Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/51656
Título: Temporal and spatial changes in plankton respiration and biomass in the Canary Islands region: The effect of mesoscale variability
Autores/as: Arístegui, Javier 
Montero, María F. 
Clasificación UNESCO: 251001 Oceanografía biológica
Palabras clave: Coastal Transition Zone
North-Atlantic Ocean
Phytoplankton Biomass
Marine Phytoplankton
Organic-Carbon, et al.
Fecha de publicación: 2005
Editor/a: 0924-7963
Publicación seriada: Journal of Marine Systems 
Conferencia: Symposium on General Study of the Spanish North Atlantic Boundaries
Resumen: The temporal and spatial variabilities in the abundance and respiratory activity of plankton communities (<200 μm) were studied during three seasonal cruises around Gran Canaria Island (Canary Islands), a region of high mesoscale variability. Marked seasonal changes in respiratory activity, plankton community structure, and the ratio of heterotrophic to autotrophic biomass can be largely explained by hydrographic changes at the mesoscale level. Wind/current shearing at the flanks of the island enhances plankton respiration, presumably as the consequence of an increase in turbulence. Counter-paired cyclonic and anticyclonic eddies generated downstream of the island act as a two-way biological pump, increasing plankton production by nutrient pumping into the euphotic zone and accelerating the transport of organic matter into the aphotic zone, respectively. Coastal upwelling waters invading the Canary region in the form of filaments can transport either water with low plankton respiration and large phytoplankton cells or water with high respiratory rates associated with small cells. Plankton respiration was closely related to the abundance of Synechococcus type cyanobacteria and heterotrophic nanoflagellates during the three periods, but was only correlated with chlorophyll during the most fertile season, suggesting that respiration was mainly linked to microbial food web processes. Size-fractionated studies showed that 51–67% of the respiratory activity was due to picoplankton cells (<2 μm). Respiration rates (average values: 113±18 to 187±87 mmol C m−2 d−1) matched primary production rates during the fertile period, but were up to one order of magnitude higher during the rest of the year. Substantial inputs of organic matter from the coastal upwelling would be necessary to balance the large annual heterotrophic deficit in the region of study.
URI: http://hdl.handle.net/10553/51656
ISSN: 0924-7963
DOI: 10.1016/j.jmarsys.2004.07.004
Fuente: Journal of Marine Systems [ISSN 0924-7963], v. 54, p. 65-82
Colección:Actas de congresos
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