Abstract
Despite the southern latitude and relatively low mountain elevations, the Italian Peninsula preserves a wide range of periglacial landforms. Most of them were active during the cold phases of the Late Pleistocene and currently cold-driven processes are ongoing only in the higher slopes of the Apennine chain. Periglacial landforms have always been present in the background of research, especially that devoted to Apennine glaciers. Only in the last decades of the twentieth century they received specific, although not continuous, attention. However, to date detailed observations on formative processes (rates and chronology) and on (palaeo)climatic significances are scarce. In general, periglacial landforms in the Italian Peninsula are both minor (sorted circles, sorted stripes, solifluctions, hearth hummocks) and large-scale features (block streams, scree deposits, protalus ramparts, rock glaciers). These can be found from altitudes close to sea-level (relict stratified scree) up to over 2,500 m a.s.l. (patterned ground features, solifluction lobes). In the Central Apennines (Gran Sasso Massif), a rock glacier with a front elevation at about 2,550 m could still contain permafrost. By inserting the periglacial landforms in a chronological scheme together with the data of other climatic proxies (glacial advances/standstills, oscillations of lake water-depth) their contribution in palaeoenvironmental reconstructions becomes more evident, not only by remarking cold events but also periods of aridity.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Albert PG, Tomlinson EL, Lane CS, Wulf S, Smith VC, Coltelli M, Keller J, Lo Castro D, Manning CJ, Müller W, Menzies MA (2013) Late glacial explosive activity on Mount Etna: implications for proximal–distal tephra correlations and the synchronisation of Mediterranean archives. J Volcanol Geotherm Res 265:9–26
APAT (2004). Carta Geologica d’Italia. Scala 1:250 000. Selca, Firenze
Beck HE, Zimmermann NE, McVicar TR, Vergopolan N, Berg A, Wood EF (2018) Present and future Köppen-Geiger climate classification maps at 1-Km resolution. Sci Data 5 (180214).
Bernini M, Carton A, Castaldini D, Cremaschi M (1978) Segnalazione di un deposito di versante di tipo Grèzes liteès a sud di M. Prampa (alto Appennino reggiano). Gruppo Studio del Quaternario Padano 4:153–172
Berti C, Miccadei E, Piacentini T (2006) La Marsica (Abruzzo meridionale). In: Chelli A, D’Aquila P, Firpo M, Ginesu S, Guglielmin M, Pappalardo M, Pecci M, Piacentini T, Queirolo C, Robustelli G, Scarciglia F, Sias S, Tellini C (eds) Testimoni di una montagna scomparsa. Contributo alle metodologie d’indagine delle forme periglaciali relitte. Problematiche e applicazioni in differenti ambienti morfodinamici. Collana «Quaderni della Montagna». vol 8. Bonomia University Press, Bologna, pp 70–73
Bisci C, Dramis F, Fazzini M, Guglielmin M (2003) Climatic conditions and sporadic permafrost in the Maiella Massif (Central Apennines, Italy). Geogr Fis Din Quat 26(1):3–13
Boenzi F (1980) Some evidence of Quaternary cold periods in Southern Italy: data and reflections. Riv Geogr Fisica Dinamica Quaternaria 3:16–20
Bosellini A (2017). Outline of the geology of Italy. In: Soldati M, Marchetti M (eds) Landscapes and landforms of Italy. Springer, pp 21–27
Brancaccio L (1968) Genesi e caratteri delle forme costiere nella Penisola Sorrentina. vol 96. Bollettino della Società Geologica Italiana, pp 169–180
Carton A, Panizza M (1988) Il paesaggio fisico dell’Alto Appennino emiliano. Grafis Ed., Bologna, 182 p
Castaldini D, Caredio F, Puccinelli A (1998) Geomorfologia delle valli del Rio delle Pozze e del Torrente Motte (Abetone, Appennino Tosco-Emiliano). Geogr Fis Din Quat 21:177–204
