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Rendiconti Lincei

, Volume 25, Supplement 2, pp 139–150 | Cite as

The role of drainage systems and intermontane basins in the Quaternary landscape of the Central Apennines chain (Italy)

  • Tommaso PiacentiniEmail author
  • Enrico Miccadei
Intermontane basins in central-southern Italy

Abstract

The Central Apennines chain (Central Italy) is an asymmetric NW–SE thrust belt, NE verging, that has developed since the Neogene. The present landscape is made up of alternating calcareous ridges, valleys on pelitic arenaceous bedrock, as well as wide intermontane basins filled by Quaternary continental deposits. The chain is characterised at high elevation by glacial and isolated patches of dissected karst relict landscapes elevations, and by slope landforms, alluvial fans and fluvial landforms within valleys and intermontane basins; in the latter ancient lacustrine deposits are preserved. Intermontane basins, valley and drainage systems, and relict landscapes are affected by active geodynamic processes resulting in regional uplift, extensional faulting and local subsidence, and by Quaternary climate fluctuations. In this work, the main intermontane basins have been correlated along a SW–NE transect, comparing sedimentary sequences and morphotectonic features, the evidence of local tectonics and uplift pulses, and the main features of the drainage systems, in order to outline the drainage changes occurred during the Quaternary in the Central Apennines chain. Along a SW–NE swath profile, min, mean and max topography elevations, the basins’ min elevation, the elevation of the main karst landforms, and the Pleistocene uplift have been compared. These correlations and comparisons allowed us to provide a further contribution to the understanding of the Quaternary evolution of the drainage systems and the landscape of the Central Apennines chain.

Keywords

Drainage systems Intermontane basins Tectonic geomorphology Landscape Central Apennines 

Notes

Acknowledgments

The authors wish to thank the anonymous reviewers and the special volume’s editors, whose precious comments and suggestions greatly improved the manuscript. The work was financed by the University ‘G. d’Annunzio’ of Chieti Pescara (E. Miccadei, T. Piacentini). The paper is the result of a research carried out by: Enrico Miccadei (research guideline) and Tommaso Piacentini (geomorphological analysis, GIS data processing, mauscript).

Supplementary material

12210_2014_312_MOESM1_ESM.pdf (8.5 mb)
Supplementary material 1 (PDF 8,731 kb)

