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Theoretical and Applied Climatology

, Volume 122, Issue 3–4, pp 595–608 | Cite as

Climate variability and Alpine glaciers evolution in Northwestern Italy from the Little Ice Age to the 2010s

  • Guido NigrelliEmail author
  • Stefania Lucchesi
  • Stefania Bertotto
  • Gianfranco Fioraso
  • Marta Chiarle
Original Paper

Abstract

In this work, we analyze climate variability and glacier evolution for a study area in the Northwestern Italian Alps from the Little Ice Age (LIA) to the 2010s. In this area, glacier retreat has been almost continuous since the end of the LIA, and many glaciers are now extinct. We compared glaciological and climatic data in order to evaluate the sensitivity of glaciers to temperature and precipitation trends. We found that temperatures show significant warming trends, while precipitation shows no clear signal. After the 1980s, the total number of positive trends in temperature increased, particularly minimum temperature. The latter does not seem to be the only cause of glacier shrinkage but rather on acceleration of an ongoing trend documented since the end of the LIA. In some rare cases, the effects of warming trends on glacier dynamics have been accentuated by a concomitant decrease in precipitation. We hope that this study will contribute to increase the knowledge of the relationships between climate variation and glacier evolution in the Greater Alpine Region.

Keywords

Glacier Retreat Glacier Change Glacier Advance Geographic Information System Function Glacial Area 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Notes

Acknowledgments

This work was carried out within the activities of the Project of Interest NextData (www.nextdataproject.it). We wish to thank Dr. Anna Maria Gaffodio, Dr. Paola Bassi (ARPA Piemonte) and Ing. Daniele Cat Berro (Società Meteorologica Subalpina) for climatic data providing, and Dott. Giovanni Mortara for sharing his glaciological expertise of the study area.

Supplementary material

704_2014_1313_MOESM1_ESM.doc (312 kb)
ESM 1 (DOC 312 kb)

