2011
DOI: 10.1111/j.1365-3091.2010.01166.x
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Physicochemical and biological influences on sedimentary‐fabric formation in a salinity and oxygen‐restricted semi‐enclosed sea: Gotland Deep, Baltic Sea

Abstract: Two ca 8000 year long sediment cores from the Gotland Deep, the central sub‐basin of the Baltic Sea, were studied by means of digital images, X‐radiographs and scanning electron microscopy–energy‐dispersive X‐ray mineralogical analysis to gain understanding of the physicochemical and biological influences on sedimentary‐fabric formation in modern and ancient seas with a high flux of organic carbon, and associated oxygen stress and depauperate ichnofauna. Four lithofacies were recognized: (i) sharply laminated … Show more

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Cited by 40 publications
(26 citation statements)
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References 100 publications
(247 reference statements)
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“…Likewise, the preservation of laminated sedimentary fabric suggests upward migration of the redoxcline towards the sediment-water interface, inhibiting burrowing by macroinfauna, whereas the occasional blurring of laminations (Fig. 3d) is ascribed to subtle mixing by meiofauna or transient colonization by opportunistic nectobenthos (Virtasalo et al, 2011b;Jokinen et al, 2015). Although annual recovery of macrofauna is common to systems prone to recurring seasonal hypoxia (Diaz and Rosenberg, 1995;Levin et al, 2009), such rapid recolonization was effectively inhibited in the Haverö basin since 1900 AD, possibly owing to increased porewater H 2 S concentration (Diaz and Rosenberg, 1995).…”
Section: Progressive Intensification Of Hypoxia During the Modern Warmentioning
confidence: 99%
“…Likewise, the preservation of laminated sedimentary fabric suggests upward migration of the redoxcline towards the sediment-water interface, inhibiting burrowing by macroinfauna, whereas the occasional blurring of laminations (Fig. 3d) is ascribed to subtle mixing by meiofauna or transient colonization by opportunistic nectobenthos (Virtasalo et al, 2011b;Jokinen et al, 2015). Although annual recovery of macrofauna is common to systems prone to recurring seasonal hypoxia (Diaz and Rosenberg, 1995;Levin et al, 2009), such rapid recolonization was effectively inhibited in the Haverö basin since 1900 AD, possibly owing to increased porewater H 2 S concentration (Diaz and Rosenberg, 1995).…”
Section: Progressive Intensification Of Hypoxia During the Modern Warmentioning
confidence: 99%
“…Likewise, the preservation of laminated sedimentary-fabric suggests upward migration of the redoxcline towards the sediment-water interface, inhibiting burrowing by macroinfauna, whereas the occasional blurring of laminations (Fig. 3d) is ascribed to subtle mixing by meiofauna or transient colonization by opportunistic nectobenthos (Virtasalo et al, 2011b;Jokinen et al, 2015). Although annual recovery of macrofauna is common to systems prone to 30 recurring seasonal hypoxia (Diaz and Rosenberg, 1995;Levin et al, 2009), such rapid recolonization was effectively inhibited in the Haverö basin since 1900 AD, possibly owing to increased porewater H2S concentration (Diaz and Rosenberg, 1995).…”
Section: Progressive Intensification Of Hypoxia During the Modern Warmentioning
confidence: 99%
“…Sedimentary records suggest that periods of O 2 deficiency and anoxic conditions in the Baltic Sea also occurred in the historic past (Conley et al 2009a;Virtasalo et al 2011) during warmer climate conditions such as the medieval climate anomaly (MCA, ca. 900-1350, also known as Fig.…”
Section: Oxygen Depletion and H 2 S Formationmentioning
confidence: 99%