Investigating the spatial heterogeneity of abrupt cooling events during the Lateglacial Interstadial in Britain and Ireland using chironomids and oxygen-isotopes.

The Windermere Interstadial (GI-1; c. 14.7-12.9 kyr ago), a relatively warm period at the end of the last glaciation, provides an excellent opportunity to study past abrupt cooling events (ACEs). These events, commonly known as GI-1d and GI-1b, are clearly expressed in the Greenland ice cores and offer some of our best analogues for future events caused by anthropogenic warming. Such ACEs have variable expression in terms of their magnitude across Europe and the North Atlantic region which is likely to reflect the forcing factors which drive them. However, relatively few, spatially uneven, quantitative temperature reconstructions of ACEs exist for NW Europe. Between-site differences in sampling resolution applied and calibration datasets used makes inter-comparisons problematic.

 

We applied chironomid and oxygen-isotope analysis at a high temporal resolution (~decadal) to a number of Windermere Interstadial lake sequences from spatially diverse locations across the British Isles. This dual proxy approach allows for quantitative reconstructions of past climate change and provides insight into seasonal temperature change as well as hydrological regime shifts. Several chironomid calibration datasets were tested to ascertain which provided the most reliable reconstruction. Even across a relatively restricted area such as the British Isles, clear spatial patterns can be observed in ACE strength. GI-1d exhibits greatest magnitude in the North of the region whilst GI-1b is most strongly expressed in the South. The results highlight the pivotal location of the British Isles in further refining our understanding of the forcing mechanism driving ACEs.