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1. Palaeoecological data indicates land-use changes across Europe linked to spatial heterogeneity in mortality during the Black Death pandemic

Author

Izdebski, A., Guzowski, P., Poniat, R., Masci, L., Palli, J., Vignola, C., Bauch, M., Cocozza, C., Fernandes, R., Ljungqvist, F. C., Newfield, T., Seim, A., Abel-Schaad, D., Alba-Sánchez, F., Björkman, L., Brauer, A., Brown, A., Czerwiński, S., Ejarque, A., Fiłoc, M., Florenzano, A., Fredh, E. D., Fyfe, R., Jasiunas, N., Kołaczek, P., Kouli, K., Kozáková, R., Kupryjanowicz, M., Lagerås, P., Lamentowicz, M., Lindbladh, M., López-Sáez, J. A., Luelmo-Lautenschlaeger, R., Marcisz, K., Mazier, F., Mensing, S., Mercuri, A. M., Milecka, K., Miras, Y., Noryśkiewicz, A. M., Novenko, E., Obremska, M., Panajiotidis, S., Papadopoulou, M. L., Pędziszewska, A., Pérez-Díaz, S., Piovesan, G., Pluskowski, A., Pokorny, P., Poska, A., Reitalu, T., Rösch, M., Sadori, L., Sá Ferreira, C., Sebag, D., Słowiński, M., Stančikaitė, M., Stivrins, N., Tunno, I., Veski, S., Wacnik, A., and Masi, A.

Published
2022
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5. Expedition 381 facies associations

Author

McNeill, L.C., primary, Shillington, D.J., additional, Carter, G.D.O., additional, Everest, J.D., additional, Le Ber, E., additional, Collier, R.E., additional, Cvetkoska, A., additional, De Gelder, G., additional, Diz, P., additional, Doan, M.L., additional, Ford, M., additional, Gawthorpe, R.L., additional, Geraga, M., additional, Gillespie, J., additional, Hemelsdaël, R., additional, Herrero-Bervera, E., additional, Ismaiel, M., additional, Janikian, L., additional, Kouli, K., additional, Li, S., additional, Machlus, M.L., additional, Maffione, M., additional, Mahoney, C., additional, Michas, G., additional, Miller, C., additional, Nixon, C.W., additional, Oflaz, S.A., additional, Omale, A.P., additional, Panagiotopoulos, K., additional, Pechlivanidou, S., additional, Phillips, M.P., additional, Sauer, S., additional, Seguin, J., additional, Sergiou, S., additional, and Zakharova, N.V., additional

Published
2019
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6. Site M0079

Author

McNeill, L.C., primary, Shillington, D.J., additional, Carter, G.D.O., additional, Everest, J.D., additional, Le Ber, E., additional, Collier, R.E., additional, Cvetkoska, A., additional, De Gelder, G., additional, Diz, P., additional, Doan, M.L., additional, Ford, M., additional, Gawthorpe, R.L., additional, Geraga, M., additional, Gillespie, J., additional, Hemelsdaël, R., additional, Herrero-Bervera, E., additional, Ismaiel, M., additional, Janikian, L., additional, Kouli, K., additional, Li, S., additional, Machlus, M.L., additional, Maffione, M., additional, Mahoney, C., additional, Michas, G., additional, Miller, C., additional, Nixon, C.W., additional, Oflaz, S.A., additional, Omale, A.P., additional, Panagiotopoulos, K., additional, Pechlivanidou, S., additional, Phillips, M.P., additional, Sauer, S., additional, Seguin, J., additional, Sergiou, S., additional, and Zakharova, N.V., additional

Published
2019
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7. Expedition 381 summary

Author

McNeill, L.C., primary, Shillington, D.J., additional, Carter, G.D.O., additional, Everest, J.D., additional, Le Ber, E., additional, Collier, R.E., additional, Cvetkoska, A., additional, De Gelder, G., additional, Diz, P., additional, Doan, M.L., additional, Ford, M., additional, Gawthorpe, R.L., additional, Geraga, M., additional, Gillespie, J., additional, Hemelsdaël, R., additional, Herrero-Bervera, E., additional, Ismaiel, M., additional, Janikian, L., additional, Kouli, K., additional, Li, S., additional, Machlus, M.L., additional, Maffione, M., additional, Mahoney, C., additional, Michas, G., additional, Miller, C., additional, Nixon, C.W., additional, Oflaz, S.A., additional, Omale, A.P., additional, Panagiotopoulos, K., additional, Pechlivanidou, S., additional, Phillips, M.P., additional, Sauer, S., additional, Seguin, J., additional, Sergiou, S., additional, and Zakharova, N.V., additional

Published
2019
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8. Expedition 381 methods

Author

McNeill, L.C., primary, Shillington, D.J., additional, Carter, G.D.O., additional, Everest, J.D., additional, Le Ber, E., additional, Collier, R.E., additional, Cvetkoska, A., additional, De Gelder, G., additional, Diz, P., additional, Doan, M.L., additional, Ford, M., additional, Gawthorpe, R.L., additional, Geraga, M., additional, Gillespie, J., additional, Hemelsdaël, R., additional, Herrero-Bervera, E., additional, Ismaiel, M., additional, Janikian, L., additional, Kouli, K., additional, Li, S., additional, Machlus, M.L., additional, Maffione, M., additional, Mahoney, C., additional, Michas, G., additional, Miller, C., additional, Nixon, C.W., additional, Oflaz, S.A., additional, Omale, A.P., additional, Panagiotopoulos, K., additional, Pechlivanidou, S., additional, Phillips, M.P., additional, Sauer, S., additional, Seguin, J., additional, Sergiou, S., additional, and Zakharova, N.V., additional

Published
2019
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10. Big Data Palaeoecology reveals significant variation in Black Death mortality in Europe [Preprint]

