2013
DOI: 10.1093/plankt/fbt111
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Life in a warming ocean: thermal thresholds and metabolic balance of arctic zooplankton

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Cited by 67 publications
(73 citation statements)
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“…It is not always fair, however, to associate a particular u 0 value with a particular species over the full range of temperatures included. As discuss further, the temperature response of an individual species is often dome-shaped, a window of habitat tolerance (Møller et al, 2012;Alcaraz et al, 2014), whereas Coltrane 1.0 uses the monotonic, power-law response observable at the community level (Forster et al, 2011). C. finmarchicus, for example, is fit well by u 0 = 0.007 d −1 at higher temperatures (4-12 • C), whereas near 0 • C in Disko Bay, it has been observed to be considerably smaller than extrapolation along the u 0 = 0.007 d −1 power law would predict.…”
Section: Global Behaviormentioning
confidence: 99%
“…It is not always fair, however, to associate a particular u 0 value with a particular species over the full range of temperatures included. As discuss further, the temperature response of an individual species is often dome-shaped, a window of habitat tolerance (Møller et al, 2012;Alcaraz et al, 2014), whereas Coltrane 1.0 uses the monotonic, power-law response observable at the community level (Forster et al, 2011). C. finmarchicus, for example, is fit well by u 0 = 0.007 d −1 at higher temperatures (4-12 • C), whereas near 0 • C in Disko Bay, it has been observed to be considerably smaller than extrapolation along the u 0 = 0.007 d −1 power law would predict.…”
Section: Global Behaviormentioning
confidence: 99%
“…This tendency also correlates with a decrease in the population size of krill, Euphausia superba, especially in the West Antarctic (Loeb et al 1997;Atkinson et al 2004;Lee et al 2010). The escala− tion of this process may destabilize the Antarctic food web to a considerable degree (McClintock et al 2008;Alcaraz et al 2014). Such a forecast is based on the low nu− tritional value of S. thompsoni, which is not sufficient to fulfil energetic require− ments of higher trophic levels (Dubishar et al 2006;Dubishar et al 2012).…”
Section: Introductionmentioning
confidence: 99%
“…Overall, short-term tolerance and physiological survival have broader thermal limits than long-term successful species performance, which is controlled by the metabolic balance between energy gains and losses (from physiological homeostasis and basal metabolism to movement) (Alcaraz et al, 2014). Our results showed that Calanus finmarchicus from a mid-Atlantic population could adjust well to the wide temperature range, which the species can encounter, with physiological and molecular performance being weakly affected by the intensity and duration of temperature increase.…”
Section: Discussionmentioning
confidence: 77%
“…2 for synopsis). In both studies physiological response, assessed as fecal pellet production, showed a classic unimodal response in relation to temperature increase; with a constant increase in the process output until a critical thermal maximum was reached, after which there was a monotonic drop (reviewed in Alcaraz et al, 2014).…”
Section: Discussionmentioning
confidence: 99%