References

  1. Aguilar E, Auer I, Brunet M, Peterson TC, Wieringa J (2003) Guidelines on climate metadata and homogenization. WCDMP-No. 53. WMO-TD No 1186. World Meteorological Organization, GenevaGoogle Scholar
  2. Ajassa R (1998) Il nuovo catasto dei ghiacciai italiani: confronto con il catasto del 1958. In “Archivi glaciali. Le variazioni climatiche ed i ghiacciai” - CAI Comitato scientifico LPV, 29–50Google Scholar
  3. ARPA Piemonte (2014a) Banca dati meteorologica. http://www.arpa.piemonte.it/. Accessed September 21, 2014
  4. ARPA Piemonte (2014b) Variabilità climatica in Piemonte. http://rsaonline.arpa.piemonte.it/meteoclima50/. Accessed July 1, 2014
  5. Barry RG (2008) Mountain weather and climate, 3rd edn. Cambridge University Press, New YorkCrossRefGoogle Scholar
  6. Bolch T (2007) Climate change and glacier retreat in northern Tien Shan (Kazakhstan/Kyrgyzstan) using remote sensing data. Global Planet Change 56:1–12CrossRefGoogle Scholar
  7. Bonanno R, Ronchi C, Cagnazzi B, Provenzale A (2014) Glacier response to current climate change and future scenarios in the north-Western Italian Alps. Reg Environ Chang 14(2):633–643CrossRefGoogle Scholar
  8. Calmanti S, Motta L, Turco M, Provenzale A (2007) Impact of climate variability on Alpine glaciers in north-western Italy. Int J Climatol 27:2041–2053CrossRefGoogle Scholar
  9. Carraro F, Giardino M (2004) Quaternary glaciations in the Western Italian Alps, a review. In: Ehlers J, Gibbard, PL (eds) Quaternary glaciations-extent and chronology: part I: Europe. Elsevier, 2004, 201–208Google Scholar
  10. Carturan L, Filippi R, Seppi R, Gabrielli P, Notarnicola C, Bertoldi L, Paul F, Rastner P, Cazorzi F, Dinale R, Dalla Fontana G (2013) Area and volume loss of the glaciers in the Ortles-Cevedale group (Eastern Italian Alps): controls and imbalance of the remaining Glaciers. Cryosphere 7:1339–1359CrossRefGoogle Scholar
  11. Cerutti AV (2013) Fifty years of glacial variations and climate evolution on the Mont Blanc Massif. Geogr Fis Din Quat 36(2):225–239Google Scholar
  12. Chinn (1996) New Zealand glacier responses to climate change of the past century. New Zeal J Geol Geophys 39:415–428Google Scholar
  13. Ciccarelli N, von Hardenberg J, Provenzale A, Ronchi C, Vargiu A, Pelosini R (2008) Climate variability in north-western Italy during the second half of the 20th century. Global Planet Change 63:185–195CrossRefGoogle Scholar
  14. Citterio M, Diolaiuti G, Smiraglia C, D’Agata C, Carnielli T, Stella G et al (2007) The fluctuations of Italian glaciers during the last century: a contribution to knowledge about Alpine glacier changes. Geogr Ann Phys Geogr 89:164–182Google Scholar
  15. Consiglio Nazionale delle Ricerche - Comitato Glaciologico Italiano (1961) Catasto dei ghiacciai italiani. Comitato Glaciologico Italiano, Torino, Italy, vol. I–IIGoogle Scholar
  16. Curtaz M, Motta E, Théodule A, Vagliasindi M (2014) I ghiacciai valdostani all’alba del XXI secolo: evoluzione recente e situazione al 2005. Nimbus 69–70:14–21Google Scholar
  17. D’Agata C, Bocchiola D, Maragno D, Smiraglia C, Diolaiuti GA (2014) Glacier shrinkage driven by climate change during half a century (1954–2007) in the Ortles-Cevedale group (Stelvio National Park, Lombardy, Italian Alps). Theor Appl Climatol 116(1–2):169–190CrossRefGoogle Scholar
  18. Diolaiuti G, Maragno D, D’Agata C, Smiraglia C, Bocchiola D (2011) Glacier retreat and climate change: documenting the last 50 years of Alpine glacier history from area and geometry changes of Dosdè Piazzi glaciers (Lombardy Alps, Italy). Prog Phys Geogr 35(2):161–182CrossRefGoogle Scholar
  19. Diolaiuti G, Bocchiola D, D’Agata C, Smiraglia C (2012a) Evidence of climate change impact upon glaciers’ recession within the Italian Alps: the case of Lombardy glaciers. Theor Appl Climatol 109(3–4):429–445CrossRefGoogle Scholar
  20. Diolaiuti G, Bocchiola D, Vagliasindi M, D’Agata C, Smiraglia C (2012b) The 1975–2005 glacier change in Aosta Valley (Italy) and the relations with climate evolution. Progr Phys Geogr 36(6):764–785CrossRefGoogle Scholar
  21. EEA (2012) Climate change, impacts and vulnerability in Europe 2012. European Environment Agency, Report No. 12/2012Google Scholar
  22. Ehlers J (2007) Late Pleistocene Glaciations in Europe. Encycloped Quater Sci 1085–1095Google Scholar
  23. Fountain AG, Basagic HJ, Hoffman MJ, Jackson K (2006) Glacier response in the American west to climate change during the past century. In: Millar CI (ed) Mountain climate 2006. Government Camp, OregonGoogle Scholar
  24. Gardent M, Rabatel A, Dedieu J, Deline P (2014) Multitemporal glacier inventory of the French Alps from the late 1960s to the late 2000s. Global Planet Change 120:24–37CrossRefGoogle Scholar
  25. Haeberli W, Hoelzle M (1995) Application of inventory data for estimating characteristics of and regional climate-change effects on mountain glaciers: a pilot study with the European Alps. Ann Glaciol 21:206–212Google Scholar
  26. Hagg W, Mayer C, Mayr E, Heilig A (2012) Climate and glacier fluctuations in the bavarian alps in the past 120 years. Erdkunde 66(2):121–142CrossRefGoogle Scholar
