A multidisciplinary study of an exceptional prehistoric waste dump in the mountainous inland of Calabria (Italy): Implications for reconstructions of prehistoric land use and vegetation in Southern Italy
Author(s)
Language
English
Obiettivo Specifico
1V. Storia eruttiva
3V. Proprietà chimico-fisiche dei magmi e dei prodotti vulcanici
6V. Pericolosità vulcanica e contributi alla stima del rischio
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Journal
Issue/vol(year)
9/30 (2020)
ISSN
0959-6836
Publisher
Sage Journals
Pages (printed)
1310–1331
Date Issued
2020
Abstract
The mountainous inland of northern Calabria (Southern Italy) is known for its sparse prehistoric human occupation. Nevertheless, a thorough multidisciplinary approach of field walking, geophysical survey and invasive research led to the discovery of a major archaeological archive. This archive concerns a rich multi-phased dump, spanning about 3000 years (Late Neolithic to Late Imperial Roman Age) and holding two Somma- Vesuvius tephra. Of these, the younger is a distinct layer of juvenile tephra from the Pompeii eruption, while the older concerns reworked tephra from the Bronze Age AP2 eruption (ca. 1700 cal. yr BP). The large dump contains abundant ceramics, faunal remains and charcoal, and most probably originated through long-continued deposition of waste in a former gully like system of depressions. This resulted in an inversed, mound-like relief, whose anthropogenic origin had not been recognized in earlier research. The tephras were found to be important markers that support the reconstruction of the occupational history of the site. The sequence of occupational phases is very similar to that observed in a recent palaeoecological study from nearby situated former lakes (Lago Forano/Fontana Manca). This suggests that this sequence reflects the more regional occupational history of Calabria, which goes back to ca. 3000 BC. Attention is paid to the potential link between this history and Holocene climatic phases, for which no indication was found. The history deviates strongly from histories deduced from the few, but major palaeorecords elsewhere in the inlands of Southern Italy (Lago Grande di Monticchio and Lago Trifoglietti). We conclude that major regional variation occurred in prehistoric land use and its impacts on the vegetation cover of Southern Italy, and studies of additional palaeoarchives are needed to unravel this complex history. Finally, shortcomings of archaeological predictive models are discussed and the advantages of truly integrated multidisciplinary research.
References
Archaeological evidences are often published in local Italian journals or proceedings. For completeness they are given in the text where relevant, but generally they cannot be digitally retrieved. They are indicated with an *.
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Andronico D and Cioni R (2002) Contrasting styles of Mount Vesuvius activity in the period between the Avellino and Pompeii Plinian eruptions, and some impli- cations for assessment of future hazards. Bulletin of Volcanology 64(6): 372–391.
Arienzo I, Carandente A, Di Renzo V et al. (2013) Sr and Nd isotope analysis at the Radiogenic Isotope Laboratory of the Istituto Nazionale di Geofisica e Vulcanologia, Sezione di Napoli: Osservatorio Vesuviano. Rapporti Tecnici INGV 260: 1–18. Available at: http://istituto.ingv.it/l-ingv/produzione-sci entifica/rapporti-tecnici-ingv/archivio/rapporti-tecnici- 2013/
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Blong RJ (2013) Volcanic Hazards: A Sourcebook on the Effects of Eruptions. Amsterdam: Elsevier.
Boenzi F, Caldara M, Capolongo D et al. (2008) Late Pleistocene-Holocene landscape evolution in Fossa Bradanica, Basilicata (southern Italy). Geomorphology 102(3–4): 297–306.
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Cannavo` V, Cardarelli A, Lugli S et al. (2017) Fabrics and archaeological facies in northern Italy: An integrated approach to technological and stylistic choices in Bronze Age pottery production. Journal of Archaeological Science: Reports 16: 521–531.
Civetta L, Galati R and Santacroce R (1991) Magma mixing and convective compositional layering within the Vesuvius magma chamber. Bulletin of Volcanology 53: 287–300.
Collins BD, Dunne T and Lehre AK (1983) Erosion of tephra-covered hillslopes north of Mount St. Helens, Washington: May 1980-May 1981. Zeitschrift fur: Geomorphologie 43: 103–121.
Correale A, Paonita A, Martelli M et al. (2014) A two- component mantle source feeding Mt. Etna magmatism: Insights from the geochemistry of primitive magmas. Lithos 184: 243–258.