Castaldini D, Valdati J, Ilies DC (2009) Geomorphological and Geoturistic Maps of the Upper Tagliole Valley (Modena Apennines, Norther Italy). Memorie Descrittive Carta Geologica d’Italia LXXXVII:29–38
Castiglioni GB, Girardi A, Sauro U, Tessari F (1979) Grézes Litées e falde detritiche stratificate di origine crionivale. Rivista di Geografia Fisica e Dinamica Quaternaria 2:64–82
Chelli A, Tellini C (2002) Geomorphological features of the Bratica Valley (Northern Apennines, Italy). Geogr Fis Din Quat 25(1):45–60
Chelli A, Tellini C (2006) L’Appennino. In: Chelli A., D’Aquila P, Firpo M, Ginesu S, Guglielmin M, Pappalardo M, Pecci M, Piacentini T, Queirolo C, Robustelli G, Scarciglia F, Sias S, Tellini C (eds.) Testimoni di una montagna scomparsa. Contributo alle metodologie d’indagine delle forme periglaciali relitte. Problematiche e applicazioni in differenti ambienti morfodinamici. Collana «Quaderni della Montagna». vol 8. Bonomia University Press, Bologna, pp 70–73
Coltorti M, Dramis F, Pambianchi G (1983) Stratified slope-waste deposits in the Esino River basin, Umbria-Marche Apennines, central Italy. Polarforschung 53(2):59–66
Coltorti M, Dramis F (1988) The significance of stratified slope-waste deposits in the Quaternary of Umbria-Marche Apennines, central Italy. Zeitschrift fur Geomorphologie, Supplementband 71:59–70
Coltorti M, Dramis F (1995) The chronology of Upper Pleistocene stratified slope-waste deposits in central Italy. Permafrost Periglac Process 6(3):235–242
Conti S (1940) La nivazione e la morfologia periglaciale nell’Appennino ligure occidentale. Bollettino della Società Geologica Italiana 59(1):69–94
Damangeot J (1951) Observation sur le sols en gradins de l’Apennin Central. Rev Géomorphol Dynam 3:110–119
Demangeot J (1978) L'étage périglaciaire au Gran Sasso (2912 m), Italie centrale, in: Colloque sur le périglaciaire d’altitude du domaine méditerranéen et abords, Strasbourg-Université Louis Pasteur, 12–14 mai 1977. Association géographique d’Alsace, pp 209–220
Deino A, Orsi G, de Vita S, Piochi M (2004) The age of The Neapolitan Yellow Tuff caldera-forming eruption (Campi Flegrei caldera-Italy) assessed by 40Ar/39Ar dating method. J Volcanol Geoth Res 133:157–170
Dramis F (1983) Morfogenesi di versante nel Pleistocene superiore in Italia: i depositi detritici stratificati. Geogr Fis Din Quat 6:180–182
Dramis F, Kotarba A (1992) Southern limit of relict rock glaciers, Central Apennines, Italy. Permafr Periglac Process 3:257–260
Dramis F, Kotarba A (1994) Geomorphological evidences of high-mountain permafrost in central Apennnines. Geogr Fis Din Quat 17:29–39
Dramis F, Giraudi C, Guglielmin M (2003) Rock glacier distribution and paleoclimate in Italy. In: Phillips M, Springman SM, Arenson LU (eds) Permafrost, vol 1. Swets & Zelinger, Kisse, pp 199–204
Firpo M, Guglielmin M, Queirolo C (2006) Relict blockfields in the Ligurian Alps (Mount Beigua, Italy). Permafrost Periglac Process 17:71–78
Fratianni S, Acquaotta F (2017) The climate of Italy. In: Soldati M, Marchetti M (eds) Landscapes and landforms of Italy. Springer, pp 29–38
Frezzotti M, Giraudi C (1989) Evoluzione geologica tardo-pleistocenica ed olocenica del Piano di Aremogna (Roccaraso - Abruzzo): implicazioni climatiche e tettoniche. Memorie della Società Geologica Italiana 42:5–19
Frezzotti M, Narcisi B (1989) Identificazione di un andosuolo, possibile livello guida per la cronostratigrafia olocenica dell’Appennino Centrale. Memorie Società Geologica Italiana 42:351–358
Frezzotti M, Giraudi C (1992) Evoluzione geologica Tardo-Pleistocenica ed olocenica del conoide complesso di Valle Majelama (massiccio del Velino, Abruzzo) – Il Quaternario 5(1):33–50.