Author

Izdebski, A., Guzowski, P., Poniat, R., Masci, L., Palli, J., Vignola, C., Bauch, M., Cocozza, C., Fernandes, R., Ljungqvist, F. C., Newfield, T., Seim, A., Abel-Schaad, D., Alba-Sánchez, F., Björkman, L., Brauer, A., Brown, A., Czerwiński, S., Ejarque, A., Fiłoc, M., Florenzano, A., Fredh, E. D., Fyfe, R., Jasiunas, N., Kołaczek, P., Kouli, K., 1, Kozáková, R., Kupryjanowicz, M., Lagerås, P., Lamentowicz, M., Lindbladh, M., López-Sáez, J. A., Luelmo-Lautenschlaeger, R., Marcisz, K., Mazier, F., Mensing, S., Mercuri, A. M., Milecka, K., Miras, Y., Noryśkiewicz, A. M., Novenko, E., Obremska, M., Panajiotidis, S., Papadopoulou, M. L., Pędziszewska, A., Pérez-Díaz, S., Piovesan, G., Pluskowski, A., Pokorny, P., Poska, A., Reitalu, T., Rösch, M., Sadori, L., Sá Ferreira, C., Sebag, D., Słowiński, M., Stančikaitė, M., Stivrins, N., Tunno, I., Veski, S., Wacnik, A., Masi, A., Universidad de Cantabria, Max Planck Institute for the Science of Human History (MPI-SHH), Max-Planck-Gesellschaft, Uniwersytet Jagielloński w Krakowie = Jagiellonian University (UJ), University of Bialystok, Department of Earth Sciences, Sapienza University of Rome, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Department of Environmental Biology, Sapienza University of Rome, Università degli studi della Tuscia [Viterbo], Leibniz Institute for the History and Culture of Eastern Europe (GWZO), Universität Leipzig, ArchaeoBioCenter, Ludwig-Maximilians-Universität München, München, Germany, School of Archaeology, University of Oxford, Oxford, UK, Masaryk University [Brno] (MUNI), Stockholm University, Bolin Centre for Climate Research, Swedish Collegium for Advanced Study [Uppsala], Department of History, Georgetown University, Washington DC, USA, Department of biology, georgetown University, Washington DC, Chair of Forest Growth and Dendroecology, University of Freiburg, Institute of Botany [Innsbruck], Leopold Franzens Universität Innsbruck - University of Innsbruck, Universidad de Granada = University of Granada (UGR), Viscum Pollenanalys & Miljöhistoria, Nässjö, Sweden, German Research Centre for Geosciences - Helmholtz-Centre Potsdam (GFZ), Institute of Geosciences [Potsdam], University of Potsdam = Universität Potsdam, Wessex Archaeology [Salisbury], Department of Archaeology and Centre for Past Climate Change, University of Reading, Reading, UK, Adam Mickiewicz University in Poznań (UAM), Laboratoire de Géographie Physique et Environnementale (GEOLAB), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut Sciences de l'Homme et de la Société (IR SHS UNILIM), Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM), Department of Palaeobiology, Faculty of Biology, University of Białystok, Białystok, Poland, Laboratory of Palynology and Palaeobotany, Department of Life Sciences, University of Modena and Reggio Emilia, Modena, Italy, The Arctic University of Norway [Tromsø, Norway] (UiT), School of Geography, Earth and Environmental Sciences [Plymouth] (SoGEES), Plymouth University, University of Latvia (LU), National and Kapodistrian University of Athens (NKUA), Institute of Archaeology of the Czech Academy of Sciences, Prague, The Archaeologists, National Historical Museums, Lund, Sweden, Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences (SLU), Environmental Archaeology Research Group, Institute of History, CSIC, Madrid, Spain, Department of Geography, Universidad Autónoma de Madrid, Madrid, Spain, Géographie de l'environnement (GEODE), Université Toulouse - Jean Jaurès (UT2J), Université de Toulouse (UT)-Université de Toulouse (UT)-Centre National de la Recherche Scientifique (CNRS), Department of Geography, University of Nevada, Reno, USA, Histoire naturelle de l'Homme préhistorique (HNHP), Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS), Nicolaus Copernicus University [Toruń], MSU Faculty of Geography [Moscow], Lomonosov Moscow State University (MSU), Institute of Geography, Russian Academy of Sciences, Moscow, Russian Federation, Institute of Geological Sciences, Polish Academy of Sciences, Polska Akademia Nauk = Polish Academy of Sciences (PAN), Laboratory of Forest Botany-Geobotany, School of Forestry and Natural Environment, Aristotle University of Thessaloniki, Thessaloniki, Greece, University of Cologne, Faculty of Biology [Gdansk, Poland], University of Gdańsk (UG), Department of Geography, Urban and Regional Planning, Universidad de Cantabria, Santander, Spain., Centre for Theoretical Studies, Charles University, Czechia (CTS), Charles University [Prague] (CU)-Czech Academy of Sciences [Prague] (CAS), Institute of Geology at Tallinn, Tallinn University of Technology (TTÜ), Universität Heidelberg [Heidelberg] = Heidelberg University, Queen's University [Belfast] (QUB), IFP Energies nouvelles (IFPEN), Institute of Geography and Spatial Organization, Polish Academy of Sciences, Nature Research Centre, Institute of Geology and Geography, Vilnius, Lithuania, Center for Accelerator Mass Spectrometry (CAMS), Lawrence Livermore National Laboratory, Lawrence, CA, USA, W. Szafer Institute of Botany, Polish Academy of Sciences, European Project: 263735,EC:FP7:ERC,ERC-2010-StG_20091209,TEC(2010), Max Planck Institute for the Science of Human History, Kahlaische Str. 10, 07745, Jena, Germany, Faculty of History and International Relations, University of Bialystok, Bialystok, Poland, Department of Earth Science, Sapienza University of Rome, Rome, Italy, Department of Environmental Biology, Sapienza University of Rome, Piazzale Aldo Moro 5, 00185 Roma, Italy, Leibniz Institute for the History and Culture of Eastern Europe (GWZO), Leipzig, Germany, Swedish Collegium for Advanced Study, Uppsala, Sweden, Chair of Forest Growth and Dendroecology, Institute of Forest Sciences, Albert-Ludwigs-University Freiburg, Freiburg, Universität Innsbruck [Innsbruck], GFZ-German Research Centre for Geosciences, Section Climate Dynamics and Landscape Evolution, Potsdam, Germany, Institute of Geosciences, University of Potsdam, Potsdam, Germany, Wessex Archaeology, Portway House, Salisbury, UK, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), The Arctic University of Norway (UiT), Institute of Archeology, Academy of Sciences of the Czech Republic, Prague, Czech Republi, Université Toulouse - Jean Jaurès (UT2J)-Centre National de la Recherche Scientifique (CNRS), Faculty of Geography, Lomonosov Moscow State University, Moscow, Russia., Department of Quaternary Research, Institute of Geography Russian Academy of Science, Moscow, Russia, Institute of Geological Sciences, Polish Academy of Sciences, Warsaw, Poland., Laboratory of Palaeoecology and Archaeobotany, Department of Plant Ecology, Faculty of Biology, University of Gdańsk, Gdańsk, Poland., Charles University [Prague] (CU), Department of Geology, Tallinn University of Technology, Tallinn, Estonia, Lund University [Lund], Department of Geology, Tallinn University of Technology, Tallinn, Estonia., Institute of Ecology and Earth Sciences, University of Tartu, Tartu, Estonia, University of Tartu, Universität Heidelberg [Heidelberg], IFP Energies Nouvelles, Earth Sciences and Environmental Technologies Division, Rueil-Malmaison, Rueil-Malmaison, Past Landscape Dynamics Laboratory, Institute of Geography and Spatial Organization, Polish Academy of Sciences, Warsaw, Poland., 3 Department of Geology, Tallinn University of Technology, Tallinn, Estonia, W. Szafer Institute of Botany, Polish Academy of Sciences, Kraków, Poland., Institute of History, Jagiellonian University in Krakow, Krakow, Poland, Department of Agriculture and Forest Sciences (Dafne), University of Tuscia, Viterbo, Italy, Department of Ecological and Biological Sciences (Deb), University of Tuscia, Viterbo, Italy., Faculty of Arts, Masaryk University, Brno, Czech Republic, Department of Botany, University of Innsbruck, Innsbruck, Austria, Department of Botany, University of Granada, Granada, Spain, Climate Change Ecology Research Unit, Adam Mickiewicz University, Poznań, Poland., Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Université Clermont Auvergne (UCA)-Institut Sciences de l'Homme et de la Société (IR SHS UNILIM), Université de Limoges (UNILIM)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS), ISEM, UMR 5554, Université Montpellier, CNRS, EPHE, IRD, Montpellier, Museum of Archaeology, University of Stavanger, Stavanger, Norway, School of Geography, Earth and Environmental Science, University of Plymouth, Plymouth, UK, Department of Geography, University of Latvia, Riga, Latvia., Climate Change Ecology Research Unit, Adam Mickiewicz University, Poznań, Poland, Department of Geology and Geoenvironment, National and Kapodistrian University of Athens, Athens, Greece, Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences, Alnarp, Sweden, Centre National de la Recherche Scientifique (CNRS)-Université Toulouse - Jean Jaurès (UT2J), Anthropocene Research Unit, Faculty of Geographical and Geological Sciences, Adam Mickiewicz University, Poznań, CNRS, HNHP UMR 7194, Muséum National d’Histoire Naturelle, Institut de Paléontologie Humaine, Paris, France, Institute of Archaeology, Faculty of History, Nicolaus Copernicus University, Toruń, Poland., Centre for Climate Change Research, Nicolaus Copernicus University, Toruń, Poland, Institute of Geography, University of Cologne, Cologne, Germany, Department of Ecological and Biological Sciences (Deb), University of Tuscia, Viterbo, Italy, Centre for Theoretical Study, Charles University and Academy of Sciences of the Czech Republic, Prague, Czech Republic., Department of Physical Geography and Ecosystem Science, Lund University, Lund, Sweden, Department of Pre- and Early History and West Asian Archaeology, University of Heidelberg, Heidelberg, Germany, School of Natural and Built Environment, Queen’s University, Belfast, Northern Ireland, Department of Geography, University of Latvia, Riga, Latvia, Institute of Latvian History, University of Latvia, Riga, Latvia., Max Planck Society, Estonian Research Council, European Research Council, Latvian Council of Science, Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Swedish Research Council, Volkswagen Foundation, Ministerio de Ciencia e Innovación (España), López Sáez, José Antonio [0000-0002-3122-2744], López Sáez, José Antonio, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), and Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS)-Université de Perpignan Via Domitia (UPVD)

