Lucía A. Azibeiro scite author profile

To investigate past changes in the Mediterranean Overflow Water (MOW) to the Atlantic, we analyzed the strength of the MOW and benthic δ 13 C along the last 250 kyr at Integrated Ocean Drilling Program (IODP) Site U1389 in the Gulf of Cadiz, near the Strait of Gibraltar. Both the strength of the MOW and the benthic δ 13 C were mainly driven by precession-controlled fluctuations in the Mediterranean hydrologic budget. Reduced/enhanced Nile discharge and lower/higher Mediterranean annual rainfall at precession maxima/minima resulted in higher/lower MOW strengths at Gibraltar and stronger/weaker Mediterranean overturning circulation. At millennial scale, the higher heat and freshwater loss to the atmosphere during Greenland stadials increased buoyancy loss in the eastern Mediterranean. This enhanced the density gradient with Atlantic water, resulting in a higher MOW velocity in the Gulf of Cadiz. Unlike non-Heinrich stadials, a lower-amplitude increase in velocity was seen during Heinrich stadials (HSs), and a significant drop in velocity was recorded in the middle phase. This weak MOW was especially recognized in Termination I and II during HS1 and HS11. These lower velocities at the depth of Site U1389 were triggered by MOW deepening due to the lower densities of Atlantic intermediate water caused by freshwater released from the Laurentide and Eurasian ice sheets. The intrusion of salt and heat at deeper depths in the Atlantic during HSs and its shoaling at the end could have contributed to drive the changes in the Atlantic Meridional Overturning Circulation during Terminations.

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A new perspective of the Alboran Upwelling System reconstruction during the Marine Isotope Stage 11: A high-resolution coccolithophore record

González-Lanchas

Flores

Sierro

et al. 2020

Quaternary Science Reviews

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Meltwater flux from northern ice-sheets to the mediterranean during MIS 12

Azibeiro

Sierro

Capotondi

et al. 2021

Quaternary Science Reviews

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Environmental parameters affecting composition of modern Mediterranean planktonic foraminifera assemblages

Azibeiro¹,

Kučera²,

Jonkers³

et al. 2020

Preprint

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La reconstrucci&#243;n de la temperatura de la superficie del mar (TSM) ha estado durante mucho tiempo en el centro de la investigaci&#243;n paleoceanogr&#225;fica. Los estudios en el Mediterr&#225;neo no han sido una excepci&#243;n, ya que la reconstrucci&#243;n cuantitativa de TSM en esta cuenca semicerrada es crucial para comprender el cambio clim&#225;tico pasado en la regi&#243;n. Muchos de estos m&#233;todos se basaron en foramin&#237;feros planct&#243;nicos, tanto en su geoqu&#237;mica de caparaz&#243;n como en la composici&#243;n de los ensamblajes (por ejemplo, funciones de transferencia). Comprender y modelar las relaciones entre el censo actual y las variables ambientales es la base para transformar los datos f&#243;siles en estimaciones cuantitativas de estas variables. Aunque globalmente, los conjuntos de foramin&#237;feros parecen estar determinados principalmente por la temperatura, en cuencas marginales como el Mediterr&#225;neo,&#160;In this study we attempt to determine which environmental parameters may control the variability of planktonic foraminifer assemblages in the modern Mediterranean. For this purpose, census counts of planktonic foraminifera assemblages from Mediterranean coretops (ForCenS data base) have been integrated with monthly estimates of SST, chlorophyll concentration, and vertical gradients of various parameters as proxies for water column stratification/mixing (WOA 1998). &#160;Redundancy Analysis (RDA) was used to evaluating the explanatory power and the collinearity among tested environmental parameters and a forward selection of variables was carried out to identify those explaining independently the largest share of the variance in the composition of planktonic foraminifera assemblages.Se identificaron nueve variables significativas. Tres de ellos corresponden a TSM, mientras que los otros seis se distribuyen entre las concentraciones de clorofila superficial (2) y los gradientes t&#233;rmicos verticales (4). Las variables m&#225;s explicativas son la TSM de junio (R 2 0.43) y el gradiente t&#233;rmico vertical de diciembre (R 2 0.15).

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Nutrients and hydrography explain the composition of recent Mediterranean planktonic foraminiferal assemblages

Azibeiro

Kučera

Jonkers

et al. 2023

Marine Micropaleontology

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