Thermal preference, tolerance, and thermal aerobic scope in clownfish Amphiprion ocellaris (Cuvier, 1830) predict its aquaculture potential across tropical regions

Velasco-Blanco, Gabriela; Re, Ana Denise; Dı́az, Fernando; Ibarra‐Castro, Leonardo; Parra, María Isabel Abdo-de la; Rodríguez-Ibarra, L. Estela; Rosas, Carlos

doi:10.1007/s40071-019-0228-7

Cited by 10 publications

(9 citation statements)

References 60 publications

(63 reference statements)

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“…The sub-tropical wideband anemonefish, Amphirion latezonatus, exhibited a maximum specific growth rate between 22-23°C, which is consistent with the sub-tropical distribution of this species (Rushworth et al 2011). For A. ocellaris, the preferred temperature ranged from approximately 27-32°C depending on the holding temperate of the fish (from 20-35°C), while aerobic metabolic performance was maintained across 23-32°C (Velasco- Blanco et al 2019), consistent with the tropical distribution of this species. Overall, this work suggests that juvenile anemonefishes may be relatively robust to ocean warming, with no performance declines up to 32°C.…”

Section: Juvenile Developmentsupporting

confidence: 70%

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Evolution, Development and Ecology of Anemonefishes

Laudet¹,

Ravasi²

2022

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Anemonefishes, one of the most popular and recognizable fishes in the world, are much more than film characters; they are also emerging model organisms for studying the biology, ecology, and evolution of coral reef fishes. They are a group of 28 species often employed to study patterns and processes of social organization, intra-and inter-specific competition, sex change, mutualism, dispersal and connectivity of fish populations, habitat selection, pigment pattern formation, lifespan, and predator-prey interactions. This multi-authored book covers all these areas and provides an update on the research done with this model and the perspective it opens for the future. Key Features• Contains basic and up-to-date information on an emerging fish model • Allows non-specialist readers to grasp the relevance of a wide research area Cover photo: OIST/Kina Hayashi 林希奈 Licensed under CCBY4.0 (attribution) First edition published 2023 by CRC Press

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Section: Juvenile Developmentsupporting

confidence: 70%

“…However, these estimates of thermal sensitivity are far lower than estimates that would be extrapolated from critical maximum limits, with the critical maximum for A. ocellaris 3. 7-8.1°C warmer (35.7-40.1°C;Paschke et al 2018;Velasco-Blanco et al 2019).…”

Section: Juvenile Developmentmentioning

confidence: 99%

Evolution, Development and Ecology of Anemonefishes

Laudet¹,

Ravasi²

2022

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“…Physiological condition and species-specific metabolic rates (resting, routine, or maximum metabolic rates, Ikeda, 2016) may be determinant factors explaining interspecific variation in survival/mortality, as these determine uptake and elimination rates of contaminants (Mason, 2002). For instance, juvenile clownfish have a resting metabolic rate of approximately 1 mg O 2 h −1 g WW −1 , while their maximum metabolic rate can reach over 5 mg O 2 h −1 g WW −1 (23-32 • C) (Paschke et al, 2018;Velasco-Blanco et al, 2019). However, Chromis species can have resting metabolic rates in the order of 0.2-0.5 mg O 2 h −1 g WW −1 and maximum metabolic rates between 1.5 and 2 mg O 2 h −1 g WW −1 (Johansen and Jones, 2011;Nadler et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Synergistic Effects of Ocean Warming and Cyanide Poisoning in an Ornamental Tropical Reef Fish

et al. 2020

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An array of anthropogenic pressures is affecting tropical ecosystems, posing major conservation challenges for scientists, stakeholders and populations. Illegal cyanide fishing is one of the major threats to Indo-Pacific coral reefs, targeting a multitude of colorful species for the marine aquarium trade as well as large-sized groupers and wrasses for the food fish trade. Ultimately, the continued use of this destructive practice as oceans warm may overload tropical ecosystems and result in irreversible ecological damage. Here we show that the impact of cyanide poisoning in an ornamental tropical marine fish is magnified under increased temperatures. A sole pulse exposure of 60 s to 50 mg L −1 of cyanide under current temperature (26 • C) caused substantial mortality (50-100%) in eight species of Pomacentridae. The clownfish Amphiprion ocellaris was the most resistant, especially medium-sized fish [average total length and weight of 38 mm and 1.12 g; LC 50 (95% CI) = 50.00 (46.76 − 53.24) mg L −1 ] that showed shorter recovery times and higher survival rates (%) when compared to small-sized ones [average total length and weight of 25 mm and 0.30 g; LC 50 (95% CI) = 28.45 (20.17 − 36.72) mg L −1 ]. However, when the most resistant size-class was concomitantly exposed to a sub-lethal dosage of cyanide (25 mg L −1 instead of 50 mg L −1 ) and ocean warming scenarios for 2100 (+3 • C and heat wave +6 • C), survival rates (%) decreased to 60 and 20%, respectively, and recovery times increased in the worst case scenario. Mortality outbreaks, as well as vulnerability to predation, will likely expand in fish inhabiting coral reefs exposed to cyanide fishing unless stronger conservation measures are taken in tropical reefs to limit this destructive practice now and in the oceans of tomorrow.