García-Ruiz JM, Valero-Garcés B, González-Sampériz P, Lorente A, Martí-Bono C, Beguería S, Edwards L et al (2001) Stratified scree in the Central Spanish Pyrenees: Palaeoenvironmental implications. Permafr Periglac Process 12:233–242
Gentileschi ML (1967a) Forme crionivali sul Gran Sasso d’Italia. Bolletino della Società geografica Italiana 9, 8(1–3):34–61
Gentileschi ML (1967b) Forme crionivali sulla Maiella. Bolletino della Società geografica Italiana 9, 8(7–9):325–350
Giraudi C (1988) Segnalazione di scarpate di faglia post-glaciali nel Massiccio del Gran Sasso (Abruzzo): implicazioni tettoniche, rapporti tra tettonica recente e morfologia, paleosismicità. Memorie della Società Geologica Italiana 41:627–635
Giraudi C (1989) Lake levels and climate for the last 30, 000 years in the Fucino area (Abruzzo-Central Italy)—a review. Palaeogeogr Palaeoclimatol Palaeoecol 70:249–260
Giraudi C (1995) I detriti di versante ai margini della Piana del Fucino (Italia centrale): significato paleoclimatico ed impatto antropico. Il Quat, Ital J Quat Sci 8:203–210
Giraudi C (1996) The effect of the Younger Dryas and of Heinrich Events on the climatic and environmental evolution of Central Italy. Il Quat, Ital J Quat Sci 9:533–540
Giraudi C (1998a) The Late Pleistocene deglaciation on Mt Sirino and Mt Pollino (Basilicata, Calabria - Southern Italy). Il Quat, Ital J Quat Sci 11:247–254
Giraudi C (1998b) Late Pleistocene and Holocene Lake Level Variations in Fucino Lake (Abruzzo - Central Italy) Inferred from Geological, Archaeological and Historical Data. Palaoklimaforschung- Palaeoclimate Research 25:1–18
Giraudi C (1999) Datazione e correlazione di depositi glaciali con l’uso di tephra e loess: il caso del Matese (Campania-Molise). Il Quat, Ital J Quat Sci 12:11–15
Giraudi C (2001) Segnalazione di strutture a strisce parallele (sorted stripes) su detrito del Gran Sasso d’Italia. Il Quat, Ital J Quat Sci 14:5–8
Giraudi C (2002) I rock glaciers tardo-pleistocenici ed olocenici dell’Appennino - Età, distribuzione, significato paleoclimatico. Il Quat, Ital J Quat Sci 15:45–52
Giraudi C (2005) Middle to Late Holocene glacial variations, periglacial processes and alluvial sedimentation on the higher Apennine massifs (Italy). Quatern Res 64:176–184
Giraudi C (2011) Middle Pleistocene to Holocene glaciations in the Italian Apennines. In: Ehlers J, Gibbard PL, Hughes PD (eds) Quaternary glaciations—extent and chronology. A closer look. Developments in Quaternary Science, Elsevier, vol 15, pp 211–219
Giraudi C (2014) Coarse sediments in Northern Apennine peat bogs and lakes: New data for the record of Holocene alluvial phases in peninsular Italy. The Holocene 24 (8): 932–943
Giraudi C (2015) The Upper Pleistocene deglaciation on the Apennines (Peninsular Italy). Cuadernos de Invesrtigación Geográfica 41(2):337–358
Giraudi C (2017) Climate evolution and forcing during the last 40 ka from the oscillations in Apennine glaciers and high mountain lakes, Italy. J Quat Sci 32:1085–1098
Giraudi C, Frezzotti M (1997) Late Pleistocene glacial events in the Central Apennines, Italy. Quat Res 48(3):280–290
