Abstract
Detailed knowledge about the history of vegetation, fire and land use is scarce in Northern Greece. We analysed lake sediments from Limni Zazari (Northern Greece) to reconstruct the past local vegetation and fire history with a special focus on land use and its impacts on erosion and lake eutrophication. Our data suggest a rather dense steppic vegetation after ca 20,000 cal bp (18050 cal bc). Forest expansion with Pinus sylvestris and admixed Quercus pubescens started around 14,500 cal bp (12550 cal bc). After the onset of the Holocene, mixed deciduous sub-mediterranean oak forests expanded, accompanied by rapidly decreasing soil erosion rates and increasing aquatic biological productivity. Pollen of cereals and Plantago lanceolata suggests continuous farming activities in the region after 8,200 cal bp (6250 cal bc), in agreement with archaeological evidence. Fairly closed mixed pine-oak forests dominated the landscape until ca 3,500 cal bp (1550 cal bc) that were only temporarily reduced during the Neolithic around 7,100 and 6,500 cal bp (5150 and 4550 cal bc). Land cover changes and aquatic biogeochemistry were closely linked during this period. Forest phases corresponded to lake eutrophication and hypolimnetic anoxia (meromixis), whereas during periods of deforestation (e.g. around 8,200 cal bp/6250 cal bc) soil erosion rates and lake mixing increased, while aquatic productivity decreased. After 3,500 cal bp (1550 cal bc) humans disrupted forests and open land vegetation expanded (e.g. Artemisia, Rumex-type, Cichorioideae, Chenopodiaceae). With the onset of the Iron Age (ca. 3,050 cal bp/1100 cal bc) grassland communities expanded massively and pine-oak forests gradually declined. Anthropogenic pressure on forests increased even more during the past 500 years. Finally, forest recovery during the recent decades led to decreased erosion and increased lake productivity. We conclude that over the millennia, intense pastoral and arable activities shaped both aquatic and terrestrial environments, ultimately creating a humanized vegetation mosaic in which the original natural mixed deciduous oak forests only form relict stands. Future climate warming and decreasing anthropogenic pressure may release a rapid spread of mixed deciduous oak forests around Limni Zazari.
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References
Ammann B, Birks HJB, Brooks SJ et al (2000) Quantification of biotic responses to rapid climatic changes around the Younger Dryas—a synthesis. Palaeogeogr Palaeoclimatol Palaeoecol 159:313–347
Ammann B, van Leeuwen JF, van der Knaap WO, Lischke H, Heiri O, Tinner W (2013) Vegetation responses to rapid warming and to minor climatic fluctuations during the Late-Glacial Interstadial (GI-1) at Gerzensee (Switzerland). Palaeogeogr Palaeoclimatol Palaeoecol 391:40–59
Ammerman AJ, Cavalli-Sforza LL (1971) Measuring the rate of spread of early farming in Europe. Man 6:674–688
Aufgebauer A, Panagiotopoulos K, Wagner B et al (2012) Climate and environmental change in the Balkans over the last 17 ka recorded in sediments from Lake Prespa (Albania/F.Y.R. of Macedonia/Greece). Quat Int 274:122–135
Belfer-Cohen A, Goring-Morris AN (2011) Becoming farmers: the inside story. Curr Anthropol 52:209–220
Bennett KD (1996) Determination of the number of zones in a biostratigraphical sequence. New Phytol 132:155–170
Beug H (2004) Leitfaden der Pollenbestimmung für Mitteleuropa und angrenzende Gebiete. Pfeil, München
Birks HJB, Gordon AD (1985) Numerical methods in quaternary pollen analysis. Academic Press, London
Blaauw M (2010) Methods and code for ‘classical’ age-modelling of radiocarbon sequences. Quat Geochronol 5:512–518
