Will jumping snails prevail? Influence of near-future CO2, temperature and hypoxia on respiratory performance in the tropical conch<i>Gibberulus gibberulus gibbosus</i>

Lefevre, Sjannie; Watson, Sue‐Ann; Munday, Philip L.; Nilsson, Göran

doi:10.1242/jeb.120717

Cited by 24 publications

(17 citation statements)

References 112 publications

(117 reference statements)

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“…Elevated pCO 2 , according to OA scenarios for the year 2100 and beyond, had no significant impact on metabolic rate of S. striatus at ambient temperature (28 °C). Similar results were found for another mollusc, the tropical humpbacked conch (Gibberulus gibberulus gibbosus) 58 , where there was no effect of elevated pCO 2 on respiratory performance at any of the tested temperatures (range 28-33 °C) (also see ref. 11 ).…”

Section: Discussionsupporting

confidence: 85%

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Horwitz

Norin

Watson

et al. 2020

Sci Rep

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Environmentally-induced changes in fitness are mediated by direct effects on physiology and behaviour, which are tightly linked. We investigated how predicted ocean warming (OW) and acidification (OA) affect key ecological behaviours (locomotion speed and foraging success) and metabolic rate of a keystone marine mollusc, the sea hare Stylocheilus striatus, a specialist grazer of the toxic cyanobacterium Lyngbya majuscula. We acclimated sea hares to OW and/or OA across three developmental stages (metamorphic, juvenile, and adult) or as adults only, and compare these to sea hares maintained under current-day conditions. Generally, locomotion speed and time to locate food were reduced ~1.5-to 2-fold when the stressors (OW or OA) were experienced in isolation, but reduced ~3-fold when combined. Decision-making was also severely altered, with correct foraging choice nearly 40% lower under combined stressors. Metabolic rate appeared to acclimate to the stressors in isolation, but was significantly elevated under combined stressors. Overall, sea hares that developed under OW and/or OA exhibited a less severe impact, indicating beneficial phenotypic plasticity. Reduced foraging success coupled with increased metabolic demands may impact fitness in this species and highlight potentially large ecological consequences under unabated OW and OA, namely in regulating toxic cyanobacteria blooms on coral reefs. Rising atmospheric carbon dioxide (CO 2) levels may lead to continued and accelerated global warming over the coming century 1. The resulting elevated sea surface temperature (SST) (i.e. ocean warming; OW) is accompanied by increased partial pressure of CO 2 (pCO 2) in the ocean, thus rapidly changing the marine environment by increasing acidity (i.e. ocean acidification; OA) at unprecedented rates 2. The Intergovernmental Panel on Climate Change (IPCC) has indicated that, by year 2100, global mean SST will increase by 2-4 °C and seawater pH decrease by 0.14-0.43 units 3 , with concomitant effects on marine ecosystems. Marine invertebrates are critical

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Section: Discussionsupporting

confidence: 85%

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Horwitz

Norin

Watson

et al. 2020

Sci Rep

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“…This is also supported by the data, as several of the acutely performed measurements of AAS reveal a typical bell-shaped increase–optimum–decrease-type response [robust shell ( Littoraria undulata ; Patnaik et al. , 1985 ); bald notothen ( Lowe and Davison, 2006 ); sockeye salmon ( Oncorhynchus nerka ; Eliason et al , 2011 ); shorthorn sculpin ( Myoxocephalus scorpius ), Arctic sculpin ( Myoxocephalus scorpioides ) and Arctic staghorn sculpin ( Gymnocanthus tricuspis ; Seth et al ., 2013 ); goldfish ( Carassius auratus ; Ferreira et al ., 2014 ); rainbow trout ( Oncorhynchus mykiss ; Chen et al ., 2015 ); European crayfish ( Astacus astacus ) and giant tiger prawn ( Penaeus monodon ; Ern et al , 2015 ); humpback conch ( Gibberulus gibberulus gibbosus ; Lefevre et al , 2015 ); and bonefish ( Albula vulpes ; Nowell et al ., 2015 )]. Intriguingly, a study on a high-Arctic population of blue mussel ( Mytilus edulis ) acclimated to 1°C ( Thyrring et al , 2015 ) found that AAS during an acute temperature challenge was highest at 7°C, even though this population probably never experiences a temperature higher than 5°C during the warmest month of the year.…”