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“…Understanding the ability of prawns to tolerate hypoxia is therefore crucial, especially for species of ecological and commercial importance. Hypoxia can be particularly acute in tropical zones during the dry season and warmer months, when the decomposition of organic matter consumes DO and the density-driven stratification of the water column isolates bottom water from oxygen-rich surface water (Bishop et al, 2006;Tyler et al, 2009); this situation is probably worse in polluted waters. The effects of short-term hypoxia (6 days) were evaluated through haemolymph physiology in Macrobrachium rosenbergii (De Man, 1879), a relative of M. tenellum, in an attempt to gather useful information on the proper management of its aquaculture environment (Cheng et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

“…For these reasons, CT Max has been recognized as an excellent index and standardized method to evaluate the thermal limits and physiology of aquatic organisms exposed to environmental stressors (Madeira et al, 2012; Nikinmaa, 2013; Terblanche et al, 2011; Vinagre et al, 2014). The most frequently observed responses following a temperature increase of 1°C·min −1 were, in order: greater locomotory activity in attempt to escape, loss of equilibrium, onset of muscle spasms and death a few minutes later (Hutchison & Maness, 1979; Lutterschmidt & Hutchison, 1997b; Velasco‐Blanco et al, 2019). When all those concepts are used to define optimal conditions for aquatic species with aquaculture potential, such as M. tenellum , this knowledge acquires special relevance (Chen et al, 2015); it helps define the limits that should be considered when the particular prawn is held under culture conditions, helping thus design the best culture strategy.…”

Section: Introductionmentioning

confidence: 99%

Long‐term mild hypoxia does not reduce thermal tolerance or performance of the freshwater prawn Macrobrachium tenellum

Tremblay

Garcı́a-Guerrero

Dı́az

et al. 2021

Aquaculture Research

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The present study was designed to assess the performance of the freshwater prawn Macrobrachium tenellum in optimal and sub-optimal dissolved oxygen conditions, considering increasing environmental pressures. Thermal tolerance and thermal metabolic scope (TMS) with related integrated biomarker response (IBR) were measured in prawns exposed to normoxia (80% air saturation), mild (40% air saturation) and severe hypoxia (25% air saturation) at three exposure time points (10, 20 and 30 days). Effects of hypoxia on thermal tolerance were not detectable over time; they were perhaps masked by hyperventilation, or by an increase or diversion of haemolymph processes.After 30 days, TMS was 11% higher in mild hypoxia compared with normoxia, while it was 64% lower in severe hypoxia, indicating the loss of aerobic metabolism capacity during the latter. Mild-hypoxia prawns maintained a high IBR over time, supported by antioxidant enzyme activities (mainly superoxide dismutase), which helped avoid the serious oxidative damage (proteins and lipids) seen in severe hypoxia animals, as well as lower acetylcholinesterase activity that indicated failure of communication between the nervous and locomotor systems. Our results documented a high tolerance by M. tenellum to mild-hypoxia events, which should be further tested under seasonal and extreme habitat/tank temperatures.

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Thermal preference, tolerance, and thermal aerobic scope in clownfish Amphiprion ocellaris (Cuvier, 1830) predict its aquaculture potential across tropical regions

Cited by 10 publications

References 60 publications

Evolution, Development and Ecology of Anemonefishes

Evolution, Development and Ecology of Anemonefishes

Synergistic Effects of Ocean Warming and Cyanide Poisoning in an Ornamental Tropical Reef Fish

Long‐term mild hypoxia does not reduce thermal tolerance or performance of the freshwater prawn Macrobrachium tenellum

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