Abstract
Abstract. An ice core drilled on the Renland ice cap in east-central Greenland contains a continuous climate record dating through the last glacial period. The Renland record is valuable because the coastal environment is more likely to reflect regional sea surface conditions compared to inland Greenland ice cores that capture synoptic variability. Here we present the δ18O water isotope record for the Holocene, in which decadal-scale climate information is retained for the last 8 kyr, while the annual water isotope signal is preserved throughout the last 2.6 kyr. To investigate regional climate information preserved in the water isotope record, we apply spectral analysis techniques to a 300-year moving window to determine the mean strength of varying frequency bands through time. We find that the strength of 15–20-year δ18O variability exhibits a millennial-scale signal in line with the well-known Bond events. Comparison to other North Atlantic proxy records suggests that the 15–20-year variability may reflect fluctuating sea surface conditions throughout the Holocene, driven by changes in the strength of the Atlantic Meridional Overturning Circulation. Additional analysis of the seasonal signal over the last 2.6 kyr reveals that the winter δ18O signal has experienced a decreasing trend, while the summer signal has predominantly remained stable. The winter trend may correspond to an increase in Arctic sea ice cover, which is driven by a decrease in total annual insolation, and is also likely influenced by regional climate variables such as atmospheric and oceanic circulation. In the context of anthropogenic climate change, the winter trend may have important implications for feedback processes as sea ice retreats in the Arctic.
Highlights
Ice core records are powerful archives of past climate change, containing hundreds of thousands of years of climate information
The REnland ice CAP project (RECAP) ice core extends 584 m to bedrock, with the oldest ice dating to 120 ka; here we present the Holocene water isotope record (i.e., δ18O) (Fig. 2)
The strength of interannual signals decreases with time; for example, the 3-year signal is lost as it decays below a relative amplitude of 0.05 ‰ at ∼ 5.6 ka and the 5-year signal is lost at ∼ 7 ka
Summary
Ice core records are powerful archives of past climate change, containing hundreds of thousands of years of climate information. Recent developments in continuous flow analysis and cavity ring-down spectroscopy allow for detection of highfrequency signals in ice core water isotopes. These measurement techniques were used in analysis of the REnland ice CAP project (RECAP) ice core, located on a coastal dome in east-central Greenland. Polar ice core water isotope records are correlated to condensation temperature at the time of precipitation (Dansgaard, 1964; Dansgaard et al, 1973; Craig and Gordon, 1965; Merlivat and Jouzel, 1979; Jouzel and Merlivat, 1984; Jouzel et al, 1997) and integrate across regional ocean and atmospheric circulation patterns and sea surface conditions along the moisture transport pathway (Johnsen et al, 2001; Holme et al, 2019)
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