References

  1. Ambrosetti P, Carraro F, Deiana G, Dramis F (1982) Il sollevamento dell’Italia centrale tra il Pleistocene inferiore e il Pleistocene medio. CNR Progetto Finalizzato Geodinamica 2:219–223Google Scholar
  2. Antonioli F, Vai GB (2004) Climex Map Italy and explanatory notes. Project sponsored by ENEA, In: Margottini C, Vai GB, 32nd International Geological Congress, Florence, ItalyGoogle Scholar
  3. APAT (2006a) Carta geologica d’Italia alla scala 1:50.000, Foglio 359 “L’Aquila”. APAT Servizio Geologico d’ItaliaGoogle Scholar
  4. APAT (2006b) Carta geologica d’Italia alla scala 1:50.000, Foglio 368 “Avezzano”. APAT Servizio Geologico d’ItaliaGoogle Scholar
  5. APAT (2006c) Carta geologica d’Italia alla scala 1:50.000, Foglio 369 “Sulmona”. APAT Servizio Geologico d’ItaliaGoogle Scholar
  6. APAT (2008) Carta geologica d’Italia alla scala 1:50.000, Foglio 357 “Cittaducale”. APAT Servizio Geologico d’ItaliaGoogle Scholar
  7. Ascione A, Miccadei E, Villani F, Berti C (2007) Morphostructural setting of the Sangro and Volturno rivers divide area (Central-Southern Apennines, Italy). Geografia Fisica e Dinamica Quaternaria 30:13–29Google Scholar
  8. Ascione A, Cinque A, Miccadei E, Villani F, Berti C (2008) The Plio-Quaternary uplift of the Apennine chain: new data from the analysis of topography and river valleys in Central Italy. Geomorphology 102:105–118. doi: 10.1016/j.geomorph.2007.07.022 CrossRefGoogle Scholar
  9. Bertini T, Bosi C (1993) La tettonica quaternaria della Conca di Fossa (L’Aquila). Il Quaternario 6(2):281–286Google Scholar
  10. Blumetti AM, Coltorti M, Ferreli L, Michetti AM, Petronio C, Raffy J, Sardella R (1997) Fucino Basin. Supplementi di Geografia Fisica e Dinamica Quaternaria 2:79–103Google Scholar
  11. Blumetti AM, Di Filippo M, Zaffiro P, Marsan P, Toro B (2002) Seismic hazard characterization of the city of L’Aquila (Abruzzo, Central Italy): new data from geological, morphotectonic and gravity prospecting analyses. Studi Geol Camerti 1:7–18Google Scholar
  12. Blumetti AM, Guerrieri L, Vittori E (2013) The primary role of the Paganica-San Demetrio fault system in the seismic landscape of the Middle Aterno Valley basin (central Apennines). Quatern Int 288(4):183–194. doi: 10.1016/j.quaint.2012.04.040 CrossRefGoogle Scholar
  13. Boncio P, Pizzi A, Cavuoto G, Mancini M, Piacentini T, Miccadei E et al (2011) Geological and geophysical characterization of the Paganica––San Gregorio area after the April 6 2009 L’Aquila earthquake (Mw 6.3, central Italy): implications for site response. Boll Geofis Teorica e Applicata 52(3):491. doi: 10.4430/bgta0014 Google Scholar
  14. Bosi C, Bertini T (1970) Geologia della media valle dell’Aterno. Mem Soc Geol Italiana 9:719–777Google Scholar
  15. Bosi C, Galadini F, Giaccio B, Messina P, Sposato A (2003) Plio-Quaternary continental deposits in the Latium-Abruzzi Apennines: the correlation of geological events across different intermontane basins. Il Quaternario 16:55–76Google Scholar
  16. Capelli G, Miccadei E, Raffi R (1997) Fluvial dynamics in the Castel di Sangro plain: morphological changes and human impact from 1875 to 1992. Catena 30:295–309CrossRefGoogle Scholar
  17. Carminati E, Doglioni C (2012) Alps vs. Apennines: the paradigm of a tectonically asymmetric earth. Earth Sci Rev 112:67–96. doi: 10.1016/j.earscirev.2012.02.004 CrossRefGoogle Scholar
  18. Cavinato GP (1993) Recent tectonic evolution of the quaternary deposits of the Rieti Basin (Central Apennines, Italy): southern part. Geol Romana 29:411–434Google Scholar
  19. Cavinato GP, De Celles PG (1999) Extensional basins in the tectonically bimodal central Apennines fold-thrust belt, Italy: response to corner flow above subducting slab in retrograde motion. Geology 27:955–958CrossRefGoogle Scholar
  20. Cavinato GP, Cosentino D, De Rita D, Funiciello R, Parotto M (1994) Tectonic-sedimentary evolution of intrapenninic basins and correlation with the volcano-tectonic activity in Central Italy. Mem Descrittive Car Geol d’Italia 49:63–76Google Scholar
  21. Cavinato GP, Carusi C, Dall’Asta M, Miccadei E, Piacentini T (2002) Sedimentary and tectonic evolution of Plio-Pleistocene alluvial and lacustrine deposits of the Fucino Basin (central Italy). Sed Geol 148:29–59. doi: 10.1016/S0037-0738(01)00209-3 CrossRefGoogle Scholar
  22. Ciccacci S, D’Alessandro L, Dramis F, Miccadei E (1999) Geomorphologic evolution and neotectonics of the Sulmona intramontane basin (Abruzzi, Apennine, Central Italy). Zeirschrift für Geomorphologie 118:27–40Google Scholar
  23. Cosentino D, Miccadei E, Barberi R, Basilici G, Cipollari P, Parotto M, Piacentini T (2008) Note illustrative alla Carta Geologica d’Italia (scala 1:50.000), Foglio 357 “Cittaducale”. Servizio Geologico d’Italia, ISPRAGoogle Scholar
  24. Cosentino D, Cipollari P, Marsili P, Scrocca D (2010) Geology of the Central Apennines: a regional review. J Virtual Explorer, 36Google Scholar
  25. D’Agostino N, Jackson JA, Dramis F, Funiciello R (2001) Interactions between mantle upwelling, drainage evolution and active normal faulting: an example from the Central Appennines (Italy). Geophys J Intern 147(2):475–497CrossRefGoogle Scholar
