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Abstract |
<p>Core MD04-2822 from the Rockall Trough has apparent sedimentation rates of \~ 1 m/kyr during the last deglaciation (Termination I). Component magnetization directions indicate a magnetic excursion at 16.3 m depth in the core, corresponding to an age of 26.5 ka, implying an excursion duration of \~350 years. Across Termination I, the mean grain size of sortable silt implies reduced bottom-current velocity in the Younger Dryas and Heinrich Stadial (HS)-1A, and increased velocities during the B\olling-Aller\od warm period. Standard bulk magnetic parameters imply fining of magnetic grain size from the mid-Younger Dryas (\~12 ka) until \~ 8 ka. First-order reversal curves (FORCs) were analyzed using ridge extraction to differentiate single domain (SD) from background (detrital) components. Principal component analysis (FORC-PCA) was then used to discriminate three end members corresponding to SD, pseudo-single domain (PSD), and multidomain (MD) magnetite. The fining of bulk magnetic grain size from 12 to 8 ka is due to reduction in concentration of detrital (PSD + MD) magnetite, superimposed on a relatively uniform concentration of SD magnetite produced by magnetotactic bacteria. The decrease in PSD+MD magnetite concentration from 12 to 8 ka is synchronized with increase in benthic $δ$13C, and with major (\~70 m) regional sea-level rise, and may therefore be related to detrital sources on the shelf that had reduced influence as sea level rose, and to bottom-water reorganization as Northern Source Water (NSW) replaced Southern Source Water (SSW).</p> |
Year of Publication |
2016
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Journal |
Geochemistry, Geophysics, Geosystems
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Volume |
17
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Number of Pages |
1823\textendash1841
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URL |
http://onlinelibrary.wiley.com/doi/10.1002/2016GC006300/full
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DOI |
10.1002/2016GC006300.Received
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