Spearfishing makes fishes more timid
Fisheries scientists from the Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB) and international colleagues have studied the response of fish in the Mediterranean Sea to spearfishing. The fish are able to finely discriminate if divers carry a speargun or not. They adjust their escape behaviour and keep a safe distance outside the shooting range. This is good for the fish and a challenge for the spearfisher.
The research team from Germany, Italy, France and Spain observed the behaviour of five coastal fish species in three areas of the Mediterranean Sea – within and outside areas protected to spearfishing. The field study involved simulating a harmless diver on the surface simply carrying fins, but no speargun, and divers carrying spearguns. The response of the fish strongly depended on the size of the fish, what type of diver was seen and whether the encounter was within or outside the protected area. “The more dangerous the situation, the stronger the behavioural response,” states Dr. Valerio Sbragaglia, scientist in the Integrative Recreational Fisheries Management research group at the Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB).
The ‘flight initiation distance’ was used as behavioural indicator of fish timidity. This measure is defined as the distance a predator can approach a prey before the prey flees. Outside protected areas the large fish started fleeing if a diver with speargun approached at far distance from the water surface. “Large fish are typically preferred by spearfishers, and hence their stronger response to the threat was expected. What was less expected is how fine the fish tune their behaviour to whether the diver carries a speargun or not. This discriminatory ability was evident especially in spearfishing target-fish species,” explains Dr. Lorenzo Morroni, co-author conducting fish surveys at the Italian Institute for Environmental Protection and Research (ISPRA). The fish timidity towards the spearfishers was commensurate to the species-specific historical harvesting pressure.
Fish behavioural responses similar to the ones of the spearfishing study have also been found in previous studies when fish were exposed to other fishing gears like hook-and-line fishing. “Based on our collective work we propose that fisheries leave a strong legacy in fish behaviour, leading to behavioural adaptations that complicate catching. Knowing this is important for stock monitoring: a fisheries-induced timidity that reduces catchability means that we catch fewer fish than are actually in an area,” summarises co-author Prof. Dr. Robert Arlinghaus, who studies and teaches sustainable fishing at IGB and the Humboldt University of Berlin, the meaning of the results.
Read the study in the ICES Journal of Marine Science > https://doi.org/10.1093/icesjms/fsy059
Valerio Sbragaglia, Lorenzo Morroni, Lorenzo Bramanti, Boris Weitzmann, Robert Arlinghaus, Ernesto Azzurro, Handling editor: Erika J. Eliason (2018) Spearfishing modulates flight initiation distance of fishes: the effects of protection, individual size, and bearing a speargun. ICES Journal of Marine Scienc. DOI: 10.1093/icesjms/fsy059
Dr. Valerio Sbragaglia, +39 329 3231630, firstname.lastname@example.org (Interviews in Italian and English)
Prof. Dr. Robert Arlinghaus, Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB), Department 4 Biology and Ecology of Fishes, +49 (0)30 64181 653, email@example.com, www.ifishman.de (Interviews in German and English)
Katharina Bunk, Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB), Public Relations, +49 (0)30 641 81 631, +49 (0)170 45 49 034, firstname.lastname@example.org
Photos: David Mandos, email@example.com
About the Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB):
Work at IGB combines basic research with preventive research as a basis for the sustainable management of freshwaters. In the process, IGB explores the structure and function of aquatic ecosystems under near-natural conditions and under the effect of multiple stressors. Its key research activities include the long-term development of lakes, rivers and wetlands under rapidly changing global, regional and local environmental conditions, the development of coupled ecological and socio-economic models, the renaturation of ecosystems, and the biodiversity of aquatic habitats. Work is conducted in close cooperation with universities and research institutions from the Berlin-Brandenburg region as well as worldwide. IGB is a member of the Forschungsverbund Berlin e.V., an association of eight research institutes of natural sciences, life sciences and environmental sciences in Berlin. The institutes are members of the Leibniz Association. http://www.igb-berlin.de/en