Climate-sensitive areas close to glacial environments in the European Alps are facing exceptional changes, especially in relation to the ongoing cryosphere contraction and the -temporary- higher availability of glacier meltwaters. Tree-ring stable isotopes in these dynamic areas have proved the possibility of reconstructing past changes in glacier meltwater availability (Leonelli et al., 2014; Leonelli et al., 2017), thus contributing in better tracking the ongoing hydroclimatic changes at the decadal and the century scales. The cellulose of trees fed by glacial meltwaters are typically meanly more depleted in δ 18O than trees fed only by precipitation, reflecting the higher depletion of glacial meltwaters with respect to local precipitation: this was found for European larch both at a debris-covered glacier forefield (the Miage Glacier, western Alps) and at a debris free glacier forefield (the Forni Glacier, central Alps). At the Forni Glacier, in a control site located in the valley bottom further away from the glacier stream, we found that the δ 18O of tree-ring cellulose reflects the δ 18O of winter snowfall (November to March), suggesting that during the growing season trees mostly use the snow-melt water of the previous winter. Moreover, the tree-ring cellulose δ 18O was also influenced by the August precipitation δ 18O and mean temperature. By means of an appropriate experimental design, tree-ring stable isotopes may be of great help in reconstructing past hydroclimatic changes in the proglacial environments of debris-free and debris-covered glaciers. Bibliographic references Leonelli G., Pelfini M., Battipaglia G, Saurer M., Siegwolf R.T.W., Cherubini P. (2014). First detection of glacial meltwater signature in tree-ring δ 18O: Reconstructing past major glacier runoff events at Lago Verde (Miage Glacier, Italy), Boreas 43, 600-607, https://doi.org/10.1111/bor.12055 Leonelli G., Battipaglia G., Cherubini P., Saurer M., Siegwolf R.T.W, Maugeri M., Stenni B., Fusco S., Maggi V., Pelfini M. (2017). Larix decidua δ 18O tree-ring cellulose mainly reflects the isotopic signature of winter snow in a high-altitude glacial valley of the European Alps, Science of the Total Environment 579, 230-237, https://doi.org/10.1016/j.scitotenv.2016.11.129

Tree-ring δ18O dependence on water source isotopic signature in glacial environments of the European Alps: disentangling precipitation and glacier meltwater signals / Leonelli, Giovanni Francesco Martino; Maggi, Valter. - 20:(2018), pp. 8981-8981. (Intervento presentato al convegno European Geosciences Union General Assembly tenutosi a Vienna nel 8-13 Aprile 2018).

Tree-ring δ18O dependence on water source isotopic signature in glacial environments of the European Alps: disentangling precipitation and glacier meltwater signals

Giovanni Leonelli
;
2018-01-01

Abstract

Climate-sensitive areas close to glacial environments in the European Alps are facing exceptional changes, especially in relation to the ongoing cryosphere contraction and the -temporary- higher availability of glacier meltwaters. Tree-ring stable isotopes in these dynamic areas have proved the possibility of reconstructing past changes in glacier meltwater availability (Leonelli et al., 2014; Leonelli et al., 2017), thus contributing in better tracking the ongoing hydroclimatic changes at the decadal and the century scales. The cellulose of trees fed by glacial meltwaters are typically meanly more depleted in δ 18O than trees fed only by precipitation, reflecting the higher depletion of glacial meltwaters with respect to local precipitation: this was found for European larch both at a debris-covered glacier forefield (the Miage Glacier, western Alps) and at a debris free glacier forefield (the Forni Glacier, central Alps). At the Forni Glacier, in a control site located in the valley bottom further away from the glacier stream, we found that the δ 18O of tree-ring cellulose reflects the δ 18O of winter snowfall (November to March), suggesting that during the growing season trees mostly use the snow-melt water of the previous winter. Moreover, the tree-ring cellulose δ 18O was also influenced by the August precipitation δ 18O and mean temperature. By means of an appropriate experimental design, tree-ring stable isotopes may be of great help in reconstructing past hydroclimatic changes in the proglacial environments of debris-free and debris-covered glaciers. Bibliographic references Leonelli G., Pelfini M., Battipaglia G, Saurer M., Siegwolf R.T.W., Cherubini P. (2014). First detection of glacial meltwater signature in tree-ring δ 18O: Reconstructing past major glacier runoff events at Lago Verde (Miage Glacier, Italy), Boreas 43, 600-607, https://doi.org/10.1111/bor.12055 Leonelli G., Battipaglia G., Cherubini P., Saurer M., Siegwolf R.T.W, Maugeri M., Stenni B., Fusco S., Maggi V., Pelfini M. (2017). Larix decidua δ 18O tree-ring cellulose mainly reflects the isotopic signature of winter snow in a high-altitude glacial valley of the European Alps, Science of the Total Environment 579, 230-237, https://doi.org/10.1016/j.scitotenv.2016.11.129
2018
Tree-ring δ18O dependence on water source isotopic signature in glacial environments of the European Alps: disentangling precipitation and glacier meltwater signals / Leonelli, Giovanni Francesco Martino; Maggi, Valter. - 20:(2018), pp. 8981-8981. (Intervento presentato al convegno European Geosciences Union General Assembly tenutosi a Vienna nel 8-13 Aprile 2018).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2867397
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