References
- ArchibaldS, LehmannCER, Gómez-DansJL, BradstockRA. 2013. Defining pyromes and global syndromes of fire regimes. Proc Natl Acad Sci110: 6442–6447.
- ArchibaldS, RoyDP, Van WilgenBW, ScholesRJ. 2009. What limits fire? An examination of drivers of burnt area in southern Africa. Glob Change Biol15: 613–630.
- BajoccoS, RicottaC. 2008. Evidence of selective burning in Sardinia (Italy): Which land-cover classes do wildfires prefer?Landscape Ecol23: 241–248.
- BerglundBE, Ralska-JasiewiczowaM. 1986. Pollen analysis and pollen diagrams. In: BerglundBE, editor. Handbook of Holocene palaeoecology and palaeohydrology. Chichester: Wiley. pp. 455–496.
- Bernabò BreaL. 1961. La Sicilia prima dei Greci. 1st ed., Milano: Il Saggiatore.
- BisculmM, ColombaroliD, VescoviE, Van LeeuwenJFN, HennePD, RothenJ, ProcacciG, PastaS, La MantiaT, TinnerW. 2012. Holocene vegetation and fire dynamics in the supra-Mediterranean belt of the Nebrodi Mountains (Sicily, Italy). J Quat Sci27: 687–698.
- BurjachsF, ExpósitoI. 2014. Charcoal and pollen analysis: Examples of Holocene fire dynamics in Mediterranean Iberian Peninsula. Catena. 10.1016/2014.10.006.
- CalòC, HennePD, CurryB, MagnyM, VescoviE, La MantiaT, et al. 2012. Spatio-temporal patterns of Holocene environmental change in southern Sicily. Palaeogeogr Palaeoclimatol Palaeoecol323–325: 110–122.
- CarriónJS. 2002. Patterns and processes of Late Quaternary environmental change in a montane region of southwestern Europe. Quaternary Sci Rev21: 2047–2066.
- ClarkJS. 1988. Particle motion and the theory of charcoal analysis: Source area, transport, deposition, and sampling. Quaternary Res30: 67–80.
- ColombaroliD, MarchettoA, TinnerW. 2007. Long-term interactions between Mediterranean climate, vegetation and fire regime at Lago di Massaciuccoli (Tuscany, Italy). J Ecol95: 755–770.
- ColombaroliD, TinnerW, van LeeuwenJ, NotiR, VescoviE, VannièreB, et al. 2009. Response of broadleaved evergreen Mediterranean forest vegetation to fire disturbance during the Holocene: Insights from the peri-Adriatic region. J Biogeogr36: 314–326.
- ColombaroliD, VannièreB, ChapronE, MagnyM, TinnerW. 2008. Fire–vegetation interactions during the Mesolithic-Neolithic transition at Lago dell'Accesa. Holocene18: 679–692.
- Combourieu-NeboutN, PeyronO, Bout-RoumazeillesV, GoringS, DormoyI, JoanninS, et al. 2013. Holocene vegetation and climate changes in the central Mediterranean inferred from a high-resolution marine pollen record (Adriatic Sea). Clim Past9: 2023–2042.
- ConederaM, TinnerW, NeffC, MeurerM, DickensAF, KrebsP. 2009. Reconstructing past fire regimes: Methods, applications, and relevance to fire management and conservation. Quaternary Sci Rev28: 555–576.
- CurtT, BorgnietL, BouillonC. 2013. Wildfire frequency varies with the size and shape of fuel types in southeastern France: Implications for environmental management. J Environ Manage117: 150–161.
- DuroA, PiccioneV, ScaliaC, ZampinoD. 1997. Fitoclima della Sicilia – Contributo alla caratterizzazione del fattore aridità. 5th Workshop “Progetto strategico Clima Ambiente e Territorio nel Mezzogiorno”2: 133–150.
- GardnerJJ, WhitlockC. 2001. Charcoal accumulation following a recent fire in the Cascade Range, northwestern USA, and its relevance for fire-history studies. Holocene11: 541–549.
- GiannitrapaniE. 2012. Aspetti culturali e dinamiche del popolamento di età preistorica della provincia di Enna. Quaderni della Soprintendenza BB.CC.AA. di Enna1: 1–37.
- GiannitrapaniE, PluciennikM. 1998. La seconda campagna di ricognizione (settembre 1997) del progetto “Archeologia nella Valle del Torcicoda”. Sicilia Archeologica96: 59–69.
- GrimmEC. 1992. Tilia and Tilia-graph: Pollen spreadsheet and graphics programs. Program and Abstracts, 8th International Palynological Congress, 6–12 September 1992, Aix-en-Provence, France, p. 56.
- KaltenriederP, ProcacciG, VannièreB, TinnerW. 2010. Postglacial vegetation and fire history of the Euganean Hills (Colli Euganei) as recorded by sedimentary pollen and charcoal series from Lago della Costa (northeastern Italy). Holocene20: 679–695.
- KouliK. 2012. Vegetation development and human activities in Attiki (SE Greece) during the last 5000 years. Veg Hist Archaeobot21: 267–278.
- MatthiasI, GieseckeT. 2014. Insights into pollen source area, transport and deposition from modern pollen accumulation rates in lake sediments. Quaternary Sci Rev87: 12–23.
- MercuriAM, Bandini MazzantiM, FlorenzanoA, MontecchiMC, RattighieriE. 2013a. Olea, Juglans and Castanea: The OJC group as pollen evidence of the development of human-induced environments in the Italian peninsula. Quatern Int303: 24–42.
- MercuriAM, Bandini MazzantiM, FlorenzanoA, MontecchiMC, RattighieriE, TorriP. 2013b. Anthropogenic pollen indicators (API) from archaeological sites as local evidence of human-induced environments in the Italian peninsula. Ann Bot (Roma)3: 143–153.
