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Continuous daylight in the high-Arctic summer supports high plankton respiration rates compared to those supported in the dark
Mesa, E.; Delgado-Huertas, A.; Carrillo-de-Albornoz, P.; García-Corral, L.S.; Sanz-Martín, M.; Wassmann, P.; Reigstad, M.; Sejr, M.K.; Dalsgaard, T.; Duarte, C.M. (2017). Continuous daylight in the high-Arctic summer supports high plankton respiration rates compared to those supported in the dark. NPG Scientific Reports 7(1): 8 pp. https://dx.doi.org/10.1038/s41598-017-01203-7
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322
Peer reviewed article  
Available in  Authors 
    Vlaams Instituut voor de Zee: Open access 301662 [ download pdf ]
Authors  Top 
  • Mesa, E.
  • Delgado-Huertas, A.
  • Carrillo-de-Albornoz, P.
  • García-Corral, L.S.
  • Sanz-Martín, M.
  • Wassmann, P.
  • Reigstad, M.
  • Sejr, M.K.
  • Dalsgaard, T.
  • Duarte, C.M.
Abstract
    Plankton respiration rate is a major component of global CO2 production and is forecasted to increase rapidly in the Arctic with warming. Yet, existing assessments in the Arctic evaluated plankton respiration in the dark. Evidence that plankton respiration may be stimulated in the light is particularly relevant for the high Arctic where plankton communities experience continuous daylight in spring and summer. Here we demonstrate that plankton community respiration evaluated under the continuous daylight conditions present in situ, tends to be higher than that evaluated in the dark. The ratio between community respiration measured in the light ( R-light) and in the dark (R-dark) increased as the 2/3 power of R-light so that the R-light: R-dark ratio increased from an average value of 1.37 at the median R-light measured here (3.62 mu mol O-2 L-1 d(-1) 1) to an average value of 17.56 at the highest R-light measured here (15.8 mu mol O-2 L--(-1) d(-1)). The role of respiratory processes as a source of CO2 in the Arctic has, therefore, been underestimated and is far more important than previously believed, particularly in the late spring, with 24 h photoperiods, when community respiration rates are highest.
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