Dépôt numérique
RECHERCHER

Vertical stability and the annual dynamics of nutrients and chlorophyll fluorescence in the coastal, southeast Beaufort Sea.

Téléchargements

Téléchargements par mois depuis la dernière année

Plus de statistiques...

Tremblay, Jean-Éric; Simpson, Kyle; Martin, Johannie; Miller, Lisa A.; Gratton, Yves; Barber, David G.; Price, Neil M. (2008). Vertical stability and the annual dynamics of nutrients and chlorophyll fluorescence in the coastal, southeast Beaufort Sea. Journal of Geophysical Research , vol. 113 , nº C7. DOI: 10.1029/2007JC004547.

[img]
Prévisualisation
PDF
Télécharger (1MB) | Prévisualisation

Résumé

La transcription des symboles et des caractères spéciaux utilisés dans la version originale de ce résumé n’a pas été possible en raison de limitations techniques. La version correcte de ce résumé peut être lue en PDF.

[1] The first quasi‐annual time series of nutrients and chlorophyll fluorescence in the southeast Beaufort Sea showed that mixing, whether driven by wind, local convection, or brine rejection, and the ensuing replenishment of nutrients at the surface were minimal during autumn and winter. Anomalously high inventories of nutrients were observed briefly in late December, coinciding with the passage of an eddy generated offshore. The concentrations of NO3− in the upper mixed layer were otherwise low and increased slowly from January to April. The coincident decline of NO2− suggested nitrification near the surface. The vernal drawdown of NO3− in 2004 began at the ice‐water interface during May, leaving as little as 0.9 μM of NO3− when the ice broke up. A subsurface chlorophyll maximum (SCM) developed promptly and deepened with the nitracline until early August. The diatom‐dominated SCM possibly mediated half of the seasonal NO3− consumption while generating the primary NO2− maximum. Dissolved inorganic carbon and soluble reactive phosphorus above the SCM continued to decline after NO3− was depleted, indicating that net community production (NCP) exceeded NO3− ‐based new production. These dynamics contrast with those of productive Arctic waters where nutrient replenishment in the upper euphotic zone is extensive and NCP is fueled primarily by allochthonous NO3−. The projected increase in the supply of heat and freshwater to the Arctic should bolster vertical stability, further reduce NO3− ‐based new production, and increase the relative contribution of the SCM. This trend might be reversed locally or regionally by the physical forcing events that episodically deliver nutrients to the upper euphotic zone.

Type de document: Article
Mots-clés libres: nutrients; fluorescence; nitrification
Centre: Centre Eau Terre Environnement
Date de dépôt: 29 nov. 2019 14:54
Dernière modification: 29 nov. 2019 14:54
URI: http://espace.inrs.ca/id/eprint/9432

Actions (Identification requise)

Modifier la notice Modifier la notice