首页|Photosynthetic characteristics of sinking microalgae under the sea ice

Photosynthetic characteristics of sinking microalgae under the sea ice

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  • NETL
  • NSTL
  • Elsevier
The photosynthetic characteristics of sinking a microalgal community were studied to compare with the ice algal community in the sea ice and the phytoplankton community in the water column under the sea ice at the beginning of the light season in the first-year sea ice ecosystem on the Mackenzie Shelf, in the western Canadian Arctic. The phytoplankton community was collected using a water bottle, whereas the sinking algal community was collected using particle collectors, and the ice algal community was obtained by using an ice-core sampler from the bottom portion of ice core. Photosynthesis versus irradiance (P-E) incubation experiments were conducted on deck to obtain the initial slope (α~B) and the maximum photosynthetic rate (P_m~B) of the three algal communities. The α~B and the P_m~B of the light saturation curve, and chlorophyll α (Chl α) specific absorption coefficient (α_(ph)~*) between the sinking microalgal community and the ice algal community were similar and were distinctly different from the phytoplankton community. The significant linear relationship between α~B and P_m~B, which was obtained among the three groups, may suggest that a photo-acclimation strategy is common for all algal communities under the low light regime of the early season. Although the sinking algal community could be held for the entire duration of deployment at maximum, this community remained photosynthetically active once exposed to light. This response suggests that sinking algal communities can be the seed population, which results in a subsequent phytoplankton bloom under the sea ice or in a surface layer, as well as representing food for the higher trophic level consumers in the Arctic Ocean even before the receding of the sea ice.

Chl a specific light absorption coefficient (a_(ph)~*)E_k-independent variabilityInitial slope (α~B)Maximum photosynthetic rate (P_m~B)Particle interceptor trap

Shinya Yamamoto、Christine Michel、Michel Gosselin、Serge Demers、Mitsuo Fukuchi、Satoru Taguchi

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Faculty of Engineering, Soka University, Hachioji, Tokyo 192-8577, Japan

Freshwater Institute, Fisheries and Oceans Canada, 501 University Crescent, Winnipeg, Manitoba R3T 2N6, Canada

Institue des sciences de la mer (ISMER), Universite du Quebec a Rimouski, 310 Allee des Ursulines, Rimouski, Quebec G5L 3A1, Canada

National Institute of Polar Research, Tachikawa, Tokyo 042-0740, Japan

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2014

10.1016/j.polar.2014.07.007

Polar science

Polar science

SCI
ISSN:1873-9652
年,卷(期):2014.8(4)
  • 5
  • 57