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Functional characterization of the circadian clock in the Antarctic krill, Euphausia superba (2017)

Biscontin, Alberto ; Wallach, Thomas ; Sales, Gabriele ; [et al.]

Springer Nature

In: EPIC3Scientific Reports, Springer Nature, 7(17742), ISSN: 2045-2322

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Publication Date: 2018-01-08

Description: Antarctic krill (Euphausia superba) is a key species in Southern Ocean ecosystem where it plays a central role in the Antarctic food web. Available information supports the existence of an endogenous timing system in krill enabling it to synchronize metabolism and behavior with an environment characterized by extreme seasonal changes in terms of day length, food availability, and surface ice extent. A screening of our transcriptome database “KrillDB” allowed us to identify the putative orthologues of 20 circadian clock components. Mapping of conserved domains and phylogenetic analyses strongly supported annotations of the identi ed sequences. Luciferase assays and co-immunoprecipitation experiments allowed us to de ne the role of the main clock components. Our ndings provide an overall picture of the molecular mechanisms underlying the functioning of the endogenous circadian clock in the Antarctic krill and shed light on their evolution throughout crustaceans speciation. Interestingly, the core clock machinery shows both mammalian and insect features that presumably contribute to an evolutionary strategy to cope with polar environment’s challenges. Moreover, despite the extreme variability characterizing the Antarctic seasonal day length, the conserved light mediated degradation of the photoreceptor EsCRY1 suggests a persisting pivotal role of light as a Zeitgeber.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , peerRev

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Competition-induced starvation drives large-scale population cycles in Antarctic krill (2017)

Ryabov, Alexey B. ; de Roos, André M. ; Meyer, Bettina ; [et al.]

Springer Nature

In: EPIC3Nature Ecology & Evolution, Springer Nature, 1(0177)

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Publication Date: 2017-11-29

Description: Antarctic krill (Euphausia superba)—one of the most abundant animal species on Earth—exhibits a five to six year population cycle, with oscillations in biomass exceeding one order of magnitude. Previous studies have postulated that the krill cycle is induced by periodic climatological factors, but these postulated drivers neither show consistent agreement, nor are they supported by quantitative models. Here, using data analysis complemented with modelling of krill ontogeny and population dynamics, we identify intraspecific competition for food as the main driver of the krill cycle, while external climatological factors possibly modulate its phase and synchronization over large scales. Our model indicates that the cycle amplitude increases with reduction of krill loss rates. Thus, a decline of apex predators is likely to increase the oscillation amplitude, potentially destabilizing the marine food web, with drastic consequences for the entire Antarctic ecosystem.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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