Corsaro RA and Pompilio M (2004) Dynamics of magmas at Mount Etna. Geophysical Monograph-American Geophysical Union 143: 91–110.
Crocitti M, Sulpizio R, Insinga DD et al. (2019) On ash dispersal from moderately explosive volcanic eruptions: Examples from Holocene and Late Pleistocene eruptions of Italian volcanoes. Journal of Volcanology and Geothermal Research 385: 198–221.
De Beaulieu JL, Brugiapaglia E, Joannin S et al. (2017) Lateglacial-Holocene abrupt vegetation changes at Lago Trifoglietti in Calabria, Southern Italy: The setting of ecosystems in a refugial zone. Quaternary Science Reviews 158: 44–57.
De Neef W (2016) Surface <> subsurface: A methodological
study of Metal Age settlement and land use in northern Calabria (Italy). PhD Thesis, University of Groningen. De Neef W, Armstrong K and Van Leusen M (2017)
Putting the spotlight on small Metal Age pottery scatters in northern Calabria (Italy). Journal of Field Archaeology 42(4): 283–297.
De Neef W, van Leusen M, Armstrong K et al. (2019) Between a rock, a gully, and a hard place: Archaeological prospection of Metal Age remains in the uplands of the Raganello Basin (Calabria, Italy). Funde in der Landschaft, LVR Amt fu¨r Bodendenkmalpflege im Rheinland 26: 159–169.
De Vita S, Sansivero F, Orsi G et al. (2010) Volcanological and structural evolution of the Ischia resurgent caldera (Italy) over the past 10 ky. Geological Society America Special Paper 464: 193–239.
Di Donato V, Insinga DD, Iorio M et al. (2019) The palae- oclimatic and palaeoceanographic history of the Gulf of Taranto (Mediterranean Sea) in the last 15 ky. Global and Planetary Change 172: 278–297.Di Rita F and Magri D (2019) The 4.2 ka event in the vegetation record of the central Mediterranean. Climate of the Past 15: 237–251.
Di Rita F, Lirer F, Bonomo S et al. (2018) Late Holocene forest dynamics in the Gulf of Gaeta (central Mediterranean) in relation to NAO variability and human impact. Quaternary Science Reviews 179: 137–152. Di Vito MA, Talamo P, de Vita S et al. (2019) Dynamics and effects of the Vesuvius Pomici di Avellino Plinian eruption and related phenomena on the Bronze Age landscape of Campania region (Southern Italy).
Quaternary International 499: 231–244.
FAO (2006) Guidelines for Soil Description. 4th Edition.
Rome: FAO.
Feiken H (2014) Dealing with Biases: Three Geo- Archaeological Approaches to the Hidden Landscapes of Italy, vol. 26. Eelde: Barkhuis.
Ghezzi G (1973) Carta geologica della Calabria alla scala di 1:25.000: Nota illustrative delle tavolette appartenenti al foglio 222della carta topografica d’Italia dell’I.G.M. (al 1:100.000): Amendolara. Amendolara: Cassa per opera straordinarie di pubbico interesse nell’Italia meridionale (Cassa per il Mezzogiorno).
Giannini G, Burton AN, Ghezzi G et al. (1963) Carta geo- logica della Calabria alla scala di 1:25.000. Nota illus- trative delle tavolette appartenenti al foglio 221 della carta topografica d’Italia dell’I.G.M. (al 1:100.000): Castrovı` llari. Castrovı` llari: Cassa per opera straordi- narie di pubbico interesse nell’Italia meridionale (Cassa per il Mezzogiorno).
Goldstein SL, Deines P, Oelkers EH et al. (2003) Standards for publication of isotope ratio and chemical data in Chemical Geology. Chemical Geology 202: 1–4.
Insinga DD, Petrosino P, Alberico I et al. (2020) The Late Holocene tephra record of the central Mediterranean Sea: Mapping occurrences and new potential isochrons for the 4.4–2.0 ka time interval. Journal of Quaternary Science 35(1–2): 213–231.
Ippolito F (2016) Before the Iron Age: The oldest settlements in the hinterland of the Sibaritide (Calabria, Italy). PhD Thesis, University of Groningen.
Jahn R, Blume HP, Asio VB et al. (2006) Guidelines for Soil Description. Rome: FAO.