Bond G, Heinrich H, Broecker W et al (1992) Evidence for massive discharges of icebergs into the North Atlantic Ocean during the last glacial period. Nature 360:245–249
Bottema S (1974) Late Quaternary vegetation history of northwestern Greece. Dissertation, University of Groningen
Bottema S (1982) Palynological investigations in Greece with special reference to pollen as an indicator of human activity. Palaeohistoria 24:257–288
Bottema S (1995) The younger Dryas in the eastern Mediterranean. Quat Sci Rev 14:883–891
Bottema S (2003) The vegetation history of the Greek Mesolithic. In: Galanidou N, Perlès C (eds) The greek mesolithic: problems and perspectives. British School at Athens Studies 10. British School at Athens, London, pp 33–49
Budja M (2004) The transition to farming and the ‘revolution’ of symbols in the Balkans. From ornament to entoptic and external symbolic storage. Doc Praehist 31:59–81
Butz C, Grosjean M, Fischer D, Wunderle S, Tylmann W, Rein B (2015) Hyperspectral imaging spectroscopy: a promising method for the biogeochemical analysis of lake sediments. J Appl Remote Sens 9(096031):1–20
Butz C, Grosjean M, Goslar T, Tylmann W (2017) Hyperspectral imaging of sedimentary bacterial pigments: a 1700 year history of meromixis from varved Lake Jaczno, northeast Poland. J Paleolimnol 58:57–72
Cappers RTJ, Bekker RM, Jans JEA (2006) Digitale Zadenatlas van Nederland. Groningen Archaeological Studies 4. Barkhuis Publishing, Groningen
Caudullo G, Tinner W (2016) Abies—Circum-Mediterranean firs in Europe: distribution, habitat, usage and threats. In: San-Miguel-Ayanz J, de Rigo D, Caudullo G, Houston Durrant T, Mauri A (eds) European atlas of forest tree species. Publication Office of the European Union, Luxembourg, pp 50–51
Chrysostomou P, Jagoulis T, Maeder A (2015) The ‘Culture of Four Lakes’: prehistoric lakeside settlements (6th-2nd mill. bc) in the Amindeon Basin, Western Macedonia, Greece. Archäol Schweiz 38:24–32
Clark JS, Merkt J, Müller H (1989) Post-glacial fire, vegetation, and human history on the northern alpine forelands, south-western Germany. J Ecol 77:897–925
Combourieu Nebout N, Peyron O, Dormoy I, Desprat S, Beaudouin C, Kotthoff U, Marret F (2009) Rapid climatic variability in the west Mediterranean during the last 25,000 years from high resolution pollen data. Clim Past 5:503–521
Conedera M, Krebs P, Tinner W, Pradella M, Torriani D (2004) The cultivation of Castanea sativa (Mill.) in Europe, from its origin to its diffusion on a continental scale. Veget Hist Archaeobot 13:161–179
Curry B, Henne PD, Mesquita-Joanes F et al (2016) Holocene paleoclimate inferred from salinity histories of adjacent lakes in southwestern Sicily (Italy). Quat Sci Rev 150:67–83
Davis MB (1963) On the theory of pollen analysis. Am J Sci 261:897–912
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. Quat Sci Rev 158:44–57
Eaton E, Caudullo G, Oliveira S, de Rigo D (2016) Quercus robur and Quercus petraea in Europe: distribution, habitat, usage and threats. In: San-Miguel-Ayanz J, de Rigo D, Caudullo G, Houston Durrant T, Mauri A (eds) European atlas of forest tree species. Publication Office of the European Union, Luxembourg, pp 160–163
Ellenberg H (1996) Vegetation Mitteleuropas mit den Alpen: in ökologischer, dynamischer und historischer Sicht, 5th edn. Ulmer, Stuttgart
El-Moslimany AP (1987) The late Pleistocene climates of the Lake Zeribar region (Kurdistan, western Iran) deduced from the ecology and pollen production of nonarboreal vegetation. Plant Ecol 72:131–139
Finsinger W, Tinner W (2005) Minimum count sums for charcoal concentration estimates in pollen slides: accuracy and potential errors. Holocene 15:293–297
Firbas F (1949) Spät- und nacheiszeitliche Waldgeschichte Mitteleuropas nördlich der Alpen, vol 1. Allgemeine Waldgeschichte. Fischer, Jena
