Abstract

During the post-LGM deglaciation, global temperatures and rates of sea-level rise were influenced by centennial events driven by climate and ice volume variations, leading to cooling/warming climate stages, sea-level slowstands and meltwater pulses (MWP). Sea level fluctuations have shaped the shelf morphology by drowning coastal features and imposing shifts in coastal/shelf sedimentary environments worldwide. The influence of meltwater pulses in the South Atlantic is still not well established. Thus, here, we investigate morphological and sedimentological records of MWP-1B along two distinct areas of the Eastern Brazilian shelf (Espirito Santo and Abrolhos shelf), far-field sites in the western South Atlantic. Sedimentary core analysis, C14 dating, and multibeam data are combined to provide stratigraphic and morphological evidences of sea-level rise acceleration at the end of Younger Dryas, in the South Atlantic. Results of core analysis indicate a coastal environment around 12 kyrs BP and a major shift in sedimentary facies after 11.5 kyrs BP. In both cores, Unit 1 comprises terrigenous (low carbonate content) and mixed facies, and are interpreted as terrigenous/coastal/estuarine facies. Unit 2 is characterized by carbonate/mixed facies, interpreted as open marine deposits. Terrigenous and mixed estuarine/coastal facies (Unit 1) are replaced by open marine facies (unit 2) at 57.3 m in the Abrolhos Depression core (ABDR) and at 47.6 m in the Espirito Santo paleovalley shelf (PVS core). Morphological evidence shows a paleoshoreline at 60 m water depth associated with five drowned and partially filled incised shelf valleys. A depth x age analysis indicates that the sedimentary environment shift and the depth of paleoshorelines are associated with sea-level slowstand during Younger Dryas, followed by a sea-level rise acceleration, representing MWP-1B. These evidences in the western South Atlantic are combined with other morphological and stratigraphic results presented for South Hemisphere far field sites, indicating that the 60 m isobath is an average water depth marking sea-level stabilization during Younger Dryas, and that MWP-1B is potentially a global event.

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