High alpine ponds shift upwards as average temperatures increase: A case study of the Ortles–Cevedale mountain group (Southern Alps, Italy) over the last 50years

High alpine ponds shift upwards as average temperatures increase: A case study of the Ortles–Cevedale mountain group (Southern Alps, Italy) over the last 50years

Alpine ecosystems are especially vulnerable to climate change, and lakes and ponds act as early indicators. Here, we describe our findings for the Ortles–Cevedale mountain group (Stelvio National Park, Southern Alps, Italy), where we used remote sensing to analyze more than 100 water ponds over the...

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Veröffentlicht in:Global and planetary change 2014-09, Vol.120, p.81-91
Hauptverfasser: Salerno, Franco, Gambelli, Sara, Viviano, Gaetano, Thakuri, Sudeep, Guyennon, Nicolas, D'Agata, Carlo, Diolaiuti, Guglielmina, Smiraglia, Claudio, Stefani, Fabrizio, Bocchiola, Daniele, Tartari, Gianni
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Alps
Climate change
climate impacts
climatic change
Ecosystems
Elevation
Freshwater
lake surface areas
limnology
Mountains
Ponds
Reduction
Surface area
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container_end_page 91
container_issue
container_start_page 81
container_title Global and planetary change
container_volume 120
creator Salerno, Franco
Gambelli, Sara
Viviano, Gaetano
Thakuri, Sudeep
Guyennon, Nicolas
D'Agata, Carlo
Diolaiuti, Guglielmina
Smiraglia, Claudio
Stefani, Fabrizio
Bocchiola, Daniele
Tartari, Gianni
description Alpine ecosystems are especially vulnerable to climate change, and lakes and ponds act as early indicators. Here, we describe our findings for the Ortles–Cevedale mountain group (Stelvio National Park, Southern Alps, Italy), where we used remote sensing to analyze more than 100 water ponds over the last 50years (1954–2007). We found that since the 1980s, some lower elevation ponds (2900m a.s.l.), we observed that since the 1950s, ponds have increased in size and that new ponds have appeared as a consequence of glacial shrinkage and retreat. However, these new ponds are ephemeral. The appearance of new environments is usually followed by their rapid disappearance and by a concomitant appearance of new ones, which is a clear sign of a transition from a glacial system to a paraglacial system. Surface area changes have been shown to be a highly visible and easily measurable signal of the impact of climate change on the alpine environment, as already demonstrated in other remote areas of the world. There is a clear need to extend this analysis to other sites in the Alps to gain a regional understanding of the phenomenon. The findings of this study make it possible to interpret the variations created by climate change in these environments, in terms of alteration of their ecological role and the loss of ecosystem services. •Surface area changes are visible signals of climate change impact upon alpine ponds.•Since the '80s, ponds at low elevations are shrinking or disappearing.•We linked this impact to the increased evaporation/precipitation ratio.•Since the '50s at high elevation new ponds are appearing or increasing their size.•We linked this impact to the glaciers' shrinkage and retreatment.
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source ScienceDirect Journals (5 years ago - present)
subjects Alps
Climate change
climate impacts
climatic change
Ecosystems
Elevation
Freshwater
lake surface areas
limnology
Mountains
Ponds
Reduction
Surface area
title High alpine ponds shift upwards as average temperatures increase: A case study of the Ortles–Cevedale mountain group (Southern Alps, Italy) over the last 50years
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