Gkouma M, Karkanas P (2018) The physical environment in Northern Greece at the advent of the Neolithic. Quat Int 496:14–23. https://doi.org/10.1016/j.quaint.2016.08.034
Gobet E, Tinner W, Hubschmid P, Jansen I, Wehrli M, Ammann B, Wick L (2000) Influence of human impact and bedrock differences on the vegetational history of the Insubrian Southern Alps. Veget Hist Archaeobot 9:175–187
Grimm EC, Maher LJ, Nelson DM (2009) The magnitude of error in conventional bulk-sediment radiocarbon dates from central North America. Quat Res 72:301–308
Guilaine J (2003) De la vague à la tombe, la conquête néolithique de la Méditerranée (8000-2000 avant J.-C.). Le Seuil, Paris
Guilaine J (2018) A personal view of the neolithisation of the Western Mediterranean. Quat Int 470:211–225. https://doi.org/10.1016/j.quaint.2017.06.019
Haberzettl T, Corbella H, Fey M et al (2007) Lateglacial and Holocene wet—dry cycles in southern Patagonia: chronology, sedimentology and geochemistry of a lacustrine record from Laguna Potrok Aike, Argentina. Holocene 17:297–310
Haug GH, Hughen KA, Sigman DM, Peterson LC, Röhl U (2001) Southward migration of the intertropical convergence zone through the Holocene. Science 293:1,304–1,308
Heegaard E, Birks HJB, Telford RJ (2005) Relationships between calibrated ages and depth in stratigraphical sequences: an estimation procedure by mixed-effect regression. Holocene 15:612–618
Heiri O, Ilyashuk B, Millet L, Samartin S, Lotter AF (2015) Stacking of discontinuous regional palaeoclimate records: chironomid-based summer temperatures from the Alpine region. Holocene 25:137–149
Hofmanová Z, Kreutzer S, Hellenthal G et al (2016) Early farmers from across Europe directly descended from Neolithic Aegeans. Proc Natl Acad Sci USA 113:6,886–6,891
Hofstetter S, Tinner W, Valsecchi V, Carraro G, Conedera M (2006) Lateglacial and Holocene vegetation history in the Insubrian Southern Alps—New indications from a small-scale site. Veget Hist Archaeobot 15:87–98
Kaltenrieder P, Belis CA, Hofstetter S, Ammann B, Ravazzi C, Tinner W (2009) Environmental and climatic conditions at a potential Glacial refugial site of tree species near the Southern Alpine glaciers. New insights from multiproxy sedimentary studies at Lago della Costa (Euganean Hills, Northeastern Italy). Quat Sci Rev 28:2,647–2,662
Karamitrou-Mentessidi G, Efstratiou N, Kozłowski JK et al (2013) New evidence on the beginning of farming in Greece: the Early Neolithic settlement of Mavropigi in western Macedonia (Greece). Antiquity 87(336), Project Gallery. http://antiquity.ac.uk/projgall/mentessidi336/
Karamitrou-Mentessidi G, Efstratiou N, Kaczanowska M, Kozłowski JK (2015) Early neolithic settlement of Mavropigi in western greek Macedonia. Eurasian Prehist 12:47–116
Karkanas P, Pavlopoulos K, Kouli K, Ntinou M, Tsartsidou G, Facorellis Y, Tsourou T (2011) Palaeoenvironments and site formation processes at the Neolithic lakeside settlement of Dispilio, Kastoria, Northern Greece. Geoarchaeology 26:83–117
Kokkinidou D, Trantalidou K (1991) Neolithic and Bronze Age settlement in western Macedonia. Annu Br Sch Athens 86:93–106
Kotsakis K (2014) Domesticating the periphery. Pharos 20:41–73
Kotthoff U, Müller UC, Pross J, Schmiedl G, Lawson IT, van de Schootbrugge B, Schulz H (2008) Lateglacial and Holocene vegetation dynamics in the Aegean region: an integrated view based on pollen data from marine and terrestrial archives. Holocene 18:1,019–1,032
Krauß R, Marinova E, De Brue H, Weninger B (2018) The rapid spread of early farming from the Aegean into the Balkans via the Sub-Mediterranean-Aegean Vegetation Zone. Quat Int 496:24–41
