Holocene paleoclimatic reconstructions provide longer time series than instrumental records, allowing us to examine climate variability under more extreme boundary conditions. I reconstructed temperature and δ18Osw using paired measurements of Mg/Ca ratios and δ18Ocalcite of planktonic and benthic foraminifera at sites in the subpolar North Atlantic that are sensitive to Subpolar Gyre (SPG) dynamics today. Glacial freshwater from the final stages of the decay of the Laurentide ice sheet influenced SPG dynamics and was routed via the SPG throughout the subpolar basin. Near Iceland we recorded the 8.2 ka cooling event and the freshwater spike from the catastrophic outburst flood of proglacial lakes Agassiz and Ojibway using paired Mg/Ca and δ18Ocalcite of the benthic foraminifer Cibicides lobatulus. This evidence for a brief cooling and freshening is supported by a coeval increase in arctic benthic foraminifera and a decrease in biogenic carbonate. Through the Holocene, the SPG warmed and the δ18Osw became heavier (saltier), suggesting a progression towards a contracted gyre. This is in sharp contrast to the established view of the rest of the North Atlantic, which was warmest during the early-mid Holocene. We attribute the SPG warming trend to a weakening of the NAO-like circulation in response to increasing winter insolation through the Holocene. Overlying this general trend were abrupt shifts that cannot be explained by changes in insolation. Between 10,000 and 8,000 cal yr BP, my study sites recorded cold temperature and light δ18Osw values, suggesting an extended SPG. Between 8,000 and 6,000 cal yr BP, the SPG changed shape but was still extended. This change coincided with the onset of Labrador Sea water formation, which today is associated with intensified SPG circulation. Between ~6,000 and 3,800 cal yr BP, I see a strong influence of Atlantic water on the SW Iceland shelf, consistent with a contracted SPG. After 4,000 cal yr BP, freshwater from the Arctic Ocean appeared on the SW Iceland shelf. The water column as recorded in benthic and planktonic foraminiferal assemblages went from well mixed in the early Holocene to stratified in the late Holocene. Overall my records show that the SPG played an important and, in some ways, surprising role in the Holocene climate evolution of the North Atlantic.