Joannin S, Brugia paglia E, Beaulieu JL et al. (2012) Pollen- based reconstruction of Holocene vegetation and climate in southern Italy: The case of Lago Trifoglietti. Climate of the Past 8(6): 1973–1996.
Jung R (2017) Chronological problems of the Middle Bronze Age in Southern Italy. In: Lachenal T, Mordant C, Nicolas T et al. (eds) Le Bronze moyen et l’origine du Bronze final en Europe occidentale (XVIIe–XIIIe si`ecle av. J.-C.). Colloque international de l’APRAB. Strasbourg, 17 au 20 juin 2014. Strasbourg: M´emoires d’Arch´eologie du Grand-Est, pp. 623–642.
Larocca F, Minelli A and Larocca A (2019) Dentro la Pietra Sant’Angelo: Viaggio alla scoperta della preistoria nelle grotte di San Lorenzo Bellizzi. Speleologia 80: 24–31.
Leighton R (1998) Sicily before History, an Archaeological Survey from the Palaeolithic to the Iron Age. Ithaca, NY: Cornell University Press.
Livadie CA, Pearce M, Delle Donne M et al. (2019) The effects of the Avellino Pumice eruption on the
population of the Early Bronze age Campanian plain (Southern Italy). Quaternary International 499: 205–220.
Longin R (1971) New method of collagen extraction for radiocarbon dating. Nature 230(5291): 241–242.
Margaritelli G, Vallefuoco M, Di Rita F et al. (2016) Marine response to climate changes during the last five millennia in the central Mediterranean Sea. Global and Planetary Change 142: 53–72.
Mercuri AM, Sadori L and Uzquiano Ollero P (2011) Mediterranean and north-African cultural adaptations to mid-Holocene environmental and climatic changes. The Holocene 21(1): 189–206.
Passariello I, Livadie CA, Talamo P et al. (2009) 14 C Chronology of Avellino Pumices Eruption and timing of human reoccupation of the devastated region. Radiocarbon 51(2): 803–816.
Payne RJ and Egan J (2019) Using palaeoecological techni- ques to understand the impacts of past volcanic erup- tions. Quaternary International 499(Part B): 278–289.
Piccarreta M, Caldara M, Capolongo D et al. (2011) Holocene geomorphic activity related to climatic change and human impact in Basilicata, Southern Italy. Geomorphology 128(3–4): 137–147.
Riede F (2019) Doing palaeo-social volcanology: Developing a framework for systematically investigating the impacts of past volcanic eruptions on human socie- ties using archaeological datasets. Quaternary International 499(Part B): 266–277.
Roberts N, Brayshaw D, Kuzucuo˘glu C et al. (2011) The mid-Holocene climatic transition in the Mediterranean: Causes and consequences. The Holocene 21(1): 3–13.
Santacroce R, Cioni R, Marianelli P et al. (2008) Age and whole rock–glass compositions of proximal pyroclastics from the major explosive eruptions of Somma-Vesuvius: A review as a tool for distal tephrostratigraphy. Journal of Volcanology and Geothermal Research 177(1): 1–18.
Sevink J, Bakels CC, Di Vito MA et al. (2019) Holocene vegetation record of upland northern Calabria, Italy: Environmental change and human impact. The Holocene 29(4): 633–647.
Sevink J, den Haan M, van Leusen M et al. (2016) Raganello Basi n Studies 2: Soils and Soil Landscapes of the Raganello River Catchment (Calabria, Italy). Eelde: Barkhuis; Groningen: Groningen Institute of Archaeology.
Sevink J, van Bergen MJ, van der Plicht J et al. (2011) Robust date for the Bronze age Avellino eruption population of the Early Bronze age Campanian plain (Southern Italy). Quaternary International 499: 205–220.
Longin R (1971) New method of collagen extraction for radiocarbon dating. Nature 230(5291): 241–242.
Margaritelli G, Vallefuoco M, Di Rita F et al. (2016) Marine response to climate changes during the last five millennia in the central Mediterranean Sea. Global and Planetary Change 142: 53–72.
Mercuri AM, Sadori L and Uzquiano Ollero P (2011) Mediterranean and north-African cultural adaptations to mid-Holocene environmental and climatic changes. The Holocene 21(1): 189–206.
Passariello I, Livadie CA, Talamo P et al. (2009) 14 C Chronology of Avellino Pumices Eruption and timing of human reoccupation of the devastated region. Radiocarbon 51(2): 803–816.
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