Kutzbach JE, Webb T III (1993) Conceptual basis for understanding Late-Quaternary climates. In: Wright HE Jr, Kutzbach JE, Webb T III, Ruddiman WF, Street-Perrott FA, Bartlein PJ (eds) Global climates since the last glacial maximum. University of Minnesota Press, Minneapolis, pp 5–11
Lang G (1994a) Quartäre Vegetationsgeschichte Europas: Methoden und Ergebnisse. Fischer, Jena
Lang KJ (1994b) Abies alba Mill.: differentiation of provenances and provenance groups by the monoterpene patterns in the cortex resin of twigs. Biochem Syst Ecol 22:53–63
Laskar J, Robutel P, Joutel F, Gastineau M, Correia ACM, Levrard B (2004) A long-term numerical solution for the insolation quantities of the Earth. Astron Astrophys 428:261–285
Lawson IT, Al-Omari S, Tzedakis PC, Bryant CL, Christaniss K (2005) Lateglacial and Holocene vegetation history at Nisi Fen and the Boras mountains, northern Greece. Holocene 15:873–887
Legendre P, Birks HJB (2012) From classical to canonical ordination. In: Birks HJB, Lotter AF, Juggins S, Smol JP (eds) Tracking environmental change using lake sediments, vol 5. Data Handling and Numerical Techniques. Springer, Dordrecht, pp 201–248
Lespez L, Tsirtsoni Z, Darcque P et al (2013) The lowest levels at Dikili Tash, northern Greece: a missing link in the Early Neolithic of Europe. Antiquity 87(335):30–45
Magri D (2008) Patterns of post-glacial spread and the extent of glacial refugia of European beech (Fagus sylvatica). J Biogeogr 35:450–463
Mathieson I, Alpaslan-Roodenberg S, Posth C et al (2018) The genomic history of southeastern Europe. Nature 555:197–203
Moore P, Webb J, Collison M (1991) Pollen analysis. Blackwell Scientific Publications, Oxford
NGRIP (North Greenland Ice Core Project) Members (2004) High-resolution record of Northern Hemisphere climate extending into the last interglacial period. Nature 431:147–151
Özdoğan M (2011) Archaeological evidence on the westward expansion of farming communities from eastern Anatolia to the Aegean and the Balkans. Curr Anthropol 52(Suppl 4):S415–S430
Packham JR, Thomas PA, Atkinson MD, Degen T (2012) Biological flora of the British Isles: Fagus sylvatica. J Ecol 100:1,557–1,608
Pattan JN, Parthiban G, Garg A, Moraes NRC (2017) Intense reducing conditions during the last deglaciation and Heinrich events (H1, H2, H3) in sediments from the oxygen minimum zone off Goa, eastern Arabian Sea. Mar Pet Geol 84:243–256
Peyron O, Guiot J, Cheddadi R et al (1998) Climatic reconstruction in Europe for 18,000 yr B.P. from pollen data. Quat Res 49:183–196
Pignatti S (2005) Valori di bioindicazione delle piante vascolari della flora d’Italia. Dipartimento di Botanica ed Ecologia dell’Università, Camerino
Pross J, Kotthoff U, Müller UC et al (2009) Massive perturbation in terrestrial ecosystems of the Eastern Mediterranean region associated with the 8.2 kyr B.P. climatic event. Geology 37:887–890
Reille M (1992) Pollen et spores d’Europe et d’Afrique du Nord. Laboratoire de Botanique Historique et Palynologie, Marseille
Reimer PJ, Bard E, Bayliss A et al (2013) IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal bp. Radiocarbon 55:1,869–1,887
Rein B, Sirocko F (2002) In situ reflectance spectroscopy analysing techniques for high-resolution pigment logging in sediment cores. Int J Earth Sci 91:950–954
Reingruber A (2008) Die Argissa Magula: das frühe und das beginnende mittlere Neolithikum im Lichte transägäischer Beziehungen. Die deutschen Ausgrabungen auf der Argissa Magula in Thessalien 2. Habelt, Bonn
Rey F, Gobet E, van Leeuwen JFN et al (2017) Vegetational and agricultural dynamics at Burgäschisee (Swiss Plateau) recorded for 18,700 years by multi-proxy evidence from partly varved sediments. Veget Hist Archaeobot 26:571–586
Rodwell JS (1998) British plant communities. Aquatic Communities, Swamps and Tall-Herb Fens, vol 4. Cambridge University Press, Cambridge
