Combined effects of a simulated marine heatwave and an algal toxin on a tropical marine aquaculture fish cobia ( Rachycentron canadum )

Minh‐Hoang Le,Ivar Rønnestad,Minh V Nguyen,Khuong V Dinh

doi:10.1111/are.14596

Minh‐Hoang Le, Ivar Rønnestad + Show 2 more

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Ongoing global warming is one of the major challenges for the development of aquaculture in the tropical regions where species are already cultured in the water temperature close to their upper physiological thresholds. Furthermore, warming can trigger blooms of toxic algae, yet we do not know how extreme warming such as a marine heatwave (MHW) and algal toxins may affect marine aquaculture species. To address this issue, we investigated the effects of a simulated MHW in combination with exposure to trans‐4‐trans‐decadienal (PUA), a diatom‐derived toxin, on survival, growth, development and biochemical composition of cobia larvae and juveniles. Cobia larvae were exposed for 48 hr to one of two temperatures (29 vs. 34°C) and two PUA treatments (0 vs. 0.5 µM). Surviving larvae from each treatment were divided into two subsets: three replicates were used for the feeding test and five replicates were used for the recovery test in a non‐contaminated environment at the respective temperatures of 29 or 34°C. Survival of cobia larvae was reduced by 16% in either MHW or PUA, but it dropped by 60% when both stressors were present, indicating a synergistic effect. MHW, but not PUA, reduced the feeding of cobia larvae. PUA had no delayed effects on growth rate and biochemical composition of the fish. MHW strongly reduced specific growth rate, body protein and lipid contents in cobia. Our results provide the first empirical evidence of how MHW and toxic algae may interact and challenge cobia and marine aquaculture production in tropical countries.

Highlights

Countries around the South China Sea are the largest aquaculture producers in the world, accounting for more than 70% of the world's aquaculture production (FAO, 2018)
We found strong single and interactive effects of marine heatwave (MHW) and PUA on cobia larvae and juveniles
We will first focus on the direct effects of MHW, PUA and their interactions, and discuss mainly the effects of MHW and the absence of the delayed effect of PUA on cobia juveniles; all are relevant to cobia and more generally, to finfish production in the tropical condition

Summary

| INTRODUCTION

Countries around the South China Sea are the largest aquaculture producers in the world, accounting for more than 70% of the world's aquaculture production (FAO, 2018). The toxicity of a range of substances such as metals (Dinh et al, 2013; Janssens, Dinh, Debecker, Bervoets, & Stoks, 2014; Sokolova & Lannig, 2008) and pesticides (Dinh, Janssens, Debecker, & Stoks, 2014a; Dinh, Janssens, & Stoks, 2016; Holmstrup et al, 2010) increases under elevated temperatures, causing synergistic effects of the stressors (Crain, Kroeker, & Halpern, 2008; Dinh et al, 2013, 2014a, 2016; Sokolova & Lannig, 2008) It is relatively unknown how the harmful effects of algal toxins may change under extreme temperatures (Lamb, Kimmel, & Field, 2019). We measured the changes in the proximate biochemical composition of fish muscle as an indicator of fish quality

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