The last glacial maximum (LGM) glacier network of the Valsugana area (south-eastern European Alps and Prealps, NE Italy)

We present new chronological and palaeoclimatological constraints on the evolution of the Valsugana glacier network (south-eastern European Alps) during the Last Glacial Maximum (LGM). The detection of ice-marginal sediments and landforms, related to the geological mapping of the area at 1 : 50 000 scale (CARG project, sheet 061 “Borgo Valsugana”), enabled a detailed reconstruction of past glaciers at their maximum extent. Chronological control on the geomorphological evidence is obtained using 10Be surface exposure dating of erratic boulders from lateral moraine ridges at Monte Lefre, a nunatak within the LGM ice network. The exposure ages cluster between 20 and 19 ka, demonstrating that lateral moraines were formed at the very end of the LGM and that ice surface lowering in the area did not start prior to ca. 19 ka. Isolated from the Valsugana glacier network, several smaller ice masses developed. The reconstruction of four of these isolated glaciers and their equilibrium line altitudes (ELAs) allows us to better understand the climatic conditions that controlled glacier evolution during the LGM: glacier ELAs were lowest in the Venetian Prealps (ca. 1300–1500ma.s.l.) and were gradually rising towards the more internal mountain chains (ca. 1500–1700ma.s.l.). This ELA gradient suggests that precipitation sourced from the Mediterranean Sea was highest in the vicinity of the Alpine fringe, with successive moisture starvation towards the north. The detailed glacier reconstructions, the chronological data, and the palaeoclimatological insights may serve as ground control for future modelling efforts of large and interconnected palaeoglacier networks.