- MercuriAM, Bandini MazzantiM, TorriP, VigliottiL, BosiG, FlorenzanoA, et al. 2012. A marine/terrestrial integration for mid-late Holocene vegetation history and the development of the cultural landscape in the Po valley as a result of human impact and climate change. Veget Hist Archaeobot21: 353–372.
- MercuriAM, SadoriL. 2014. The Mediterranean Sea: Its history and present challenges. In: GoffredoS, DubinskyZ, editors. The Mediterranean Sea. Its history and present challenges. Dordrecht: Springer. pp. 507–527.
- MolinariC, LehstenV, BradshawRHW, PowerMJ, HarmandP, ArnethA, et al. 2013. Exploring potential drivers of European biomass burning over the Holocene: A data-model analysis. Global Ecol Biogeogr22: 1248–1260.
- MoreiraF, ViedmaO, ArianoutsouM, CurtT, KoutsiasN, RigolotE, et al. 2011. Landscape–wildfire interactions in southern Europe: Implications for landscape management. J Environ Manage92: 2389–2402.
- MoritzMA, ParisienMA, BatlloriE, KrawchukMA, Van DornJ, GanzDJ, et al. 2012. Climate change and disruptions to global fire activity. Ecosphere3(6): 1–22.
- RiusD, GalopD, DoyenE, MilletL, VannièreB. 2013. Biomass burning response to high-amplitude climate and vegetation changes in southwestern France from the Last Glacial to the early Holocene. Veg Hist Archaeobot23: 1–14.
- RobertsN, BrayshawD, KuzucuoğluC, PerezR, SadoriL. 2011. The mid-Holocene climatic transition in the Mediterranean: Causes and consequences. Holocene21: 3–13.
- SadoriL, GiardiniM. 2007. Charcoal analysis, a method to study vegetation and climate of the Holocene: The case of Lago di Pergusa, Sicily (Italy). Geobios40: 173–180.
- SadoriL, GiardiniM. 2008. Environmental history in the Mediterranean basin: Microcharcoal as a tool to disentangle human impact and climate change. In: FiorentinoG, MagriD, editors. Charcoals from the past: Cultural and palaeoenvironmental implications., BAR International Series 1807. Oxford: Archaeopress. pp. 229–236.
- SadoriL, GiardiniM, GliozziE, MazziniI, SulpizioR, van WeldenA, et al. 2014. Vegetation, climate and environmental history of the last 4500 years at lake Shkodra (Albania/Montenegro). Holocene. https://doi.org/doi:10.1177/0959683614561891.
- SadoriL, GiraudiC, PetittiP, RamrathA. 2004. Human impact at Lago di Mezzano (central Italy) during the Bronze Age: A multidisciplinary approach. Quatern Int113: 5–17.
- SadoriL, JahnsS, PeyronO. 2011. Mid-Holocene vegetation history of the central Mediterranean. Holocene21: 117–129.
- SadoriL, NarcisiB. 2001. The postglacial record of environmental history from Lago di Pergusa (Sicily). Holocene11: 655–671.
- SadoriL, OrtuE, PeyronO, ZanchettaG, VannièreB, DesmetM, et al. 2013. The last 7 millennia of vegetation and climate changes at Lago di Pergusa (central Sicily, Italy). Clim Past9: 1969–1984.
- SadoriL, ZanchettaG, GiardiniM. 2008. Last Glacial to Holocene palaeoenvironmental evolution at Lago di Pergusa (Sicily, Southern Italy) as inferred by pollen, microcharcoal, and stable isotopes. Quatern Int181: 4–14.
- TermineR, SadoriL. 2005. Vegetazione attuale e del passato presso il Lago di Pergusa, Enna. Inf Bot Ital37: 536–537.
- TinnerW, van LeeuwenJFN, ColombaroliD, VescoviE, van der KnaapWO, HennePD, et al. 2009. Holocene environmental and climatic changes at Gorgo Basso, a coastal lake in southern Sicily, Italy. Quaternary Sci Rev28: 1498–1510.
- TusaS. 1992. La Sicilia e la preistoria. 2nd ed., Palermo: Sellerio.
- VannièreB, BossuetG, Walter-SimonnetA-V, GauthierE, BarralP, PetitC, et al. 2003. Land use change, soil erosion and alluvial dynamic in the lower Doubs Valley over the 1st millenium AD (Neublans, Jura, France). J Archaeol Sci30: 1283–1299.
- VannièreB, ColombaroliD, ChapronE, LerouxA, TinnerW, MagnyM. 2008. Climate versus human-driven fire regimes in Mediterranean landscapes: The Holocene record of Lago dell'Accesa (Tuscany, Italy). Quaternary Sci Rev27: 1181–1196.
- VannièreB, PowerMJ, RobertsN, TinnerW, CarriónJ, MagnyM, et al. 2011. Circum-Mediterranean fire activity and climate changes during the mid-Holocene environmental transition (8500–2500 cal. BP). Holocene21: 53–73.
- WhitlockC. 2004. Forests, fires and climate (short survey). Nature432(7013): 28–29.
- WhitlockC, BartleinPJ. 2003. Holocene fire activity as a record of past environmental change. Develop Quat Sci1-C: 479–490.
- WhitlockC, HigueraPE, McWethyDB, Briles ChristyE. 2010. Paleoecological perspectives on fire ecology: Revisiting the fire-regime concept. Open Ecol J3: 6–23.
- WhitlockC, LarsenC. 2001. Charcoal as a fire proxy. In: SmolJP, BirksHJ, LastWM, editors. Tracking environmental change using lake sediments. vol. 3. Dordrecht: Kluwer Academic Publisher. pp. 75–97.