A grand solar minimum anticipated from 2020 to 2070 raises the possibility of interruption of present-day Global Warming for a few decades. However, the magnitude of resultant regional effects, such as flooding and cooling, may be significantly underestimated in current climate models, since a similar situation has never been recorded by instrumental data. Between AD 1400 and 1850, Europe experienced a period of cooling known as the Little Ice Age, which was associated with episodes of persistently very low solar activity. In England, the freezing weather, together with changes in rainfall patterns, had a strong impact on agriculture and society, with famine and disease killing millions. Nowadays, vulnerability to natural climate variability and the collateral impact on the economies are commensurately heightened because of the global population expansion and complexity of its societal infrastructure.
This project aims to clarify the important climatic role, and potential regional effects, of future variations in solar activity. The main objective is to generate robust regional palaeoclimatic information for past periods of grand solar minima, to substitute for the lack of instrumental data, as a basis for reducing the uncertainty of future predictions. Both solar activity and climate variability during the last 5,000 years are reconstructed from the lacustrine record of Diss Mere in the UK. The reconstructions are thus linked to other palaeoclimate records in Europe using regional time markers deposited in their sediments.