We present a continentwide study of 600 glaciers located on and near 37 ice-clad volcanoes in South America. Results demonstrate glacier sensitivity to volcanic heat. We distinguished between "volcanic glaciers" (& LE;1 km from volcanic centers; n = 74), and "proximal glaciers" (1-15 km; n = 526) and calculated their equilibrium line altitudes (ELAs). For each ice-clad volcano, we compared the ELAs of its volcanic glaciers to those of its proximal glaciers, which showed that the ELAs of the former are higher than the ELAs of the latter. & UDelta;ELAmean, defined as the offset between the mean ELA of the volcanic glaciers compared with that of the proximal glaciers, was calculated for each ice-clad volcano. & UDelta;ELAmean was positive for 92% of the 37 volcanoes, and a quantitative relationship between & UDelta;ELAmean and volcanic thermal anomaly was established. Results highlight the impact of volcanic heat on glacier elevation; emphasize the need to exclude glaciers on, or near, volcanoes from glacier-climate investigations; and demonstrate the first-order potential for glaciers as "volcanic thermometers." Volcanic-glacier monitoring could contribute to our understanding of magmatic and thermal activity, with changes in glacier geometries potentially reflecting long-term fluctuations in volcanic heat and unrest.
Icy thermometers: Quantifying the impact of volcanic heat on glacier elevation / Howcutt, Stephen; Spagnolo, Matteo; Rea, Brice R.; Jaszewski, Jan; Barr, Iestyn; Coppola, Diego; De Siena, Luca; Girona, Társilo; Gomez-Patron, Andie; Mullan, Donal; Pritchard, Matthew E.. - In: GEOLOGY. - ISSN 0091-7613. - STAMPA. - 51:12(2023), pp. 1140-1147. [10.1130/G51411.1]
Icy thermometers: Quantifying the impact of volcanic heat on glacier elevation
De Siena, Luca;
2023
Abstract
We present a continentwide study of 600 glaciers located on and near 37 ice-clad volcanoes in South America. Results demonstrate glacier sensitivity to volcanic heat. We distinguished between "volcanic glaciers" (& LE;1 km from volcanic centers; n = 74), and "proximal glaciers" (1-15 km; n = 526) and calculated their equilibrium line altitudes (ELAs). For each ice-clad volcano, we compared the ELAs of its volcanic glaciers to those of its proximal glaciers, which showed that the ELAs of the former are higher than the ELAs of the latter. & UDelta;ELAmean, defined as the offset between the mean ELA of the volcanic glaciers compared with that of the proximal glaciers, was calculated for each ice-clad volcano. & UDelta;ELAmean was positive for 92% of the 37 volcanoes, and a quantitative relationship between & UDelta;ELAmean and volcanic thermal anomaly was established. Results highlight the impact of volcanic heat on glacier elevation; emphasize the need to exclude glaciers on, or near, volcanoes from glacier-climate investigations; and demonstrate the first-order potential for glaciers as "volcanic thermometers." Volcanic-glacier monitoring could contribute to our understanding of magmatic and thermal activity, with changes in glacier geometries potentially reflecting long-term fluctuations in volcanic heat and unrest.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
