TY - JOUR
T1 - Decadal to millennial-scale periodicities in North Iceland shelf sediments over the last 12 000 cal yr
T2 - Long-term North Atlantic oceanographic variability and solar forcing
AU - Andrews, John T.
AU - Hardadottir, Jorunn
AU - Stoner, Joseph S.
AU - Mann, Michael E.
AU - Kristjansdottir, Greta B.
AU - Koc, Nalan
N1 - Funding Information:
This is a contribution to the IMAGES V campaign to evaluate the hydrographic variability of the Nordic Seas. Core MD99-2269 was taken during this cruise with support from NSF OCE-OCE98-09001. The earlier research and continuing research on the North Iceland shelf were supported by NSF-ATM-9531397 as part of the PALE program and by NSF-OPP-0004233 on a study of late glacial and Holocene glacial and climatic fluctuations. M.E.M. acknowledges support from the NSF- and NOAA-sponsored ‘Earth Systems History’ program. The B997 cruise was funded by the Marine Research Institute, Iceland, as apart of a joint Iceland/USA research initiative. Additional support has been provided by the Icelandic Research Council (RANNIS) Grant of Excellence #11001. We appreciate the constructive comments of the reviewers. PARCS Contribution #194. [BOYLE]
PY - 2003/5/30
Y1 - 2003/5/30
N2 - Giant piston core MD99-2269 recovered 25 m of sediment in Hunáfloáall, a deep trough on the North Iceland margin fronting the Iceland Sea, and the site of a shelf sediment drift. The rate of sediment accumulation is 2 m/kyr (5 yr/cm); the core terminated in the Vedde tephra (∼12 cal ka). The sediment was sampled at between 5 and 50 yr/sample, including rock magnetic, grain-size, and sediment properties. Data reduction was carried out using principal component analysis. Two PC axes for the 5-yr/sample magnetic data are strongly correlated with measures of coercivity (ARM20mTARM) and magnetic concentrations (kARM). In turn ARM20mT/ARM is highly correlated (negatively) with grain-size and the mean size of the sortable silt fraction. Analyses of the two PC axes with MTM spectral methods indicate a series of significant (>99%) periodicities at millennial to multidecadal scales, including those at ∼200, 125, and 88 yr which are associated with solar variability. We also document a strong correlation between the sediment magnetic properties and the ∂18O on benthic foraminifera on the North Iceland inner shelf. We hypothesize that the links between variations in grain-size, magnetic concentrations, and solar forcing are controlled by atmospheric and oceanographic changes linked to changes in the relative advection of Atlantic and polar waters along the North Iceland margin. Today these changes are associated with variations in the deep convection in the Greenland and Iceland Seas. The precise linkages are, however, presently elusive although a combination of coarser sediments and low ∂18O values define a Holocene thermal maximum between ∼8 and 6 cal ka.
AB - Giant piston core MD99-2269 recovered 25 m of sediment in Hunáfloáall, a deep trough on the North Iceland margin fronting the Iceland Sea, and the site of a shelf sediment drift. The rate of sediment accumulation is 2 m/kyr (5 yr/cm); the core terminated in the Vedde tephra (∼12 cal ka). The sediment was sampled at between 5 and 50 yr/sample, including rock magnetic, grain-size, and sediment properties. Data reduction was carried out using principal component analysis. Two PC axes for the 5-yr/sample magnetic data are strongly correlated with measures of coercivity (ARM20mTARM) and magnetic concentrations (kARM). In turn ARM20mT/ARM is highly correlated (negatively) with grain-size and the mean size of the sortable silt fraction. Analyses of the two PC axes with MTM spectral methods indicate a series of significant (>99%) periodicities at millennial to multidecadal scales, including those at ∼200, 125, and 88 yr which are associated with solar variability. We also document a strong correlation between the sediment magnetic properties and the ∂18O on benthic foraminifera on the North Iceland inner shelf. We hypothesize that the links between variations in grain-size, magnetic concentrations, and solar forcing are controlled by atmospheric and oceanographic changes linked to changes in the relative advection of Atlantic and polar waters along the North Iceland margin. Today these changes are associated with variations in the deep convection in the Greenland and Iceland Seas. The precise linkages are, however, presently elusive although a combination of coarser sediments and low ∂18O values define a Holocene thermal maximum between ∼8 and 6 cal ka.
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U2 - 10.1016/S0012-821X(03)00139-0
DO - 10.1016/S0012-821X(03)00139-0
M3 - Article
AN - SCOPUS:0038198691
SN - 0012-821X
VL - 210
SP - 453
EP - 465
JO - Earth and Planetary Science Letters
JF - Earth and Planetary Science Letters
IS - 3-4
ER -