Subjects
Land-use changes, Ecology, black death pandemic, Humaniora: 000::Arkeologi: 090 [VDP], palaeoecological data, [SHS.GEO]Humanities and Social Sciences/Geography, paleoecology, palynology, big data, paleoecology, Europe, big data, [SHS.ENVIR]Humanities and Social Sciences/Environmental studies, [SDE]Environmental Sciences, [SHS.HIST]Humanities and Social Sciences/History, palynology, Ecology, Evolution, Behavior and Systematics
Abstract

The authors acknowledge the following funding sources: Max Planck Independent Research Group, Palaeo-Science and History Group (A.I., A.M. and C.V.); Estonian Research Council #PRG323, PUT1173 (A.Pos., T.R., N.S. and S.V.); European Research Council #FP7 263735 (A.Bro. and A.Plu.), #MSC 655659 (A.E.); Georgetown Environmental Initiative (T.N.); Latvian Council of Science #LZP-2020/2-0060 (N.S. and N.J.); LLNL-JRNL-820941 (I.T.); NSF award #GSS-1228126 (S.M.); Polish-Swiss Research Programme #013/2010 CLIMPEAT (M.Lam.), #086/2010 CLIMPOL (A.W.); Polish Ministry of Science and Higher Education #N N306 275635 (M.K.); Polish National Science Centre #2019/03/X/ST10/00849 (M.Lam.), #2015/17/B/ST10/01656 (M.Lam.), #2015/17/B/ST10/03430 (M.So.), #2018/31/B/ST10/02498 (M.So.), #N N304 319636 (A.W.); SCIEX #12.286 (K.Mar.); Spanish Ministry of Economy and Competitiveness #REDISCO-HAR2017-88035-P (J.A.L.S.); Spanish Ministry of Education, Culture and Sports #FPU16/00676 (R.L.L.); Swedish Research Council #421-2010-1570 (P.L.), #2018-01272 (F.C.L. and A.S.); Volkswagen Foundation Freigeist Fellowship Dantean Anomaly (M.B.), Spanish Ministry of Science and Innovation #RTI2018-101714-B-I00 (F.A.S. and D.A.S.), OP RDE, MEYS project #CZ.02.1.01/0.0/0.0/16_019/0000728 (P.P.)., The Black Death (1347–1352 ce) is the most renowned pandemic in human history, believed by many to have killed half of Europe’s population. However, despite advances in ancient DNA research that conclusively identified the pandemic’s causative agent (bacterium Yersinia pestis), our knowledge of the Black Death remains limited, based primarily on qualitative remarks in medieval written sources available for some areas of Western Europe. Here, we remedy this situation by applying a pioneering new approach, ‘big data palaeoecology’, which, starting from palynological data, evaluates the scale of the Black Death’s mortality on a regional scale across Europe. We collected pollen data on landscape change from 261 radiocarbon-dated coring sites (lakes and wetlands) located across 19 modern-day European countries. We used two independent methods of analysis to evaluate whether the changes we see in the landscape at the time of the Black Death agree with the hypothesis that a large portion of the population, upwards of half, died within a few years in the 21 historical regions we studied. While we can confirm that the Black Death had a devastating impact in some regions, we found that it had negligible or no impact in others. These inter-regional differences in the Black Death’s mortality across Europe demonstrate the significance of cultural, ecological, economic, societal and climatic factors that mediated the dissemination and impact of the disease. The complex interplay of these factors, along with the historical ecology of plague, should be a focus of future research on historical pandemics., Max Planck Independent Research Group, Palaeo-Science and History Group, Estonian Research Council PRG323 PUT1173, European Research Council (ERC) European Commission FP7 263735 MSC 655659, Georgetown Environmental Initiative, Latvian Ministry of Education and Science LZP-2020/2-0060 LLNL-JRNL-820941, National Science Foundation (NSF) GSS-1228126, Polish-Swiss Research Programme 013/2010 086/2010, Ministry of Science and Higher Education, Poland N306 275635, Polish National Science Centre 2019/03/X/ST10/00849 2015/17/B/ST10/01656 2015/17/B/ST10/03430 2018/31/B/ST10/02498 N N304 319636, SCIEX 12.286, Spanish Government REDISCO-HAR2017-88035-P FPU16/00676, Swedish Research Council, European Commission 421-2010-1570 2018-01272, Volkswagen Foundation Freigeist Fellowship Dantean Anomaly, Spanish Government RTI2018-101714-B-I00, OP RDE, MEYS project CZ.02.1.01/0.0/0.0/16_019/0000728

Published
2022
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11. Palaeoecological data indicates land-use changes across Europe linked to spatial heterogeneity in mortality during the Black Death pandemic

