Abstract
Ocean warming associated with global climate change is already inducing geographic range shifts of marine species. Juvenile coral reef fishes transported into temperate latitudes (termed ‘vagrant’ fishes) can experience winter water temperatures below their normal thermal minimum. Such environmental extremes may increase energetic costs for such fishes, resulting in reduced performance, which may be the governing factor that limits the potential for poleward range expansion of such fishes. This study compared the juvenile physiological performance and behaviour of two congeneric tropical damselfishes which settle during austral summer months within temperate eastern Australia: Abudefduf vaigiensis have an extended southern range, and lower threshold survival temperature than the congeneric A. whitleyi. Physiological and behavioural performance parameters that may be affected by cooler temperature regimes at higher latitudes were measured in aquaria. Lower water temperature resulted in reduced growth rates, feeding rates, burst escape speed and metabolic rates of both species, with significantly reduced performance (up to six-fold reductions) for fishes reared at 18 °C relative to 22 °C and 26 °C. However, A. whitleyi exhibited lower growth rates than A. vaigiensis across all temperatures, and lower aerobic capacity at the lowest temperature (18 °C). This difference between species in growth and metabolic capacity suggests that the extended southern distribution and greater overwintering success of A. vaigiensis, in comparison to A. whitleyi is related to thermal performance parameters which are critical in maintaining individual health and survival. Our results support previous findings in the region that water temperature below 22 °C represents a critical physiological threshold for tropical Abudefduf species expatriating into temperate south-eastern Australia.
Highlights
The geographic ranges of species are determined by their ability to successfully disperse into environments and withstand local conditions[1,2]
This study shows that reduced water temperatures approaching critical thermal minima impact key performance attributes of the juvenile stages of two vagrant damselfishes, with performance loss observed below 22 °C
While patterns of feeding rate across temperatures appeared similar between species, with small errors observed around the mean values, the lack of difference in burst speed may have resulted from low numbers of A. whitleyi
Summary
The geographic ranges of species are determined by their ability to successfully disperse into environments and withstand local conditions[1,2]. Over-winter survival differs among Abudefduf species, with previous modelling indicating a warmer threshold survival temperature for vagrant A. whitleyi (16.5–16.8 °C) relative to both A. vaigiensis and A. bengalensis (12.8–13 °C), and no overwintering recorded for A. sexfasciatus in temperate SE Australia[18] It is predicted by the year 2080 that the overwinter survival of tropical vagrants in this region will occur annually due to ocean warming above minimum thermal thresholds[18]; it is important to understand which species will most likely successfully recruit and sustain populations. Both physiological and behavioural performance of marine fishes are linked to ambient thermal conditions[22,23]. Understanding inter-specific differences in thermal performance and whether such temperature-mediated limits may impact the range of tropical reef fish species dispersing in temperate Australia will be vital in understanding species-specific range shift potential and our ability to predict future range shifts
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