Fishing alters fish behaviour and features in exploited ecosystems

December 16, 2020

Not all specimens of the same species are the same: there is a marked variability within the same population and sometimes these morphological differences are translated into a different behaviour.

A study by the UB shows that fishing alters resource distribution and therefore, the behaviour of two typologies of the same fish species, Labrus bergylta. These results, published in the journal Marine Ecology Progress Series, show that fishing hardens the understanding of how the features of species have evolved in exploited ecosystems, since it has an impact on how these act and feed from animals. Also, results ratify the importance of marine reservoirs to understand the original behaviour of these ecosystems before human intervention.

The article is signed by Lluís Cardona, Àlex Aguilar and Fabiana Saporiti researchers from the Department of Evolutionary Biology, Ecology and Environmental Sciences and the Biodiversity Research Institute (IRBio) of the University of Barcelona. Experts from the Spanish Institute of Oceanography and the University of Essex (United Kingdom) also took part in the study.

The existence of different forms of the same species, called morphotypes, is frequent in vertebrate animals and depends to a large extent on the abundance of available preys during the first years of life, as well as on the competition with other congeners. To find out if two morphotypes of the same species differ in the use of resources and if this diversity is affected by fishing, the UB team launched a study on Labrus bergylta, a fish in the order of Perciformes and the family of the wrasses, very common on the northern coasts of the Iberian Peninsula and on the Atlantic coasts of Europe.

The researchers compared the middle patterns of use and the feeding of two morphotypes of this fish, one plain and the other with spots, in two different habitats: in the Cíes Islands (Vigo), a protected marine area where recreational fishing is not allowed, and in contiguous areas open to fishing. With this aim, they first studied visually the number of specimens of each morphotype in the two areas and then used stable isotope analysis techniques of carbon and nitrogen to find out the differences in the type of feeding.

Fishing exploitation hardens the understanding of original trophic niches

The results show that the two morphotypes differ consistently in their use of the habitat both inside and outside the marine reserve, but only in the marine reserve do they also differ in their diet. According to the researchers, this is because of fishing: by reducing the size of the population, it reduces intraspecific competition. "The distribution of resources between these two varieties depends on the density, so the current behavior in areas open to fishing is not informative about their original trophic niches. This shows that many of the features that we see in exploited wild species may have more to do with that exploitation and not with adaptations to the natural environment, since it has been transformed by humans", says Lluís Cardona.

These conclusions show the importance of protected areas to understand the behavior of marine species. "Comparing the biology of the species inside and outside the marine reserves and other protected areas allows us to understand the changes in the biology of the exploited species, which otherwise would not be clear", highlights Lluís Cardona.

Given the situation, the authors point out the importance of analyzing how these changes are transferred to the rest of the trophic web and see if the same happens with other species in other regions. "This is particularly relevant for the North Atlantic Ocean, where a century of intense human exploitation has decimated the populations of most long-lived marine species", concludes the researcher.

University of Barcelona

Related Biology Articles from Brightsurf:

Experimental Biology press materials available now
Though the Experimental Biology (EB) 2020 meeting was canceled in response to the COVID-19 outbreak, EB research abstracts are being published in the April 2020 issue of The FASEB Journal.

Structural biology: Special delivery
Bulky globular proteins require specialized transport systems for insertion into membranes.

Cell biology: All in a flash!
Scientists of Ludwig-Maximilians-Universitaet (LMU) in Munich have developed a tool to eliminate essential proteins from cells with a flash of light.

A biology boost
Assistance during the first years of a biology major leads to higher retention of first-generation students.

Cell biology: Compartments and complexity
Ludwig-Maximilians-Universitaet (LMU) in Munich biologists have taken a closer look at the subcellular distribution of proteins and metabolic intermediates in a model plant.

Cell biology: The complexity of division by two
Ludwig-Maximilians-Universitaet (LMU) in Munich researchers have identified a novel protein that plays a crucial role in the formation of the mitotic spindle, which is essential for correct segregation of a full set of chromosomes to each daughter cell during cell division.

Cell biology: Dynamics of microtubules
Filamentous polymers called microtubules play vital roles in chromosome segregation and molecular transport.

The biology of color
Scientists are on a threshold of a new era of color science with regard to animals, according to a comprehensive review of the field by a multidisciplinary team of researchers led by professor Tim Caro at UC Davis.

Kinky biology
How and why proteins fold is a problem that has implications for protein design and therapeutics.

A new tool to decipher evolutionary biology
A new bioinformatics tool to compare genome data has been developed by teams from the Max F.

Read More: Biology News and Biology Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to