Abstract
Abstract. Arctic freshwater discharges to the Labrador Sea from melting glaciers and sea ice can have a large impact on ocean circulation dynamics in the North Atlantic, modifying climate and deep water formation in this region. In this study, we present for the first time a high resolution record of ice rafting in the Labrador Sea over the last millennium to assess the effects of freshwater discharges in this region on ocean circulation and climate. The occurrence of ice-rafted debris (IRD) in the Labrador Sea was studied using sediments from Site GS06-144-03 (57.29° N, 48.37° W; 3432 m water depth). IRD from the fraction 63–150 µm shows particularly high concentrations during the intervals ∼ AD 1000–1100, ∼ 1150–1250, ∼ 1400–1450, ∼ 1650–1700 and ∼ 1750–1800. The first two intervals occurred during the Medieval Climate Anomaly (MCA), whereas the others took place within the Little Ice Age (LIA). Mineralogical identification indicates that the main IRD source during the MCA was SE Greenland. In contrast, the concentration and relative abundance of hematite-stained grains reflects an increase in the contribution of Arctic ice during the LIA. The comparison of our Labrador Sea IRD records with other climate proxies from the subpolar North Atlantic allowed us to propose a sequence of processes that led to the cooling that occurred during the LIA, particularly in the Northern Hemisphere. This study reveals that the warm climate of the MCA may have enhanced iceberg calving along the SE Greenland coast and, as a result, freshened the subpolar gyre (SPG). Consequently, SPG circulation switched to a weaker mode and reduced convection in the Labrador Sea, decreasing its contribution to the North Atlantic deep water formation and, thus, reducing the amount of heat transported to high latitudes. This situation of weak SPG circulation may have made the North Atlantic climate more unstable, inducing a state in which external forcings (e.g. reduced solar irradiance and volcanic eruptions) could easily drive periods of severe cold conditions in Europe and the North Atlantic like the LIA. This analysis indicates that a freshening of the SPG may play a crucial role in the development of cold events during the Holocene, which may be of key importance for predictions about future climate.
Highlights
The last millennium is an important target in palaeoclimate studies since this interval allows us to reconstruct the climate variability of our recent history and its impact on the development of our society
Sediments from Eirik Drift were studied in order to examine the variations in ice rafting during the last millennium and its linkage to Little Ice Age (LIA) development
The main ice-rafted debris (IRD) source was along the SE Greenland coast, during the LIA the greater concentration and relative abundance of hematite-stained grains (HSGs) support an increase in the contribution of ice exported from the Arctic region and NE Greenland via the East Greenland Current (EGC)
Summary
The last millennium is an important target in palaeoclimate studies since this interval allows us to reconstruct the climate variability of our recent history and its impact on the development of our society. The climate of the last millennium is characterized by a warm period called the Medieval Climate Anomaly (MCA) or Medieval Warm Period (∼ AD 800–1200), a cold interval called the Little Ice Age (LIA, ∼ AD 1350–1850) and the 20th century warming trend The warm conditions of the MCA promoted the colonization of Iceland and Greenland by the Norse and the exploration of North America during the 9th to 12th centuries, whereas their maladaptation to climate deterioration at the beginning of the LIA led them to abandon the Greenland settlements by the end of the 15th century (Dugmore et al, 2012; Kuijpers et al, 2014; Ogilvie et al, 2000)
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