Author

Max Planck Society, Estonian Research Council, European Research Council, Latvian Council of Science, Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Swedish Research Council, Volkswagen Foundation, Ministerio de Ciencia e Innovación (España), López Sáez, José Antonio [0000-0002-3122-2744], Izdebski, A., Guzowski, P., Poniat, R., Masci, Lucrezia, Palli, J., Vignola, Cristiano, Bauch, M., Cocozza, C., Fernandes, R., Ljungqvist , F.C., Newfield, T., Seim, A., Abel-Schaad, D., Alba-Sánchez, F., Björkman, L., Brauer, A., Brown, A., Czerwiński, S., Ejarque, A., Fiłoc, M., Florenzano, A., Fredh, E. D., Fyfe, R, Jasiunas, N., Kołaczek, P., Kouli, K., Kozáková, R., Kupryjanowicz, M., Lagerås, P., Lamentowicz. M., Lindbladh, M., López Sáez, José Antonio, Luelmo Lautenschlaeger, Reyes, Marcisz, K., Mazier, F., Mensing, S., Mercuri, A.M., Milecka, K., Miras, Y., Noryśkiewicz, A.M., Novenko, E., Obremska, M., Panajiotidis, S., Papadopoulou, M.L., Pędziszewska, A., Pérez-Díaz, Sebastián, Piovesan, G., Pluskowski, A., Pokorný, Petr, Poska, A., Reitalu, T., Rösch, M., Sadori , L., Sá Ferreira, C., Sebag, D., Słowiński, M., Stančikaitė, M., Stivrins, N., Tunno, I., Veski, S., Wacnik, A., Masi, A., Max Planck Society, Estonian Research Council, European Research Council, Latvian Council of Science, Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Swedish Research Council, Volkswagen Foundation, Ministerio de Ciencia e Innovación (España), López Sáez, José Antonio [0000-0002-3122-2744], Izdebski, A., Guzowski, P., Poniat, R., Masci, Lucrezia, Palli, J., Vignola, Cristiano, Bauch, M., Cocozza, C., Fernandes, R., Ljungqvist , F.C., Newfield, T., Seim, A., Abel-Schaad, D., Alba-Sánchez, F., Björkman, L., Brauer, A., Brown, A., Czerwiński, S., Ejarque, A., Fiłoc, M., Florenzano, A., Fredh, E. D., Fyfe, R, Jasiunas, N., Kołaczek, P., Kouli, K., Kozáková, R., Kupryjanowicz, M., Lagerås, P., Lamentowicz. M., Lindbladh, M., López Sáez, José Antonio, Luelmo Lautenschlaeger, Reyes, Marcisz, K., Mazier, F., Mensing, S., Mercuri, A.M., Milecka, K., Miras, Y., Noryśkiewicz, A.M., Novenko, E., Obremska, M., Panajiotidis, S., Papadopoulou, M.L., Pędziszewska, A., Pérez-Díaz, Sebastián, Piovesan, G., Pluskowski, A., Pokorný, Petr, Poska, A., Reitalu, T., Rösch, M., Sadori , L., Sá Ferreira, C., Sebag, D., Słowiński, M., Stančikaitė, M., Stivrins, N., Tunno, I., Veski, S., Wacnik, A., and Masi, A.

Abstract

The Black Death (1347–1352 CE) is the most renowned pandemic in human history, believed by many to have killed half of Europe’s population. However, despite advances in ancient DNA research that conclusively identified the pandemic’s causative agent (bacterium Yersinia pestis), our knowledge of the Black Death remains limited, based primarily on qualitative remarks in medieval written sources available for some areas of Western Europe. Here, we remedy this situation by applying a pioneering new approach, ‘big data palaeoecology’, which, starting from palynological data, evaluates the scale of the Black Death’s mortality on a regional scale across Europe. We collected pollen data on landscape change from 261 radiocarbon-dated coring sites (lakes and wetlands) located across 19 modern-day European countries. We used two independent methods of analysis to evaluate whether the changes we see in the landscape at the time of the Black Death agree with the hypothesis that a large portion of the population, upwards of half, died within a few years in the 21 historical regions we studied. While we can confirm that the Black Death had a devastating impact in some regions, we found that it had negligible or no impact in others. These inter-regional differences in the Black Death’s mortality across Europe demonstrate the significance of cultural, ecological, economic, societal and climatic factors that mediated the dissemination and impact of the disease. The complex interplay of these factors, along with the historical ecology of plague, should be a focus of future research on historical pandemics.

Published
2022

13. Late-Holocene paleoenvironmental and land-use changes in Western Greece based on a sediment record from Klisova lagoon

Author

Emmanouilidis, A. Panagiotopoulos, K. Kouli, K. Avramidis, P.

Abstract

In this study, we present the findings of a sediment core retrieved from Klisova lagoon, Western Greece, an area with a long record of documented human presence. The recovered deposits were subjected to sedimentological, XRF, and micropaleontological analyses. For the last 4700 cal BP, the freshwater influx, the progradation of the Evinos river delta and related geomorphological changes control the environmental conditions in the lagoon. Considering the centennial temporal resolution of our analyses, small offsets of c.a. 50 years due to lack of regional reservoir correction do not considerably impact the reported radiocarbon ages. Prior to 4000 cal BP, a relatively shallow water depth, significant terrestrial/freshwater input and increased weathering in the lagoon area are inferred. Elemental proxies and increased dinoflagellate cyst and foraminiferal abundances, which indicate marine conditions with prominent freshwater influxes, point to the gradual deepening of the lagoon up to 2000 cal BP. The marine and freshwater condition equilibrium sets at 1300 cal BP, with the lagoonal system reaching its present state. Maxima of anthropogenic pollen indicators during the Mycenaean (3200 cal BP), Hellenistic (2200 cal BP), and Late Byzantine (800 cal BP) periods suggest intervals of increased anthropogenic activities in the area. © The Author(s) 2022.

Published
2022

18. Evidence from the Piraeus coastal plain and Elefsis bay sedimentary y records. Water

Author

Triantaphyllou, Maria, Tsourou, Theodora, Kouli, K, Koukousioura, Olga, Dimiza, Margarita, Aidona, E, Syrides, G., Antoniou, Varvara, Panagiotopoulos, I, Vandarakis, Dimitris, Pallikarakis, A, Cheilaris, Sofia, Skampa, Elisavet, Goiran, Jean-Philippe, Fouache, Eric, Pavlopoulos, Kosmas, and Fouache, Eric

Subjects
[SDE.ES] Environmental Sciences/Environmental and Society
Published
2021

19. Evaluation of anhydrosugars as a molecular proxy for paleofire activity: A case study on a Holocene sediment core from Agios Floros, Peloponnese, Greece

Author

Norström, E. West, J. Kouli, K. Katrantsiotis, C. Hättestrand, M. Smittenberg, R.H.

Abstract

The anhydrosugars, levoglucosan, mannosan and galactosan, are regarded as suitable molecular indicators of natural biomass combustion. Here, we evaluate summed anhydrosugars (SAS) as a paleofire indicator in a 6000 year-long fossil core from Agios Floros fen, Peloponnese, Greece, by analyzing charcoal fragments in parallel, throughout the sediment sequence. Modern surface soil samples from the same region were analysed for the presence of SAS, confirming the biomarker as an indicator of recent fire activity. The highest SAS concentrations in the fossil core were found in sections representing periods of wet conditions, both on local and regional scales and regionally widespread arboreal vegetation. Low amounts, or the absence, of SAS in the fossil core were associated with periods of dryness, regional dominance of non-arboreal vegetation and the presence of a fen rather than a lake ecosystem at the site. Micro-charcoal fragments were generally more abundant under these conditions. This suggests that SAS yield and deposition may vary with fuel availability and fire behavior, which in turn is affected by climate, local moisture and vegetation type. Forest fires result in more SAS compared to grass fires. SAS yield is also favored by low-temperature fires sustained under wet climate conditions. Preservation of SAS is likely to be compromised in the only seasonally wet fen ecosystem under the dry and warm Mediterranean climate conditions. The moist and shallow conditions in the wetland during hot summer months probably promote oxidation and biodegradation of the labile SAS molecules, compared to the more robust charcoal fragments. Thus, a multiproxy approach - using several proxies, both for fire, hydroclimate and vegetation change - is preferred when aiming to reconstruct past biomass burning from wetland ecosystems in a Mediterranean environment. The micro-charcoal record from Agios Floros reveals significant fire activity between 4400 and 2800 cal yr BP. This partly overlaps the Bronze Age period, associated with intense human environmental interaction and climate change in this area of Peloponnese, Greece. © 2021 The Authors

Published
2021

20. Reconstruction of oceanographic and environmental conditions in the eastern Mediterranean (Kottafi Hill section, Cyprus Island) during the middle Miocene Climate Transition

Author

Athanasiou, M. Triantaphyllou, M.V. Dimiza, M.D. Gogou, A. Panagiotopoulos, I. Arabas, A. Skampa, E. Kouli, K. Hatzaki, M. Tsiolakis, E.