Section: Discussionmentioning

confidence: 99%

“…The variability detected in the response in

to elevated CO 2 is also reflected in AAS, which decreases in some studies [jumbo squid ( Rosa and Seibel, 2008 ); yellowstriped and fourline cardinalfish ( Munday et al ., 2009 ); and Shiba shrimp ( Dissanayake and Ishimatsu, 2011 )], but not in others [ambon damsel ( Pomacentrus amboinensis ), lemon damsel, brown dottyback ( Pseudochromis fuscus ; Couturier et al ., 2013 ); European sea bass ( Pope et al . 2014 ); red drum ( Esbaugh et al ., 2016 ); small-spotted catshark ( Green and Jutfelt, 2014 ); and humpbacked conch ( Lefevre et al ., 2015 )], and in fact, even increases in a third, albeit small, group [spiny chromis damselfish ( Rummer et al ., 2013 ); and Atlantic halibut ( Gräns et al ., 2014 )]. Overall, these outcomes were not influenced by methodology, because the proportion of studies finding an effect vs. no effect, and an increase vs. a decrease, was the same for studies measuring

during exercise or after chasing.…”

Section: Discussionmentioning

confidence: 99%

“…to avoid unfounded speculation, some studies reflect little or only vaguely upon the mechanistic cause for the observed response, whether it was a reduction (e.g. Rosa and Seibel, 2008 ; Dissanayake and Ishimatsu, 2011 ; Tirsgaard et al , 2015b ) or no change ( Schalkhausser et al , 2013 ; Lefevre et al , 2015 ). Given the hypothesis that CO 2 acts as a limiting factor, it is counterintuitive to find that

increases in some animals exposed to elevated CO 2 .…”

Section: Discussionmentioning

confidence: 99%

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Are global warming and ocean acidification conspiring against marine ectotherms? A meta-analysis of the respiratory effects of elevated temperature, high CO₂and their interaction

2016

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“…Moreover, since GABA A receptors also occur in the nervous system of many aquatic invertebrates, the problem may not stop at fish. Studies on a tropical marine gastropod, the humpbacked conch (Gibberulus Gibberulus gibbosus), have indicated that, although these snails can readily tolerate projected rises in water temperature (42), they too display behavioral changes when exposed to 1,000 atm of CO 2 (66). By contrast, air-breathing animals (including humans), would most likely not have to worry about altered GABA A receptor function.…”

Section: Figure 2 Hypothesis Explaining the Widespread Neural Dysfunmentioning

confidence: 99%

Physiological Challenges to Fishes in a Warmer and Acidified Future

Nilsson

Lefevre

2016

Physiology

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With the projected levels of global warming and ocean acidification, fishes have to face warmer waters with CO levels that are the highest in over 30 million years. The resultant rise in body temperature means that metabolic rates of fish will increase, and some may become energetically compromised. No less worrying, and maybe more surprising, is that rising CO concentrations appear to trigger pH regulatory mechanisms that disrupts neural ion gradients, leading to altered neurotransmitter function and maladaptive behavioral changes. We point out the many outstanding questions, including the ultimate one: Will fish be able to adapt to these challenges?

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Will jumping snails prevail? Influence of near-future CO2, temperature and hypoxia on respiratory performance in the tropical conchGibberulus gibberulus gibbosus

Cited by 24 publications

References 112 publications

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Are global warming and ocean acidification conspiring against marine ectotherms? A meta-analysis of the respiratory effects of elevated temperature, high CO₂and their interaction

Physiological Challenges to Fishes in a Warmer and Acidified Future

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Will jumping snails prevail? Influence of near-future CO2, temperature and hypoxia on respiratory performance in the tropical conchGibberulus gibberulus gibbosus

Cited by 24 publications

References 112 publications

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc

Are global warming and ocean acidification conspiring against marine ectotherms? A meta-analysis of the respiratory effects of elevated temperature, high CO2and their interaction

Physiological Challenges to Fishes in a Warmer and Acidified Future

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Product

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Are global warming and ocean acidification conspiring against marine ectotherms? A meta-analysis of the respiratory effects of elevated temperature, high CO₂and their interaction