  27. HISTALP (2014) Historical instrumental climatological surface time series of the greater Alpine region. Department of Climate Research, Central Institute for Meteorology and Geodynamics, Vienna. http://www.zamg.ac.at/histalp/. Accessed July 10, 2014
  28. Hoelzle M, Chinn T, Stumm D, Paul F, Zemp M, Haeberli W (2007) The application of glacier inventory data for estimating characteristics of and regional past climate-change effects on mountain glaciers: a comparison between the European Alps and the New Zealand Alps. Global Planet Change 56:69–82CrossRefGoogle Scholar
  29. IPCC (2013) Climate change 2013: the physical science basis. Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, NY, USAGoogle Scholar
  30. Kuhn M (1981) Climate and glaciers. International Association of Hydrological Sciences, Publication 131. Symposium at Canberra 1979, Sea Level, Ice and Climatic Change, 3–20Google Scholar
  31. Lucchesi S, Fioraso G, Bertotto S, Chiarle M (2014) Little Ice Age and contemporary glacier extent in the Western and South-Western Piedmont Alps (North-Western Italy). J Maps 10(3):409–423CrossRefGoogle Scholar
  32. Luckman BH (2000) The little ice age in the Canadian Rockies. Geomorph 32(3–4):357–384CrossRefGoogle Scholar
  33. Nigrelli G, Collimedaglia M (2012) Reconstruction and analysis of two long-term precipitation time series: Alpe Devero and Domodossola (Italian Western Alps). Theor Appl Climatol 109(3–4):397–405CrossRefGoogle Scholar
  34. Nigrelli G, Chiarle M, Nuzzi A, Perotti L, Torta G, Giardino M (2013) A web-based, relational database for studying glaciers in the Italian Alps. Comput Geosci 51:101–107CrossRefGoogle Scholar
  35. Oerlemans J (2001) Glaciers and climate change. CRC PressGoogle Scholar
  36. Oerlemans J (2005) Extracting a climate signal from 169 glacier records. Science 308:675–677CrossRefGoogle Scholar
  37. Orombelli G (2011) Holocene mountain glacier fluctuations: a global overview. Geogr Fis Din Quat 34(1):17–24Google Scholar
  38. Patzelt G (1985) The period of glacier advances in the Alps, 1965 to 1980. Zeitscht Für Gletsch Glazialgeo 21:403–407Google Scholar
  39. Paul F, Kääb A, Maisch M, Kellenberger T, Haeberli W (2004) Rapid disintegration of Alpine glaciers observed with satellite data. Geophys Res Lett 31(21):L21402Google Scholar
  40. Pelfini M, Smiraglia C (1988) L’evoluzione recente del glacialismo sulle Alpi italiane: strumenti e temi di ricerca. Boll Soc Geogr It 11(5):127–154Google Scholar
  41. Sneyers R (1990) On the statistical analysis of series of observations. World Meteorological Organization, Tech Note No 143, WMO-No. 415, GenevaGoogle Scholar
  42. Società Meteorologica Subalpina (2008) Cambiamenti climatici sulla montagna piemontese. http://www.nimbus.it. Accessed July 1, 2014
  43. Stepanek P (2006) AnClim, software for time series analysis. Dept. of Geography, Fac. of Sciences, Masaryk University, Brno. http://www.climahom.eu/. Accessed January 24, 2014
  44. Su Z, Shi Y (2002) Response of monsoonal temperature glaciers to global warming since little ice age. Quat Int 97–98:123–131CrossRefGoogle Scholar
  45. Terzago S, Fratianni S, Cremonini R (2013) Winter precipitation in Western Italian Alps (1926–2010). Trends and connections with the North Atlantic/Arctic Oscillation. Meteorol Atmos Phys 119:125–136CrossRefGoogle Scholar
  46. UIMP (1913–1994) Annali Idrologici, Parte Prima. Ufficio Idrografico e Mareografico di Parma, Bacino del Po, RomaGoogle Scholar
  47. UNEP (2014) Global glacier changes: facts and figures. United Nations Environment Programme, DEWA/GRID-Geneva. http://www.grid.unep.ch/glaciers/. Accessed September 26, 2014
  48. Winkler S, Chinn T, Gärtner-Roer I, Nussbaumer SU, Zemp M, Zumbühl HJ (2010) An introduction to mountain glaciers as climate indicators with spatial and temporal diversity. Erdkunde 64(2):97–118CrossRefGoogle Scholar
  49. WMO (2004) Fourth seminar for homogenization and quality control in climatological databases. World Meteorological Organization, World Climate Data and Monitoring Programme, WCDMP Series, Report No. 56, WMO/TD-No. 1236, GenevaGoogle Scholar
  50. WMO (2011) Guide to climatological practices. World Meteorological Organization, WMO-No. 100, Third edition, Geneva. https://www.wmo.int. Accessed October 20, 2014
  51. Wood F (1988) Global alpine glacier trends 1960s to1980s. Arctic Alpine Antarct Res 20:404–413CrossRefGoogle Scholar
  52. Yue S, Pilon P, Cavadias G (2002) Power of the Mann-Kendall and Spearman’s rho tests for detecting monotonic trends in hydrological series. J Hydrol 259:254–271CrossRefGoogle Scholar
  53. Zemp M, Paul F, Hoelze M, Haeberli W, (2008) Glacier fluctuations in the European Alps, 1850–2000. In: Orlove B, Wiegandt E, Luckman BH, (eds) Darkening peaks, glacier retreat, science, and society. University of California Press, pp 152–167Google Scholar

Copyright information

© Springer-Verlag Wien 2014

Authors and Affiliations

  • Guido Nigrelli
    • 1
    Email author
  • Stefania Lucchesi
    • 1
  • Stefania Bertotto
    • 1
  • Gianfranco Fioraso
    • 2
  • Marta Chiarle
    • 1
  1. 1.Consiglio Nazionale delle RicercheIstituto di Ricerca per la Protezione IdrogeologicaTorinoItaly
  2. 2.Consiglio Nazionale delle RicercheIstituto di Geoscienze e GeorisorseTorinoItaly

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