Rosenmeier MF (2005) Bathymetric survey data of Lake Zazari. http://www.lakemaps.org. Accessed 14 May 2019
Sadori L, Koutsodendris A, Panagiotopoulos K et al (2016) Pollen-based paleoenvironmental and paleoclimatic change at Lake Ohrid (south-eastern Europe) during the past 500 ka. Biogeosciences 13:1,423–1,437
Samartin S, Heiri O, Lotter AF, Tinner W (2012) Climate warming and vegetation response after Heinrich event 1 (16 700-16 000 cal yr bp) in Europe south of the Alps. Clim Past 8:1,913–1,927
Samartin S, Heiri O, Kaltenrieder P, Kühl N, Tinner W (2016) Reconstruction of full glacial environments and summer temperatures from Lago della Costa, a refugial site in Northern Italy. Quat Sci Rev 143:107–119
Samartin S, Heiri O, Joos F, Renssen H, Franke J, Brönnimann S, Tinner W (2017) Warm Mediterranean mid-Holocene summers inferred from fossil midge assemblages. Nat Geosci 10:207–212
Schier W (2009) Extensiver Brandfeldbau und die Ausbreitung der neolithischen Wirtschaftsweise in Mitteleuropa und Südskandinavien am Ende des 5. Jahrtausends v. Chr. Prähist Z 84:15–43
Seferlis M, Clement B, Aidoud A (2009) Effect of climate change and human activities on lake marginal wetlands: land use and lake dynamics during the last 60 years in Cheimaditida-Zazari catchments, Macedonia, Greece. Report on effects of climate change and human activities on lake marginal wetlands (WP1, task 4.2). Integrated project to evaluate the impacts of global change on European Freshwater Ecosystems (EURO-LIMPACS)
Seppä H, Birks HJB (2001) July mean temperature and annual precipitation trends during the Holocene in the Fennoscandian tree-line area: pollen-based climate reconstructions. Holocene 11:527–539
Sinopoli G, Masi A, Regattieri E, Wagner B, Francke A, Peyron O, Sadori L (2018) Palynology of the last interglacial complex at Lake Ohrid: palaeoenvironmental and palaeoclimatic inferences. Quat Sci Rev 180:177–192
Skoulikidis NT, Bertahas I, Koussouris T (1998) The environmental state of freshwater resources in Greece (rivers and lakes). Environ Geol 36:1–17
Stockmarr J (1971) Tablets with spores used in absolute pollen analysis. Pollen Spores 13:615–621
Stuiver M, Reimer PJ, Reimer RW (2017) CALIB 7.1 [WWW program]. http://calib.org
Ter Braak CJF, Prentice IC (1988) A theory of gradient analysis. Adv Ecol Res 18:271–313
Ter Braak CJF, Smilauer P (2002) CANOCO. Software for canonical community ordination. Microcomputer Power, Ithaca
Tinner W, Hu FS (2003) Size parameters, size-class distribution and area-number relationship of microscopic charcoal: relevance for fire reconstruction. Holocene 13:499–505
Tinner W, Lotter AF (2001) Central European vegetation response to abrupt climate change at 8.2 ka. Geology 29:551–554
Tinner W, Lotter AF (2006) Holocene expansions of Fagus silvatica and Abies alba in Central Europe: where are we after eight decades of debate? Quat Sci Rev 25:526–549
Tinner W, Conedera M, Ammann B, Gaggeler HW, Gedye S, Jones R, Sagesser B (1998) Pollen and charcoal in lake sediments compared with historically documented forest fires in southern Switzerland since AD 1920. Holocene 8:31–42
Tinner W, Conedera M, Gobet E, Hubschmid P, Wehrli M, Ammann B (2000) A palaeoecological attempt to classify fire sensitivity of trees in the southern Alps. Holocene 10:565–574
Tinner W, van Leeuwen JF, Colombaroli D et al (2009) Holocene environmental and climatic changes at Gorgo Basso, a coastal lake in southern Sicily, Italy. Quat Sci Rev 28:1,498–1,510
Tinner W, Beer R, Bigler C et al (2015) Late-Holocene climate variability and ecosystem responses in Alaska inferred from high-resolution multiproxy sediment analyses at Grizzly Lake. Quat Sci Rev 126:41–56
