2011
DOI: 10.1016/j.cbpa.2011.06.022
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CO2 induced seawater acidification impacts sea urchin larval development I: Elevated metabolic rates decrease scope for growth and induce developmental delay

Abstract: Anthropogenic CO(2) emissions are acidifying the world's oceans. A growing body of evidence is showing that ocean acidification impacts growth and developmental rates of marine invertebrates. Here we test the impact of elevated seawater pCO(2) (129 Pa, 1271 μatm) on early development, larval metabolic and feeding rates in a marine model organism, the sea urchin Strongylocentrotus purpuratus. Growth and development was assessed by measuring total body length, body rod length, postoral rod length and posterolate… Show more

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Cited by 298 publications
(299 citation statements)
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“…This has been revealed by former studies on sea urchin larvae with continuous development (Stumpp et al 2011;Martin et al 2011), but to our knowledge, the present study is the first one on a species with discrete development. Larval age had a strong effect on all measured parameters in comparison with CO 2 .…”
Section: Discussionmentioning
confidence: 51%
See 1 more Smart Citation
“…This has been revealed by former studies on sea urchin larvae with continuous development (Stumpp et al 2011;Martin et al 2011), but to our knowledge, the present study is the first one on a species with discrete development. Larval age had a strong effect on all measured parameters in comparison with CO 2 .…”
Section: Discussionmentioning
confidence: 51%
“…This may result in decreasing whole animal oxygen consumption (Pörtner et al 1998;Michaelidis et al 2005) or, if compensated for by the rise in energy demanding processes (e.g. calcification), an increase in whole organism oxygen demand (Thomsen andMelzner 2010, Lannig et al 2010;Stumpp et al 2011) and an associated shift in energy budgets. So far, it is not known to what extent these patterns also hold for early life stages of crustaceans, which have to allocate considerable amounts of energy to growth and morphological changes and may be the more sensitive life stages under ocean acidification (Walther et al 2010).…”
Section: Introductionmentioning
confidence: 99%
“…Recent studies have measured increased metabolic costs associated with experimentally elevated seawater pCO 2 (Wood et al 2008;Stumpp et al 2011), more particularly suggesting energetic trade-offs that impact growth rate -a situation similar to that encountered in many echinoderm larval stages (see Dupont et al 2010for a review, Stumpp et al 2011. Active compensation for acidosis and hypercapnia did not induce measureable additive costs in subadult S.…”
Section: Discussionmentioning
confidence: 97%
“…It was hypothesized that the lecithotrophic life-history strategy (production of few energy rich eggs) allowed an increased growth following an increased in metabolism. On the other hand, under limiting energy conditions, an increased metabolism is associated with a reduced scope for growth as demonstrated in sea urchin larvae exposed to ocean acidification conditions (Stumpp et al, 2011). We can also hypothesize that under extreme stress, larvae are unable to compensate for the environmental challenge through increased metabolism and experience metabolic depression (Pörtner and Farrell, 2008).…”
Section: Impact Of Ocean Acidification and Warming On Larval Growthmentioning
confidence: 98%
“…Both increased temperature (e.g. Peck and Prothero-Thomas, 2002) and pH (Stumpp et al, 2011(Stumpp et al, , 2012 induce an up-regulation of larval metabolism. An increased metabolism under non-limiting energy conditions can translate into an increased scope for growth.…”
Section: Impact Of Ocean Acidification and Warming On Larval Growthmentioning
confidence: 99%