Abstract
Late spring frost (LSF) severely impacts tree growth and forest productivity, with global warming potentially altering LSF risk due to asymmetric changes in vegetation onset and frost timing. However, reconstructing past frost regimes with climatic and phenological data remains challenging. Using phenological models, high-resolution climate and tree-ring data, we identified damaging LSF on European beech at two sites in the Swiss Jura mountains over nine decades. A novel tree-ring indicator, comparing frost-sensitive beech with evergreen Norway spruce, allowed us to isolate LSF impacts from background climate signals. While no significant long-term trend in the safety margin between leaf-out and LSF was detected since 1930, negative margins - that is, leaf-out preceding last frost - were frequent at the high-elevation site in the last two decades. Our tree-ring approach identified six damaging LSF events since 1991, exceeding twice the long-term return rate. No lag effects of LSF were found, suggesting beech can tolerate episodic frosts. These findings demonstrate the potential of tree rings as bioindicators of past LSF events, offering an alternative to climatic and phenological records, which contain uncertainties that hamper LSF reconstructions. The increasing frequency of damaging LSFs raises concern about future frost risks in mountainous areas under climate change.