Abstract

The multi-proxy investigation of the deep-marine Kottafi Hill section (KHS), a part of the carbonate system of the Miocene Pakhna Formation, Cyprus, involved such proxies as calcareous nannofossil analysis, measurements of the oxygen and carbon isotope composition of the planktonic foraminifer Orbulina universa, and determination of the pollen and palynomorph contents, revealed the importance of these sedimentary sequences in the assessment of the impact of major global events during the middle Miocene on the regional scale. The KHS spans the 20.89–11.6 Ma time interval, during which eighteen OC-rich siltstone intercalated laminae have been deposited under warm and humid climate at 15.5–11.6 Ma. These layers can be possibly considered as the precursors of sapropelic layers mostly developed in the eastern Mediterranean Basin during Pliocene–Holocene. The global glacial events Mi3a–Mi5, traced by δ18O planktonic foraminifera records in the KHS, represent the stepwise cooling phase during the middle Miocene Climate Transition. © 2020

Published
2021

21. Late glacial marine transgression and ecosystem response in the landlocked elefsis bay (Northern saronikos gulf, Greece)

Author

Kouli, K. Triantaphyllou, M.V. Koukousioura, O. Dimiza, M.D. Parinos, C. Panagiotopoulos, I.P. Tsourou, T. Gogou, A. Mavrommatis, N. Syrides, G. Kyrikou, S. Skampa, E. Skylaki, E. Anagnostou, C. Karageorgis, A.P.

Abstract

Coastal landscapes are sensitive to changes due to the interplay between surface and submarine geological processes, climate variability, and relative sea level fluctuations. The sedimentary archives of such marginal areas record in detail the complex evolution of the paleoenvironment and the diachronic biota response. The Elefsis Bay is nowadays a landlocked shallow marine basin with restricted communication to the open Saronikos Gulf. A multi‐proxy investigation of a high‐resolution sediment core recovered from the deepest part of the basin offered a unique opportunity to record the paleoenvironmental and aquatic ecosystem response to climate and glacioeustatic sea level changes since the Late Glacial marine transgression. The retrieved sedimentary deposits, subjected to thorough palynological (pollen, non‐pollen palynomorphs, dinoflagellates), micropaleontological (benthic foraminifera, calcareous nannoplankton, ostra-cods), and mollusc analyses, indicates isolation of the Elefsis Bay from the Saronikos Gulf and the occurrence of a shallow freshwater paleolake since at least 13,500 cal BP, while after 11,3500 cal BP the transition towards lagoon conditions is evidenced. The marine transgression in the Elefsis Bay is dated at 7500 cal BP, marking the establishment of the modern marine realm. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published
2021

22. Landscape change and trade in ancient Greece: Evidence from pollen data

Author

Izdebski, A. Słoczynski, T. Bonnier, A. Koloch, G. Kouli, K.

Abstract

In this article we use pollen data from six sites in southern Greece to study long-term vegetation change in this region from 1000 BCE to 600 CE. Based on insights from environmental history, we interpret our estimated trends in the regional presence of cereal, olive and vine pollen as proxies for structural changes in agricultural production. We present evidence that there was a market economy in ancient Greece and a major trade expansion several centuries before the Roman conquest. Our results are consistent with auxiliary data on settlement dynamics, shipwrecks and ancient oil and wine presses. © 2020 Royal Economic Society. Published by Oxford University Press. All rights reserved. For permissions please contact journals.permissions@oup.com.

Published
2021

23. Paleoenvironmental evolution and sea level change in Saronikos gulf (Aegean sea, Greece): Evidence from the Piraeus coastal plain and elefsis bay sedimentary records

Author

Triantaphyllou, M.V. Tsourou, T. Kouli, K. Koukousioura, O. Dimiza, M.D. Aidona, E.V. Syrides, G. Antoniou, V. Panagiotopoulos, I.P. Vandarakis, D. Pallikarakis, A. Cheilaris, S. Skampa, E. Goiran, J.-P. Fouache, E. Pavlopoulos, K.P.

Abstract

Thorough faunal (benthic foraminifera, ostracods, molluscs) and palynomorph analyses as well as magnetic susceptibility measurements performed on the Piraeus coastal plain sedimentary sequences have shed light on the paleoenvironmental evolution of the area since ca. 9000 cal BP. Benthic and palynomorph assemblages along with magnetic susceptibility suggest a typical lagoonal environment with significant freshwater inputs at the eastern part of the plain after 8700 cal BP. Between 7500 and 5400 cal BP, microfaunal assemblages, mollusc fauna and magnetic susceptibility suggest a shallow marine paleoenvironment, with Piraeus forming a tied island in the center of the bay. Since ca. 4800 cal BP a closed oligohaline lagoon is evidenced in the western part of the Piraeus plain further developed to a marsh after 2800 cal BP, while a coastal environment associated with the fluvio-deltaic system of Kifissos and Korydallos Rivers is continually developing to the west. Signs of cultivation and grazing activities in the area are evidenced since the Early Bronze Age, culminating during the Classical Period. A comparison with a well-dated marine record, recovered from the nearby shallow Elefsis Bay, provides a reasonable estimation of ~5 mm/yr for the absolute sea level rise rate in the inner Saronikos Gulf during the Mid-Holocene. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published
2021

24. Insights into the evolution of the young Lake Ohrid ecosystem and vegetation succession from a southern European refugium during the Early Pleistocene

Author

Panagiotopoulos, K. Holtvoeth, J. Kouli, K. Marinova, E. Francke, A. Cvetkoska, A. Jovanovska, E. Lacey, J.H. Lyons, E.T. Buckel, C. Bertini, A. Donders, T. Just, J. Leicher, N. Leng, M.J. Melles, M. Pancost, R.D. Sadori, L. Tauber, P. Vogel, H. Wagner, B. Wilke, T.

Abstract

Mediterranean mid-altitude sites are critical for the survival of plant species allowing for elevational vegetation shifts in response to high-amplitude climate variability. Pollen records from the southern Balkans have underlined the importance of the region in preserving plant diversity over at least the last half a million years. So far, there are no records of vegetation and climate dynamics from Balkan refugia with an Early Pleistocene age. Here we present a unique palynological archive from such a refugium, the Lake Ohrid basin, recording continuously floristic diversity and vegetation succession under obliquity-paced climate oscillations. Palynological data are complemented by biomarker, diatom, carbonate isotope and sedimentological data to identify the mechanisms controlling shifts in the aquatic and terrestrial ecosystems within the lake and its catchment. The study interval encompasses four complete glacial-interglacial cycles (1365–1165 ka; MIS 43–35). Within the first 100 kyr of lake ontogeny, lake size and depth increase before the lake system enters a new equilibrium state as observed in a distinct shift in biotic communities and sediment composition. Several relict tree genera such as Cedrus, Tsuga, Carya, and Pterocarya played an important role in ecological succession cycles, while total relict abundance accounts for up to half of the total arboreal vegetation. The most prominent biome during interglacials is cool mixed evergreen needleleaf and deciduous broadleaf forests, while cool evergreen needleleaf forests dominate within glacials. A rather forested landscape with a remarkable plant diversity provide unique insights into Early Pleistocene ecosystem resilience and vegetation dynamics. © 2019

Published
2020

25. Deep-sea benthic foraminifera record of the last 1500 years in the NorthAegean Trough (northeastern Mediterranean): A paleoclimaticreconstruction scenario

Author

Dimiza, M. D. Fatourou, M. Arabas, A. Panagiotopoulos, I and Gogou, A. Kouli, K. Parinos, C. Rousakis, G. and Triantaphyllou, V, M.

