Physiological winners and losers in an ocean warming hotspot: a Case study on argyrosomus off the Namibian coast, with implications for their future management

Pringle, Brett Andrew

Title: Physiological winners and losers in an ocean warming hotspot: a Case study on argyrosomus off the Namibian coast, with implications for their future management
Creator: Pringle, Brett Andrew
Subject: Argyrosomus Benguela Current
Subject: Ocean temperature Benguela Current
Subject: Sciaenidae Benguela Current
Subject: Argyrosomus Physiology Benguela Current
Subject: Argyrosomus Geographical distribution Climatic factors Benguela Current
Subject: Argyrosomus Effect of temperature on Benguela Current
Subject: Sciaenidae fisheries Namibia
Subject: Fishery management Namibia
Subject: Sustainable fisheries Namibia
Date Issued: 2021-10
Date: 2021-10
Type: Masters theses
Type: text
Identifier: http://hdl.handle.net/10962/188987
Identifier: vital:44804
Description: Anthropogenic-induced climate change is having a profound impact on aquatic ecosystems, and the resilience of fish populations will be determined by how they respond to these impacts. Changes in ocean water temperature is regarded as the most pervasive change, and affects the biological, physiological and distribution response of species, particularly ectotherms. The increasingly variable biological responses to a changing environment suggest that some species and populations will likely prove to be more tolerant than others. The northern Namibian coast is an ocean warming hotspot, with temperatures rising at approximately ten times the global average. These rapid changes are predicted to have a considerable impact on the marine fauna. One recently documented change in distribution is a southern extension of the sciaenid, Argyrosomus coronus, from southern Angola into northern Namibian waters, where it now overlaps with the closely related Namibian species, Argyrosomus inodorus. Understanding how these species perform at current and future temperatures and where they overlap is vital to optimise any adaptive management for the Argyrosomus species, which forms a large component of Namibia’s coastal commercial, recreational and subsistence fisheries. The aim of this study was to quantify the aerobic scope of both species (A. coronus and A. inodorus), to determine which Argyrosomus species will be a winner at the current and future climate predictions and to provide recommendations for the sustainable management of the Namibian Argyrosomus fishery. Intermittent flow-through respirometry was used to quantify standard and maximum metabolic rates for both species across a range of temperatures. Results showed that metabolic rates scaled positively with temperature. It appears that the aerobic scope of A. inodorus was notably higher at most temperatures (12, 15, 18 and 21˚C), while that of A. coronus was only higher at the warmest test temperature of 24˚C. This corresponded with the contemporary biogeographic patterns of each species. Based on these findings, it is likely that the warming ocean conditions in northern Namibia and the cold Lüdertiz upwelling cell south of Walvis Bay will constrain these fish to central Namibia. While both species demonstrated signs of resilience to high temperatures, it is likely that the warming conditions will increasingly favour A. coronus, and that the leading edge of their distribution will shift southward in Namibia. The distribution of A. inodorus is likely to contract, as the energy budget of those on the northern trailing edge will be compromised. To promote the sustainable utilisation of the complex Argyrosomus fishery, adaptive management strategies need to be implemented. This will only be possible with a comprehensive monitoring program, including the collection of genetic data to inform the changing proportions of the two species. To maintain the A. coronus population, the current regulations need to be re-assessed, and harvest slots should be introduced to protect juvenile A. coronus and the fecund large females of both species.
Description: Thesis (MSc) -- Faculty of Science, Ichthyology and Fisheries, 2021
Format: computer
Format: online resource
Format: application/pdf
Format: 1 online resource (97 pages)
Format: pdf
Publisher: Rhodes University
Publisher: Faculty of Science, Ichthyology and Fisheries
Language: English
Rights: Pringle, Brett Andrew
Rights: Attribution 4.0 International (CC BY 4.0)
Rights: Open Access

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