Giraudi C, Magny M, Zanchetta G, Drysdale RN (2011) The Holocene climatic evolution of Mediterranean Italy: A review of the continental geological data. Holocene 21(1):105–115
Giraudi C, Zanchetta G, Sulpizio R (2013) A Late-Pleistocene phase of Saharan dust deposition in then high Apennine mountains (Italy). AlpE MediterrEan Quat 26:111–122
Gruppo Ricerca Geomorfologia-CNR (1982) Geomorfologia del territorio di Febbio tra il M. Cusna ed il F. Secchia (Appennino emiliano). Geogr Fis E Din Quat 5:285–360
Hollermann P (1977) Die periglaziale Höhenstufe der Gebiete in einem West-Ost_Profil von Nordiberian zum Kaukasus. Dritte Folge 31:2
Hughes PD, Woodward JC, Gibbard PL (2006) Quaternary glacial history of the mediterranean mountains. Prog Phys Geogr 30(3):334–364
Jaurand E (1998) Glaciers Disparù de l’Appenin: Geomorphologie et Paleoenvironement Glaciaires de l’Italie Peninsulaire. Monographie de l’Universite de la Sorbonne, Paris
Kelletat D (1969) Verbreitung und Vergesellschaftung rezenter Periglazialerscbeinungen im Apennin. Gottinger Geogr Abh 48:114.
Lorenzoni P, Raglione M, Brunamonte F, Michetti AM, Pennacchioni M (1992) Stratigrafia dei depositi di versante tardo-quaternari del Bacino di Rieti: la sezione de ‘‘La Casetta.’’ Studi Geologici Camerti 1:145–153
Mariani GS, Cremaschi M, Zerboni A, Zuccoli L, Trombino L (2018) Geomorphology of the Mt. Cusna Ridge (Northern Apennines, Italy): evolution of a Holocene landscape. J Maps 14(2):392–401. https://doi.org/10.1080/17445647.2018.1480976
Miccadei E, Barberi R, Cavinato GP (1998) La geologia quaternaria della conca di Sulmona (Abruzzo, Italia centrale). Geol Romana 34(1):59–86
Nangeroni G (1952) I fenomeni di morfologia periglaciale in Italia. Rivista Geografica Italiana 59:1–15
Onaca A, Ardelean F, Ardelean A, Magori B, Sîrbu F, Voiculescu M, Gachev E (2020) Assessment of permafrost conditions in the highest mountains of the Balkan Peninsula. CATENA,185,104288, https://doi.org/10.1016/j.catena.2019.104288.
Oliva M, Žebre M, Guglielmin M, Hughes PD, Çiner A, Vieira G, Bodin X, Andrés N, Colucci RR, García-Hernández C, Mora C, Nofre J, Palacios D, Pérez-Alberti A, Ribolini A, Ruiz-Fernández J, Sarıkaya MA, Serrano E, Urdea P, Valcárcel M, Woodward JC, Yıldırım C (2018). Permafrost conditions in the Mediterranean region since the Last Glaciation. Earth Sci Rev 185:397–486. https://doi.org/10.1016/j.earscirev.2018.06.018.
Palacios D, de Andrés N, Gómez-Ortiz A, García-Ruiz JM (2017) Evidence of glacial activity during the Oldest Dryas in the mountains of Spain. Geol Soc Spec Publ 433:87–110
Pappalardo M, Putzolu PP (1995) Le “sassaie” dei Monti Pisani, “colate di pietre” tipiche dell’ambiente periglaciale. Atto Società Toscana di Scienze Naturali, Memorie, Seria A 101:323–342
Ribolini A, Spagnolo M, Giraudi C (2022a) The Italian Peninsula. In: Palacios D, Hughes P, García-Ruiz J, Nuria A (eds) European glacial landscapes: last deglaciation, vol 1. Amsterdam, Elsevier, https://www.sciencedirect.com/science/article/pii/B9780128234983000017
Ribolini A, Spagnolo M, Giraudi C (2022b) The Italian mountains: glacial landforms during main deglaciation (18.9–14.6 ka). In: Palacios D, Hughes P, García-Ruiz J, Nuria A (eds) European glacial landscapes: last deglaciation, Vol. 2. Amsterdam, Elsevier.