Abstract

A 1500-year, high-resolution deep-sea benthic foraminifera record from the Athos Basin of the North Aegean Trough (northeastern Mediterranean) has been analyzed for the development of a paleoclimatic scenario. The data analysis points out that the quantity and quality of the seafloor's organic matter could be a crucial controlling factor for the faunal succession. During 550-1000 AD (within the Medieval Climate Anomaly), the relatively high benthic foraminiferal accumulation rates together with the predominance of meso-eutrophic taxa, such as Bolivina dilatata/spathulata, may be interpreted as the result of high precipitation. Consequently, increased riverine discharges into the North Aegean Sea and the associated warm climatic conditions appear to persist for a long time and are related to a negative phase of the North Atlantic Oscillation. Later on, the establishment of an oligo-mesotrophic seafloor environment is documented by the diminishing benthic foraminiferal accumulation rates associated with an increment in the abundances of Gyroidinotdes altiformis. During a colder phase of the Little Ice Age (17th century), the relative abundances of the opportunistic foraminiferal species Bulimina inflate and Bulimina marginata can be related to high marine productivity, most probably due to enhanced winter mixing conditions. Finally, during the last 100 years, a faunal shift to eutrophication preferent species, and the persistent occurrence of Chilostomella mediterranensis, reflects a pronounced change in trophic conditions, characterized by high amounts of potentially low-quality organic matter in the seafloor, which are the result of a gradual temperature increase accompanied with enhanced terrigenous inputs.

Published
2020

26. A multi-proxy approach for reconstructing environmental dynamics since the mid Holocene in Lake Ismarida (Thrace, N. Greece)

Author

Koukousioura, O. Kouli, K. Vouvalidis, K. Aidona, E. Karadimou, G. Syrides, G.

Abstract

The paleoenvironmental evolution of Lake Ismarida in Thrace (Northern Greece) is revealed by the combined lithological, micropaleontological (benthic foraminifera, pollen and NPPS), molluscan analyses, magnetic susceptibility measurement and radiocarbon dating of a 5.8-m long sediment core. The mid Holocene evolution of the lake area is evidenced by the documentation of four sedimentary Units in the core ISMR-2, corresponding to four distinct evolutionary stages: (1) during ∼5500-3500 cal yr BP the lake area was a shallow marine environment characterized by an Ammonia beccarii, small rotaliids, miliolids, Bittium reticulatum and Veneridae spp. assemblage, marine dinoflagellate cysts, and low magnetic susceptibility values; (2) during ∼3500-3000 cal BP the environment is gradually tending to more isolated conditions forming an open lagoon, characterized by marine and euryhaline fauna and low magnetic susceptibility values; (3) during 3000 cal yr BP, the open lagoon presented a transition to an oligohaline inner lagoon, characterized by an Ammonia tepida, Haynesina germanica, Aubignyna perlucida, Pirenella conica, Cerastoderma glaucum and Abra spp. assemblage, sedges and aquatic vegetation. This restricted, entirely isolated from the sea inner lagoon could be definitely used as the landmark of the Lake Ismaris from Heorodotus, while describing the march of Xerxes through Thrace in 480 B.C.; (4) since ∼2000 cal yr BP to the present, the Lake Ismarida is formed, characterized by fresh-water indicators and aquatic pollen, Pseudoschizaea and high magnetic susceptibility values. Finally, the progradation of the Filiouris River deltaic deposits resulted to a 4 km wide deltaic plain between Lake Ismarida and the nowadays coastline. Pollen assemblages record the dominance of a rather rich deciduous forest in the area with traces of human presence in the lower part of the sequence, whereas the opening of the plant landscape under the increasing human pressure is evidenced after ∼ 3000 cal yr BP. Finally, an open vegetation pattern, contemporaneous with the retreat of forest vegetation, is evidenced in the area already before 2000 cal yr BP. © 2020 Elsevier Masson SAS

Published
2020

27. From influence to impact: The multifunctional land use in Mediterranean prehistory emerging from palynology of archaeological sites (8.0-2.8 ka BP)

Author

Mercuri, A.M. Florenzano, A. Burjachs, F. Giardini, M. Kouli, K. Masi, A. Picornell-Gelabert, L. Revelles, J. Sadori, L. Servera-Vives, G. Torri, P. Fyfe, R.

Abstract

Archaeobotany is used to discover details on local land uses in prehistoric settlements developed during the middle and beginning of late Holocene. Six archaeological sites from four countries (Spain, Italy, Greece, and Turkey) have pollen and charcoal records showing clear signs of the agrarian systems that had developed in the Mediterranean basin during different cultural phases, from pre-Neolithic to Recent Bronze Age. A selected list of pollen taxa and sums, including cultivated trees, other woody species, crops and annual or perennial synanthropic plants are analysed for land use reconstructions. In general, cultivation has a lower image in palynology than forestry, and past land uses became visible when oakwoods were affected by human activities. On-site palynology allows us to recognise the first influence of humans even before it can be recognised in off-site sequences, and off-site sequences can allow us to determine the area of influence of a site. Neolithic and Bronze Age archaeological sites show similar land use dynamics implying oak exploitation, causing local deforestation, and cultivation of cereal fields in the area or around the site. Although a substantial difference makes the Neolithic influence quite distant from the Bronze Age impact, mixed systems of land exploitation emerged everywhere. Multiple land use activities exist (multifunctional landscapes) at the same time within the area of influence of a site. Since the Neolithic, people have adopted a diffuse pattern of land use involving a combination of diverse activities, using trees–crops–domesticated animals. The most recurrent combination included wood exploitation, field cultivation and animal breeding. The lesson from the past is that the multifunctional land use, combining sylvo-pastoral and crop farming mixed systems, has been widely adopted for millennia, being more sustainable than the monoculture and a promising way to develop our economy. © The Author(s) 2019.

Published
2019

28. Sediment residence time reveals Holocene shift from climatic to vegetation control on catchment erosion in the Balkans

Author

Francke, A. Dosseto, A. Panagiotopoulos, K. Leicher, N. Lacey, J.H. Kyrikou, S. Wagner, B. Zanchetta, G. Kouli, K. Leng, M.J.

Abstract

Understanding the evolution of soil systems on geological time scales has become fundamentally important to predict future landscape development in light of rapid global warming and intensifying anthropogenic impact. Here, we use an innovative uranium isotope-based technique combined with organic carbon isotopes and elemental ratios of sediments from Lake Ohrid (North Macedonia/Albania) to reconstruct soil system evolution in the lake's catchment during the last ~16,000 cal yr BP. Uranium isotopes are used to estimated the paleo-sediment residence time, defined as the time elapsed between formation of silt and clay sized detrital matter and final deposition. The chronology is based on new cryptotephra layers identified in the sediment sequence. The isotope and elemental data are compared to sedimentary properties and pollen from the same sample material to provide a better understanding of past catchment erosion and landscape evolution in the light of climate forcing, vegetation development, and anthropogenic land use. During the Late Glacial and the Early Holocene, when wide parts of the catchment were covered by open vegetation, wetter climates promoted the mobilisation of detrital matter with a short paleo-sediment residence time. This is explained by erosion of deeper parts of the weathering horizon from thin soils. Detrital matter with a longer paleo-sediment residence time, illustrating shallow erosion of thicker soils is deposited in drier climates. The coupling between climatic variations and soil erosion terminates at the Early to Mid-Holocene transition as evidenced by a pronounced shift in uranium isotope ratios indicating that catchment erosion is dominated by shallow erosion of thick soils only. This shift suggests a threshold is crossed in hillslope erosion, possibly as a result of a major change in vegetation cover preventing deep erosion of thin soils at higher elevation. The threshold in catchment erosion is not mirrored by soil development over time, which gradually increases in response to Late Glacial to Holocene warming until human land use during the Late Holocene promotes reduced soil development and soil degradation. Overall, we observe that soil system evolution is progressively controlled by climatic, vegetation, and eventually by human land use over the last ~16,000 years. © 2019 Elsevier B.V.

