Why Were Sea Surface Temperatures so Different in the Eastern Equatorial Atlantic in June 2005 and 2006?

Abstract A comparison of June 2005 and June 2006 sea surface temperatures in the eastern equatorial Atlantic exhibits large variability in the properties of the equatorial cold tongue, with far colder temperatures in 2005 than in 2006. This difference is found to result mainly from a time shift in the development of the cold tongue between the two years. Easterlies were observed to be stronger in the western tropical Atlantic in April–May 2005 than in April–May 2006, and these winds favorably preconditioned oceanic subsurface conditions in the eastern Atlantic. However, it is also shown that a stronger than usual intraseasonal intensification of the southeastern trades was responsible for the rapid and early intense cooling of the sea surface temperatures in mid-May 2005 over a broad region extending from 20°W to the African coast and from 6°S to the equator. This particular event underscores the ability of local intraseasonal wind stress variability in the Gulf of Guinea to initiate the cold tongue season and thus to dramatically impact the SST in the eastern equatorial Atlantic. Such intraseasonal wind intensifications are of potential importance for year-to-year variability in the onset of the African monsoon.

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How ubiquitous is the dipole relationship in tropical Atlantic sea surface temperatures?

Journal of Geophysical Research Atmospheres ◽

10.1029/1998jc900109 ◽

1999 ◽

Vol 104 (C4) ◽

pp. 7841-7848 ◽

Cited By ~ 185

Author(s):

David B. Enfield ◽

Alberto M. Mestas-Nuñez ◽

Dennis A. Mayer ◽

Luis Cid-Serrano

Keyword(s):

Sea Surface ◽

Sea Surface Temperatures ◽

Tropical Atlantic ◽

Surface Temperatures

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Interannual sea surface chlorophyll-a signature in the tropical Atlantic

10.5194/egusphere-egu21-9949 ◽

2021 ◽

Author(s):

Fanny Chenillat ◽

Julien Jouanno ◽

Serena Illig ◽

Founi Mesmin Awo ◽

Gaël Alory ◽

...

Keyword(s):

Surface Temperature ◽

Sea Surface ◽

Tropical Atlantic ◽

Cold Tongue ◽

Equatorial Atlantic ◽

Atlantic Region ◽

The North ◽

Sst Anomaly ◽

Equatorial Band ◽

North Tropical Atlantic

<div>Surface chlorophyll-a&#160;concentration (CHL-a) remotely observed by satellite shows a marked seasonal and interannual variability in the Tropical Atlantic, with potential consequences on the marine trophic web. Seasonal and interannual CHL-a&#160;variability peaks in boreal summer and shows maxima in the equatorial Atlantic region at 10&#730;W, spreading from 0 to 30&#730;W. In this study, we analyze how the remotely-sensed surface CHL-a&#160;responds to the leading climate modes affecting the interannual equatorial Atlantic variability over the 1998-2018 period, namely the Atlantic Zonal Mode (AZM) and the North Tropical Atlantic Mode (NTA, also known as the Atlantic Meridional Mode). The AZM is characterized by anomalous warming (or cooling) along the eastern equatorial band. In contrast, the NTA is characterized by an interhemispheric pattern of the sea surface temperature (SST), with anomalous warm (cold) conditions in the north tropical Atlantic region and weak negative (positive) SST anomalies south of the equator. We show that both modes significantly drive the interannual Tropical Atlantic surface CHL-a&#160;variability, with different timings and contrasted modulation on the eastern and western portions of the cold tongue area. Our results also reveal that the NTA slightly dominates (40%) the summer tropical Atlantic interannual variability over the last two decades, most probably because of a positive phase of the Atlantic multidecadal oscillation. For each mode of variability, we analyze an event characterized by an extreme negative sea surface temperature (SST) anomaly in the Atlantic equatorial band. Both modes are associated with a positive CHL-a&#160;anomaly at the equator. In 2002, a negative phase of the NTA led to cold SST anomaly and high positive CHL-a&#160;in the western portion of the cold tongue, peaking in June-July and lasting until the end of the year. In contrast, in 2005, a negative phase of the AZM drove cool temperature and positive CHL-a&#160;in the eastern equatorial band, with a peak in May-June and almost no signature after August. Such contrasted year to year conditions can affect the marine ecosystem by changing temporal and spatial trophic niches for pelagic predators, thus inducing significant variations for ecosystem functioning and fisheries.</div>

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