Ribolini A, Spagnolo M, Giraudi C (2022c) The Italian mountains: glacial landforms from the Bølling-Allerød Interstadial (14.6–12.9 ka). In: Palacios D, Hughes P, García-Ruiz J, Nuria A (eds) European glacial landscapes: last deglaciation, Vol. 2. Amsterdam, Elsevier
Robustelli G, Scarciglia F (2006) Mormanno e Praia a Mare (Calabria settentrionale). In: Chelli A, D’Aquila P, Firpo M, Ginesu S, Guglielmin M, Pappalardo M, Pecci M, Piacentini T, Queirolo C, Robustelli G, Scarciglia F, Sias S, Tellini C (eds) Testimoni di una montagna scomparsa. Contributo alle metodologie d’indagine delle forme periglaciali relitte. Problematiche e applicazioni in differenti ambienti morfodinamici. Collana Quaderni della Montagna, vol 8. Bonomia University Press, Bologna, pp 81–92
Rovereto G (1939) Liguria geologica. Memorie della Società geologica Italiana 2:743
Ruiz-Fernández J, García-Hernández C, Fernández S del C (2019) Holocene stratified scree of praón (Picos de Europa, cantabrian mountains). Los derrubios estratificados holocenos de praón (Picos de Europa, montañas cantábricas). Cadernos do Lab. Xeolóxico de Laxe 41:23–46
Sacco F (1908) Glacialismo ed erosione nella Majella. Atti della Società Italiana di Scienze Naturali 47(4):269.
Sacco F (1934) Il glacialismo nel gruppo di Voltri. Atti della reale Accademia delle Scienze di Torino 70:96–105
Savelli D, Nesci O, Basile M (1995) Evidenze di un apparato glaciale pleistocenica sul Massiccio del Catria (Appennino Marchigiano). Geogr Fis Din Quat 18:331–335
Scarciglia F, Terribile F, Colombo C, Cinque A (2003) Late Quaternary climatic changes in Northern Cilento (Southern Italy): an integrated geomorphological and paleopedological study. Quat Int 106–107:141–158
Segre AG (1947) Suoli e strutture da nivazione nell’Appennino Centrale. L’Universo 27:805–814
Tarquini S, Isola I, Favalli M, Mazzarini F, Bisson M, Pareschi MT, Boschi E (2007) TINITALY/01: a new triangular irregular network of Italy. Ann Geophys
Tommaselli M, Agostini N (1990) Vegetation patterns and dynamics on a rock glacier in the Norther Apennines. Pireneos 136:33–46
Tricart J, Cailleaux A (1953) Action du froid Quaternaire en Italie péninsulaire. Actes IV Congrès INQUA, Roma-Pisa I:136–142
Valero-Garcés BL, González-Sampériz P, Navas A, Machı́n J, Delgado-Huertas A, Peña-Monné JL, Sancho-Marcén CS, Stevenson T, Davis B (2004). Paleohydrological fluctuations and steppe vegetation during the last glacial maximum in the central Ebro valley (NE Spain). Quat Int 122:43–55
Acknowledgements
The project “The termination I. The environmental and palaeoclimatic variations occurred during the 25–11 ka period” (leader A. Ribolini) supported this work (Progetti di Ricerca di Ateneo PRA, 2020–2021, University of Pisa).
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2022 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Ribolini, A., Giraudi, C. (2022). The Italian Peninsula. In: Oliva, M., Nývlt, D., Fernández-Fernández, J.M. (eds) Periglacial Landscapes of Europe. Springer, Cham. https://doi.org/10.1007/978-3-031-14895-8_5
Download citation
DOI: https://doi.org/10.1007/978-3-031-14895-8_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-14894-1
Online ISBN: 978-3-031-14895-8
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)