Ecological role of marine mammals in the Magellan Strait: Insights from trophic modeling

•Marine mammals occupied the third and fourth trophic levels and fed on prey from 20 functional groups.•Killer whales played the ecological role of key species, controlling the biomass of large predators.•South American sea lions had a high trophic impact on the ecosystem groups’ biomass.•Humpback w...

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Bibliographic Details
Published in:Ecological modelling 2025-02, Vol.501, p.110944, Article 110944
Main Authors: Haro, Daniela, Labra, Fabio A., Neira, Sergio, Hernández-Padilla, Juan Carlos, Arreguín-Sánchez, Francisco
Format: Article
Language:English
Subjects:
Food web model
Humpback whales
Impact trophic
Killer whale
Network
South American sea lions
Trophic role
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Summary:•Marine mammals occupied the third and fourth trophic levels and fed on prey from 20 functional groups.•Killer whales played the ecological role of key species, controlling the biomass of large predators.•South American sea lions had a high trophic impact on the ecosystem groups’ biomass.•Humpback whales are the main consumer of Fuegian sprats and squat lobsters.•High trophic level organisms feed on a greater prey diversity and had either few or no predators. Predators, such as marine mammals, impact the structure and functioning of marine communities. Due to their energy requirements, the wide variety of prey and the diversity of ecological niches they occupy, these organisms exert effects on diverse ecosystems. To evaluate the ecological role and trophic impact of the marine mammals in the Magellan Strait, Chile, we built a food web model using the Ecopath software. In this system, marine mammals occupied the third and fourth trophic levels and fed on prey from 20 functional groups, from zooplankton (i.e., sei whales, dolphins) to sea lions and seabirds (i.e., killer whales). Killer whales played the ecological role of key species in this ecosystem, potentially controlling the biomass of large predators and explaining 100 % of their mortality caused by predation. This potential control favored a biomass increase of fish such as salmon (52 % of their biomass), silverside (45 %) and Patagonian robalo (42 %). South American sea lions had a high trophic impact on the ecosystem groups’ biomass, being a significant predator of salmon (76 % mortality). The results support the hypothesis that humpback whales are the main consumer of Fuegian sprats and squat lobsters, with 43 % and 40.7 % of the total prey consumption, respectively. Trophic generality significantly and directly correlated with the trophic level of consumers (t = 5.92; r = 0.78, p < 0.001), demonstrating that high trophic level organisms feed on a greater prey diversity. Trophic vulnerability and trophic level presented a significant inverse correlation (s = 3883.2; ρ = -0.69; p < 0.001), indicating that functional groups at higher trophic levels had either few or no predators in the Magellan Strait ecosystem. The results do not allow us to conclude that higher trophic-level organisms have a greater impact on the food web. We suggest that the trophic impact is related to multiple factors like predator biomass, feeding habits and prey biomass consumption in a particular system. This study is the fi
ISSN:0304-3800
DOI:10.1016/j.ecolmodel.2024.110944