  26. D’Alessandro L, Miccadei E, Piacentini T (2003) Morphostructural elements of central-eastern Abruzzi: contributions to the study of the role of tectonics on the morphogenesis of the Apennine chain. Quatern Int 101(102):115–124CrossRefGoogle Scholar
  27. Demangeot J (1965) Geomorphologie des Abruzzes Adriatiques. Memoires et Documentes 1:403Google Scholar
  28. Faccenna F, Becker TW, Auer L, Billi A, Boschi L et al (2014) Mantle dynamics in the Mediterranean. Am Geophys Union. doi: 10.1002/2013RG000444 Google Scholar
  29. Galadini F, Messina P (2004) Early-Middle Pleistocene eastward migration of the Abruzzi Apennine (central Italy) extensional domain. J Geodynamics 37:57–81. doi: 10.1016/j.jog.2003.10.002 CrossRefGoogle Scholar
  30. Galadini F, Messina P, Giaccio B, Sposato A (2003) Early uplift history of the Abruzzi Apennines (central Italy): available geomorphological constraints. Quatern Int 101(102):125–135. doi: 10.1016/S1040-6182(02)00095-2 CrossRefGoogle Scholar
  31. Galli P, Galadini F, Pantosti D (2008) Twenty years of paleoseismology in Italy. Earth-Sci Rev 88:89–117CrossRefGoogle Scholar
  32. GeMiNa (1963) Ligniti e torbe dell’Italia continentale. I.L.T.E., Torino, pp 319Google Scholar
  33. Giaccio B, Galli P, Messina P, Peronace E, Scardia G, Sottili G et al (2012) Fault and basin depocentre migration over the last 2 Ma in the L’Aquila 2009 earthquake region, Central Italian Apennines. Quatern Sci Rev 56:69–88CrossRefGoogle Scholar
  34. Giaccio B, Castorina F, Nomade S, Scardia G, Voltaggio M, Sagnotti L (2013) Revised Chronology of the Sulmona Lacustrine Succession, Central Italy. J Quat Sci 28(6):545–551. doi: 10.1002/jqs.2647 CrossRefGoogle Scholar
  35. Giraudi C (1988) Inversione pleistocenica del drenaggio in alta Val Roveto (Abruzzo sud-occidentale). Mem Soc Geol Italiana 35:847–853Google Scholar
  36. Guerrieri L, Brunamonte F, Comerci V, Ferreli L, Michetti AM, Pompili R, Serva L (2004) Geological evolution of the intermountain Rieti basin (Central Apennines). In: Pasquarè G, Venturini C, Groppelli G (eds) Mapping Geology in Italy. SELCA, FirenzeGoogle Scholar
  37. Mazzanti R, Trevisan L (1978) Evoluzione della rete idrografica nell’Appennino centro-settentrionale. Geografia Fisica e Dinamica Quaternaria 1:55–62Google Scholar
  38. Miccadei E, Barberi R, Cavinato GP (1999a) La geologia quaternaria della Conca di Sulmona. Geol Romana 34:59–86Google Scholar
  39. Miccadei E, Parotto M, Piacentini T (1999b) Assetto geologico-strutturale dei monti della Conca Subequana (Appennino abruzzese, Italia centrale). Geol Romana 34:31–50Google Scholar
  40. Miccadei E, Paron P, Piacentini T (2004) The SW escarpment of the Montagna del Morrone (Abruzzi, Central Italy): geomorphology of a faulted-generated mountain front. Geografia Fisica e Dinamica Quaternaria 27:55–87Google Scholar
  41. Miccadei E, Mascioli F, Piacentini T (2011) Quaternary geomorphological evolution of the Tremiti Islands (Puglia, Italy). Quatern Int 232:3–15. doi: 10.1016/j.quaint.2010.04.028 CrossRefGoogle Scholar
  42. Miccadei E, D’Alessandro L, Parotto M, Piacentini T, Praturlon A (2012) Note illustrative alla Carta Geologica d’Italia (scala 1:50.000), Foglio 378 “Scanno”. Servizio Geologico d’Italia ISPRAGoogle Scholar
  43. Molin P, Fubelli G (2005) Morphometric evidences of the topographic growth of the central Apennines. Geografia Fisica e Dinamica Quaternaria 28:47–61Google Scholar
  44. Papanikolaou ID, Roberts GP, Michetti AM (2005) Fault scarps and deformation rates in Lazio-Abruzzo, Central Italy: comparison between geological fault slip-rate and GPS data. Tectonophysics 408(1–4):147–176CrossRefGoogle Scholar
  45. Parlagreco L, Mascioli F, Miccadei E, Antonioli F, Gianolla D, Devoti S, Leoni G (2011) New data on Holocene relative sea level rise along the Abruzzo coast (central Adriatic). Quatern Int 232:179–186. doi: 10.1016/j.quaint.2010.07.021 CrossRefGoogle Scholar
  46. Parotto M, Cavinato GP, Miccadei E, Tozzi M (2003) Line CROP 11: central Apennines. Mem Descr Carta Geol Italiana 62:145–153Google Scholar
  47. Patacca E, Scandone P, Di Luzio E, Cavinato GP, Parotto M (2008) Structural architecture of the central Apennines: Interpretation of the CROP 11 seismic profile from the Adriatic coast to the orographic divide. Tectonics 27:TC3006Google Scholar
  48. Santo A, Ascione A, Di Crescenzo G, Miccadei E, Piacentini T, Valente E (2014) Tectonic-geomorphological map of the middle Aterno river valley (Abruzzo, Central Italy). J Maps 10(3):365–378. doi: 10.1080/17445647.2013.867545 CrossRefGoogle Scholar
  49. Soligo M, Tuccimei P, Barberi R, Delitala MC, Miccadei E, Taddeucci A (2002) U/Th dating of freshwater travertine from middle Velino valley (Central Italy): geological and paleoclimatic implication. Palaeogeogr Palaeoclimatol Palaeoecol 184:147–161CrossRefGoogle Scholar
  50. Vezzani L, Festa A, Ghisetti FC (2010) Geology and tectonic evolution of the Central-Southern Apennines, Italy. Spec Pap Geolo Soc Am 469:1–58CrossRefGoogle Scholar

Copyright information

© Accademia Nazionale dei Lincei 2014

Authors and Affiliations

  1. 1.Department of Engineering and Geology, INGEOUniversità degli Studi “G. D’Annunzio” Chieti-PescaraChieti Scalo (CH)Italy

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