Published
2019

29. Long-term trends of land use and demography in Greece: A comparative study

Author

Weiberg, E. Bevan, A. Kouli, K. Katsianis, M. Woodbridge, J. Bonnier, A. Engel, M. Finné, M. Fyfe, R. Maniatis, Y. Palmisano, A. Panajiotidis, S. Roberts, C.N. Shennan, S.

Abstract

This paper offers a comparative study of land use and demographic development in northern and southern Greece from the Neolithic to the Byzantine period. Results from summed probability densities (SPD) of archaeological radiocarbon dates and settlement numbers derived from archaeological site surveys are combined with results from cluster-based analysis of published pollen core assemblages to offer an integrated view of human pressure on the Greek landscape through time. We demonstrate that SPDs offer a useful approach to outline differences between regions and a useful complement to archaeological site surveys, evaluated here especially for the onset of the Neolithic and for the Final Neolithic (FN)/Early Bronze Age (EBA) transition. Pollen analysis highlight differences in vegetation between the two sub-regions, but also several parallel changes. The comparison of land cover dynamics between two sub-regions of Greece further demonstrates the significance of the bioclimatic conditions of core locations and that apparent oppositions between regions may in fact be two sides of the same coin in terms of socio-ecological trajectories. We also assess the balance between anthropogenic and climate-related impacts on vegetation and suggest that climatic variability was as an important factor for vegetation regrowth. Finally, our evidence suggests that the impact of humans on land cover is amplified from the Late Bronze Age (LBA) onwards as more extensive herding and agricultural practices are introduced. © The Author(s) 2019.

Published
2019

30. Mediterranean winter rainfall in phase with African monsoons during the past 1.36 million years

Author

Wagner, B. Vogel, H. Francke, A. Friedrich, T. Donders, T. Lacey, J.H. Leng, M.J. Regattieri, E. Sadori, L. Wilke, T. Zanchetta, G. Albrecht, C. Bertini, A. Combourieu-Nebout, N. Cvetkoska, A. Giaccio, B. Grazhdani, A. Hauffe, T. Holtvoeth, J. Joannin, S. Jovanovska, E. Just, J. Kouli, K. Kousis, I. Koutsodendris, A. Krastel, S. Lagos, M. Leicher, N. Levkov, Z. Lindhorst, K. Masi, A. Melles, M. Mercuri, A.M. Nomade, S. Nowaczyk, N. Panagiotopoulos, K. Peyron, O. Reed, J.M. Sagnotti, L. Sinopoli, G. Stelbrink, B. Sulpizio, R. Timmermann, A. Tofilovska, S. Torri, P. Wagner-Cremer, F. Wonik, T. Zhang, X.

Abstract

Mediterranean climates are characterized by strong seasonal contrasts between dry summers and wet winters. Changes in winter rainfall are critical for regional socioeconomic development, but are difficult to simulate accurately1 and reconstruct on Quaternary timescales. This is partly because regional hydroclimate records that cover multiple glacial–interglacial cycles2,3 with different orbital geometries, global ice volume and atmospheric greenhouse gas concentrations are scarce. Moreover, the underlying mechanisms of change and their persistence remain unexplored. Here we show that, over the past 1.36 million years, wet winters in the northcentral Mediterranean tend to occur with high contrasts in local, seasonal insolation and a vigorous African summer monsoon. Our proxy time series from Lake Ohrid on the Balkan Peninsula, together with a 784,000-year transient climate model hindcast, suggest that increased sea surface temperatures amplify local cyclone development and refuel North Atlantic low-pressure systems that enter the Mediterranean during phases of low continental ice volume and high concentrations of atmospheric greenhouse gases. A comparison with modern reanalysis data shows that current drivers of the amount of rainfall in the Mediterranean share some similarities to those that drive the reconstructed increases in precipitation. Our data cover multiple insolation maxima and are therefore an important benchmark for testing climate model performance. © 2019, The Author(s), under exclusive licence to Springer Nature Limited.

Published
2019

32. Pollen-derived biomes in the Eastern Mediterranean–Black Sea–Caspian-Corridor

Author

Marinova, E. Harrison, S.P. Bragg, F. Connor, S. de Laet, V. Leroy, S.A.G. Mudie, P. Atanassova, J. Bozilova, E. Caner, H. Cordova, C. Djamali, M. Filipova-Marinova, M. Gerasimenko, N. Jahns, S. Kouli, K. Kotthoff, U. Kvavadze, E. Lazarova, M. Novenko, E. Ramezani, E. Röpke, A. Shumilovskikh, L. Tanţǎu, I. Tonkov, S.

Abstract

Aim: To evaluate the biomization technique for reconstructing past vegetation in the Eastern Mediterranean–Black Sea–Caspian-Corridor using an extensive modern pollen data set and comparing reconstructions to potential vegetation and observed land cover data. Location: The region between 28–48°N and 22–62°E. Methods: We apply the biomization technique to 1,387 modern pollen samples, representing 1,107 entities, to reconstruct the distribution of 13 broad vegetation categories (biomes). We assess the results using estimates of potential natural vegetation from the European Vegetation Map and the Physico-Geographic Atlas of the World. We test whether anthropogenic disturbance affects reconstruction quality using land use information from the Global Land Cover data set. Results: The biomization scheme successfully predicts the broadscale patterns of vegetation across the region, including changes with elevation. The technique discriminates deserts from shrublands, the prevalence of woodlands in moister lowland sites, and the presence of temperate and mixed forests at higher elevations. Quantitative assessment of the reconstructions is less satisfactory: the biome is predicted correctly at 44% of the sites in Europe and 33% of the sites overall. The low success rate is not a reflection of anthropogenic impacts: only 33% of the samples are correctly assigned after the removal of sites in anthropogenically altered environments. Open vegetation is less successfully predicted (33%) than forest types (73%), reflecting the under-representation of herbaceous taxa in pollen assemblages and the impact of long-distance pollen transport into open environments. Samples from small basins (

Published
2018

34. Lake Ohrid: The history of forest biodiversity and hydrological variations from Europe’s oldest lake

Author

Donders, T., Sadori, L., Panagiotopoulos, K., Bertini, A., Koutsodendris, A., Kousis, I., Combourieu-Nebout, N., Masi, A., Kouli, K., Sebastien Joannin, Am. Mercuri, Peyron, O., Torri, P., Sinopoli, G., Francke, A., Wagner, B., Histoire naturelle de l'Homme préhistorique (HNHP), Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS)-Université de Perpignan Via Domitia (UPVD), Laboratory of Palaeobotany and Palynology, Utrecht University [Utrecht], Department of Vegetation Biology, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Dipartimento di Scienze della Terra [Firenze] (DST), Università degli Studi di Firenze = University of Florence (UniFI), Paleoenvironmental Dynamics Group, Institute of Earth Sciences, Heidelberg University, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Institute for Geology & Mineralogy Cologne, Université de Cologne, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), École pratique des hautes études (EPHE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226

Subjects
[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, [SDE]Environmental Sciences, ComputingMilieux_MISCELLANEOUS, [SHS]Humanities and Social Sciences
Abstract

