergylta at the edge of its warm distribution on the shores of the eastern Atlantic Ocean (Photo: Shahar Chaikin)

A comprehensive international study led by a team of researchers from Tel Aviv University presents a worrying picture regarding the future of many fish species. According to the study, following global warming and the rise in temperatures on Earth, many species of fish are moving rapidly towards the poles, with the aim of maintaining the temperature range that allows their existence, but the rate of migration varies greatly between species, and those that move faster towards the poles - diminish faster in numbers. According to the alarming findings, on average, during a migration of 17 km towards the poles, about half of the population may disappear.

moving fish

The international research was conducted under the leadership of doctoral student Shahar Chaikin and Prof. Yonatan Belmakar from the School of Zoology in the George S. Wise Faculty of Life Sciences, and the Steinhardt Museum of Nature at Tel Aviv University. The study was published in the prestigious journal Nature Ecology & Evolution.

The new study for the first time connected two global databases: a meta-study conducted on the question of change in the frequency of fish populations over time, and a meta-study conducted on the question of the rate of migration of fish species towards the poles. In total, after connecting the databases, 2,572 fish populations from 146 species were examined, most of them from the Atlantic and Pacific oceans in the Northern Hemisphere.

"We know that animals move from their place due to climate change, north, south, up, down, depending on their position in relation to the cooler regions. In the mountains they rise up, in the sea they sink down, in the southern hemisphere they migrate south towards Antarctica and in the northern hemisphere they migrate north towards the North Pole. But in the research At present we were interested in the question of what happens to those species that migrate, we did not know if those who migrate benefit because they survive or It was damaged in the transition, and initially moved because it is more sensitive. Unfortunately, we found that the more fish migrate towards the poles - the more their frequency decreases and they apparently have difficulty adapting to the new place," explains Prof. Balmkar.

Leucoraja ocellata species photographed at the cold end of its range, Labrador Sea, Newfoundland, Canada. (Photo: Shahar Chaikin)
Leucoraja ocellata species photographed at the cold end of its range, Labrador Sea, Newfoundland, Canada. (Photo: Shahar Chaikin)

Relocation is dangerous

"As part of the research, we combined two large databases: one examined the speed of changes in distribution among fish, and the other examined frequency changes of local fish populations over decades. We found that species that respond faster to change are actually in greater danger," explains Shahar Chaikin. "Additionally," he says, "each population of a species, for example the lightning, has a certain spatial distribution. Some populations are closer to the polar side and some are closer to the equatorial side of the species' distribution. It could be assumed that the populations closer to the polar and cooler edges of the distribution area would be less affected as a result of climate change, but we found the opposite to be true: rapid poleward distribution shifts among populations from higher latitudes resulted in to a faster decrease in the prevalence of the species compared to equatorial populations of the same species."

According to the researchers, the new findings can and should guide the decision makers regarding the better management of those species and populations, by re-examining their conservation status in the light of climate change. Polar populations of species that move rapidly towards the poles need close monitoring and examination of options to minimize pressures that threaten their survival, for example fishing restrictions.

"We have gotten used to thinking that if a species migrates, it means that it is not in danger. This is not true. It turns out that it is these species that should be given special attention. Last year, another study of ours was published that examined local fish species here on the coasts of Israel and made similar findings: species that go deeper into the sea due to warming , are characterized by a declining population. In the next step, we intend to test this causal relationship in other species as well, which are not fish," concludes Prof. Belmakar.

More of the topic in Hayadan:

135
Photo of Tel Aviv University

Tel Aviv University

For all the author's articles