2002
DOI: 10.1016/s0924-7963(02)00196-3
|View full text |Cite
|
Sign up to set email alerts
|

Surface chlorophyll concentrations in relation to the Antarctic Polar Front: seasonal and spatial patterns from satellite observations

Abstract: Satellite ocean color data from the Sea Viewing Wide Field of View Sensor (SeaWiFS) are used to investigate phytoplankton bloom dynamics at the Antarctic Polar Front (PF). Satellite sea surface temperature (SST) data are used to map the location of the PF at weekly timescales. Elevated chlorophyll within the PF often appears as a narrow band that occupies only a portion of the SST gradient across the PF. Phytoplankton blooms within the PF occur most frequently during the month of December and are unevenly dist… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1

Citation Types

11
122
2
3

Year Published

2003
2003
2018
2018

Publication Types

Select...
6
2
1
1

Relationship

0
10

Authors

Journals

citations
Cited by 150 publications
(138 citation statements)
references
References 84 publications
11
122
2
3
Order By: Relevance
“…The clearest case for a substantial contribution of changes in biogeochemical rates on ÎŽChl was found for the northern ACC The associated negative ÎŽChl of anticyclones is consistent with the mechanism of an amplification of large-scale prevailing light limitation in deep mixed layers (Boyd, 2002;Moore and Abbott, 2002;Venables and Meredith, 2009;Fauchereau et al, 2011): Anticyclones tend to deepen isopycnals, causing deeper mixed layers of several tens of meters and weaker mixed layer stratification, especially in winter (Song et al, 2015;Hausmann et al, 2017;Dufois et al, 2016). Hence, phytoplankton within 15 the mixed layer will be exposed to reduced mean radiation in anticyclones as compared to ambient waters, and vice versa for cyclones.…”
supporting
confidence: 54%
“…The clearest case for a substantial contribution of changes in biogeochemical rates on ÎŽChl was found for the northern ACC The associated negative ÎŽChl of anticyclones is consistent with the mechanism of an amplification of large-scale prevailing light limitation in deep mixed layers (Boyd, 2002;Moore and Abbott, 2002;Venables and Meredith, 2009;Fauchereau et al, 2011): Anticyclones tend to deepen isopycnals, causing deeper mixed layers of several tens of meters and weaker mixed layer stratification, especially in winter (Song et al, 2015;Hausmann et al, 2017;Dufois et al, 2016). Hence, phytoplankton within 15 the mixed layer will be exposed to reduced mean radiation in anticyclones as compared to ambient waters, and vice versa for cyclones.…”
supporting
confidence: 54%
“…The boundary between the SE and E-APF regions was often unclear, and the circumpolar APF acts as a diffuse boundary between water bodies with different salinities, temperatures and nutrient concentrations (Orsi et al 1995). Although different algal and animal communities populate the geographical zones to the north and south of the APF (Moore & Abbott 2002), this front is characterized by a high degree of short-and long-term latitudinal variation between 40°S and 60°S (Knox 1994). This latitudinal variation may blur the distinction of the assigned areas across seasons (Orsi et al 1995).…”
Section: Discussionmentioning
confidence: 99%
“…Several previous studies (Croot et al, 2004a;de Baar et al, 1999;de Jong et al, 1998 ; Löscher, 1999 ; Sarthou et al, 1997) have inferred iron fertilised phytoplankton blooms around island systems in the Southern Ocean such as South Georgia (Korb et al, 2004;Moore and Abbott, 2002), Kerguelen (Blain et al, 2001(Blain et al, , 2002Bucciarelli et al, 2001Moore and Abbott, 2002), Bouvet (Croot et al, 2004a) and the Crozet islands (Metzl et al, 1999; Sedwick et al, 2002).…”
Section: Introductionmentioning
confidence: 97%