Tinner W, Vescovi E, van Leeuwen JF et al (2016) Holocene vegetation and fire history of the mountains of Northern Sicily (Italy). Veget Hist Archaeobot 25:499–519
Trachsel M, Grosjean M, Schnyder D, Kamenik C, Rein B (2010) Scanning reflectance spectroscopy (380-730 nm): a novel method for quantitative high-resolution climate reconstructions from minerogenic lake sediments. J Paleolimnol 44:979–994
Tringham R (2000) Southeastern Europe in the transition to agriculture in Europe: bridge, buffer, or mosaic. In: Price TD (ed) Europe’s first farmers. Cambridge University Press, Cambridge, pp 19–56
Valamoti SM, Kotsakis K (2007) Transitions to Agriculture in the Aegean: the archaeobotanical evidence. In: Colledge S, Connolly J (eds) The origins and spread of domestic plants in Southwest Asia and Europe. Left Coast Press, Walnut Creek, pp 75–91
Valsecchi V, Finsinger W, Tinner W, Ammann B (2008) Testing the influence of climate, human impact and fire on the Holocene population expansion of Fagus sylvatica in the southern Prealps (Italy). Holocene 18:603–614
Van Geel B, Raspopov OM, van der Plicht J, Renssen H (1998) Solar forcing of abrupt climate change around 850 calendar years bc. In: Peister BJ, Palmer T, Bailey ME (eds) Natural catastrophes during bronze age civilisations: archaeological, geological, astronomical and cultural perspectives. BAR International Series 728. Archaeopress, Oxford, pp 162–168
Vescovi E, Ravazzi C, Arpenti E et al (2007) Interactions between climate and vegetation during the Lateglacial period as recorded by lake and mire sediment archives in Northern Italy and Southern Switzerland. Quat Sci Rev 26:1,650–1,669
Vogel H, Wagner B, Zanchetta G, Sulpizio R, Rosén P (2010) A paleoclimate record with tephrochronological age control for the last glacial-interglacial cycle from Lake Ohrid, Albania and Macedonia. J Paleolimnol 44:295–310
Von Grafenstein U, Erlenkeuser H, Müller J, Jouzel J, Johnsen S (1998) The cold event 8200 years ago documented in oxygen isotope records of precipitation in Europe and Greenland. Clim Dyn 14:73–81
Weninger B, Alram-Stern E, Bauer E et al (2006) Climate forcing due to the 8200 cal yr bp event observed at Early Neolithic sites in the eastern Mediterranean. Quat Res 66:401–420
Wijmstra TA, Smit A (1976) Palynology of the middle part (30-78 metres) of the 120 m deep section in northern Greece (Macedonia). Plant Biol 25:297–312
Williams JW, Post DM, Cwynar LC, Lotter AF, Levesque AJ (2002) Rapid and widespread vegetation responses to past climate change in the North Atlantic region. Geology 30:971–974
Willis KJ (1992) The late quaternary vegetational history of northwest Greece. New Phytol 121:119–138
Ziegler M, Jilbert T, De Lange GJ, Lourens LJ, Reichart G (2008) Bromine counts from XRF scanning as an estimate of the marine organic carbon content of sediment cores. Geochem Geophys Geosyst. https://doi.org/10.1029/2007gc001932
Acknowledgements
We gratefully thank the coring team Willi Tanner, André Lotter, Sandra Brügger and Sebastian Eggenberger for the field work. Tiziana Pedrotta is acknowledged for help during XRF analysis, Pim van der Knaap for help with botanical identifications, Sandra Brügger and Fabian Rey for help with figure design. We acknowledge the University of Bern for financing field work (ID-Grant 2015/003 to A. Hafner and W. Tinner). S. Makri was funded through the Hans Sigrist Foundation and SNF Grant (200021_172586).
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Gassner, S., Gobet, E., Schwörer, C. et al. 20,000 years of interactions between climate, vegetation and land use in Northern Greece. Veget Hist Archaeobot 29, 75–90 (2020). https://doi.org/10.1007/s00334-019-00734-5
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DOI: https://doi.org/10.1007/s00334-019-00734-5