Gli effetti delle acque del fiume Congo sulla variabilità climatica della regione orientale dell’Atlantico Equatoriale

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Una nuova fonte di variabilità climatica nella regione orientale dell’Atlantico Equatoriale. In un articolo pubblicato sulla rivista scientifica Climate Dynamics (Volume 39,
Issue 9-10 , pp 2109-2125)
con il titolo “The effect of Congo River freshwater discharge on Eastern Equatorial Atlantic climate variability”, gli autori del CMCC Stefano Materia, Silvio Gualdi, Antonio Navarra, e Laurent Terray (del CERFACS), analizzano gli effetti dei flussi delle acque fluviali sulla salinità e sulla temperatura delle acque marine di suoperficie.

L’abstract del paper

The surface ocean explains a considerable part of the inter-annual Tropical Atlantic variability. The present work makes use of observational datasets to investigate the effect of freshwater flow on sea surface salinity (SSS) and temperature (SST) in the Gulf of Guinea. In particular, the Congo River discharges a huge amount of freshwater into the ocean, affecting SSS in the Eastern Equatorial Atlantic (EEA) and stratifying the surface layers. The hypothesis is that an excess of river runoff emphasize stratification, influencing the ocean temperature. In fact, our findings show that SSTs in the Gulf of Guinea are warmer in summers following an anomalously high Congo spring discharge. Vice versa, when the river discharges low freshwater, a cold anomaly appears in the Gulf. The response of SST is not linear: temperature anomalies are considerable and long-lasting in the event of large freshwater flow, while in dry years they are less remarkable, although still significant. An excess of freshwater seems able to form a barrier layer, which inhibits
vertical mixing and the entrainment of the cold thermocline water into the surface. Other processes may contribute to SST variability, among which the net input of atmospheric freshwater falling over EEA.
Likewise the case of continental runoff from Congo River, warm anomalies occur after anomalously rainy seasons and low temperatures follow dry seasons, confirming the effect of freshwater on SST. However, the two sources of freshwater anomaly are not in phase, so that it is possible to split between atypical SST following continental freshwater anomalies and rainfall anomalies. Also, variations in air-sea fluxes can produce heating and cooling of the Gulf of Guinea. Nevertheless, atypical SSTs cannot be ascribed to fluxes, since the temperature variation induced by them is not sufficient to explain the SST anomalies appearing in the Gulf after anomalous peak discharges. The interaction processes between river runoff, sea surface salinity and temperature play an effective role in the interannual variability in the EEA region. Our results add a new source of variability in the area, which was often neglected by previous studies.

La pagina web dell’articolo sul sito di Climate Dynamics (Volume 39, Issue 9-10 , pp 2109-2125)

 


Foto: CC by Cifor at Flickr

 

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