International audience

Published
2018

36. Pollen-derived biomes in the Eastern Mediterranean-Black Sea-Caspian-Corridor

Author

Marinova, E, Harrison, SP, Bragg, F, Connor, S, de Laet, V, Leroy, SAG, Mudie, P, Atanassova, J, Bozilova, E, Caner, H, Cordova, C, Djamali, M, Filipova-Marinova, M, Gerasimenko, N, Jahns, S, Kouli, K, Kotthoff, U, Kvavadze, E, Lazarova, M, Novenko, E, Ramezani, E, Roepke, A, Shumilovskikh, L, Tantau, I, Tonkov, S, Marinova, E, Harrison, SP, Bragg, F, Connor, S, de Laet, V, Leroy, SAG, Mudie, P, Atanassova, J, Bozilova, E, Caner, H, Cordova, C, Djamali, M, Filipova-Marinova, M, Gerasimenko, N, Jahns, S, Kouli, K, Kotthoff, U, Kvavadze, E, Lazarova, M, Novenko, E, Ramezani, E, Roepke, A, Shumilovskikh, L, Tantau, I, and Tonkov, S

Abstract

AIM: To evaluate the biomization technique for reconstructing past vegetation in the Eastern Mediterranean–Black Sea–Caspian‐Corridor using an extensive modern pollen data set and comparing reconstructions to potential vegetation and observed land cover data. LOCATION: The region between 28–48°N and 22–62°E. METHODS: We apply the biomization technique to 1,387 modern pollen samples, representing 1,107 entities, to reconstruct the distribution of 13 broad vegetation categories (biomes). We assess the results using estimates of potential natural vegetation from the European Vegetation Map and the Physico‐Geographic Atlas of the World. We test whether anthropogenic disturbance affects reconstruction quality using land use information from the Global Land Cover data set. RESULTS: The biomization scheme successfully predicts the broadscale patterns of vegetation across the region, including changes with elevation. The technique discriminates deserts from shrublands, the prevalence of woodlands in moister lowland sites, and the presence of temperate and mixed forests at higher elevations. Quantitative assessment of the reconstructions is less satisfactory: the biome is predicted correctly at 44% of the sites in Europe and 33% of the sites overall. The low success rate is not a reflection of anthropogenic impacts: only 33% of the samples are correctly assigned after the removal of sites in anthropogenically altered environments. Open vegetation is less successfully predicted (33%) than forest types (73%), reflecting the under‐representation of herbaceous taxa in pollen assemblages and the impact of long‐distance pollen transport into open environments. Samples from small basins (<1 km²) are more likely to be reconstructed accurately, with 58% of the sites in Europe and 66% of all sites correctly predicted, probably because they sample an appropriate pollen source area to reflect regional vegetation patterns in relatively heterogeneous landscapes. While methodological biase

Published
2018

39. Precipitation changes in the Mediterranean basin during the Holocene from terrestrial and marine pollen records: A model-data comparison

Author

Peyron, O. Combourieu-Nebout, N. Brayshaw, D. Goring, S. Andrieu-Ponel, V. Desprat, S. Fletcher, W. Gambin, B. Ioakim, C. Joannin, S. Kotthoff, U. Kouli, K. Montade, V. Pross, J. Sadori, L. Magny, M.

Abstract

Climate evolution of the Mediterranean region during the Holocene exhibits strong spatial and temporal variability, which is notoriously difficult for models to reproduce. We propose here a new proxy-based climate synthesis synthesis and its comparison - at a regional ( ~ 100 km) level - with a regional climate model to examine (i) opposing northern and southern precipitation regimes and (ii) an east-to-west precipitation dipole during the Holocene across the Mediterranean basin. Using precipitation estimates inferred from marine and terrestrial pollen archives, we focus on the early to mid-Holocene (8000 to 6000 cal yr BP) and the late Holocene (4000 to 2000 cal yr BP), to test these hypotheses on a Mediterranean-wide scale. Special attention was given to the reconstruction of season-specific climate information, notably summer and winter precipitation. The reconstructed climatic trends corroborate the north-south partition of precipitation regimes during the Holocene. During the early Holocene, relatively wet conditions occurred in the south-central and eastern Mediterranean regions, while drier conditions prevailed from 45° N northwards. These patterns then reverse during the late Holocene. With regard to the existence of a west-east precipitation dipole during the Holocene, our results show that the strength of this dipole is strongly linked to the reconstructed seasonal parameter; early-Holocene summers show a clear east-west division, with summer precipitation having been highest in Greece and the eastern Mediterranean and lowest over Italy and the western Mediterranean. Summer precipitation in the east remained above modern values, even during the late-Holocene interval. In contrast, winter precipitation signals are less spatially coherent during the early Holocene but low precipitation is evidenced during the late Holocene. A general drying trend occurred from the early to late Holocene, particularly in the central and eastern Mediterranean. For the same time intervals, pollen-inferred precipitation estimates were compared with model outputs, based on a regional-scale downscaling (HadRM3) of a set of global climate-model simulations (HadAM3). The highresolution detail achieved through the downscaling is intended to enable a better comparison between site-based paleo-reconstructions and gridded model data in the complex terrain of the Mediterranean; the model outputs and polleninferred precipitation estimates show some overall correspondence, though modeled changes are small and at the absolute margins of statistical significance. There are suggestions that the eastern Mediterranean experienced wetter summer conditions than present during the early and late Holocene; the drying trend in winter from the early to the late Holocene also appears to be simulated. The use of this highresolution regional climate model highlights how the inherently patchy nature of climate signals and paleo-records in the Mediterranean basin may lead to local signals that are much stronger than the large-scale pattern would suggest. Nevertheless, the east-to-west division in summer precipitation seems more marked in the pollen reconstruction than in the model outputs. The footprint of the anomalies (like today, or dry winters and wet summers) has some similarities to modern analogue atmospheric circulation patterns associated with a strong westerly circulation in winter (positive Arctic Oscillation-North Atlantic Oscillation (AO-NAO)) and a weak westerly circulation in summer associated with anticyclonic blocking; however, there also remain important differences between the paleo-simulations and these analogues. The regional climate model, consistent with other global models, does not suggest an extension of the African summer monsoon into the Mediterranean. Therefore, the extent to which summer monsoonal precipitation may have existed in the southern and eastern Mediterranean during the mid- Holocene remains an outstanding question. © Author(s) 2017.

Published
2017

40. Chemotaxonomy in some Mediterranean plants and implications for fossil biomarker records

Author

Norström, E. Katrantsiotis, C. Smittenberg, R.H. Kouli, K.

Abstract

The increasing utilization of n-alkanes as plant-derived paleo-environmental proxies calls for improved chemotaxonomic control of the modern flora in order to calibrate fossil sediment records to modern analogues. Several recent studies have investigated long-chain n-alkane concentrations and chain-length distributions in species from various vegetation biomes, but up to date, the Mediterranean flora is relatively unexplored in this respect. Here, we analyse the n-alkane concentrations and chain-length distributions in some of the most common species of the modern macchia and phrygana vegetation in south western Peloponnese, Greece. We show that the drought adapted phrygana herbs and shrubs, as well as some of the sclerophyll and gymnosperm macchia components, produce high concentrations of n-alkanes, on average more than double n-alkane production in local wetland reed vegetation. Furthermore, the chain-length distribution in the analysed plants is related to plant functionality, with longer chain lengths associated with higher drought adaptive capacities, probably as a response to long-term evolutionary processes in a moisture limited environment. Furthermore, species with relatively higher average chain lengths (ACL) showed more enriched carbon isotope composition in their tissues (δ13Cplant), suggesting a dual imprint from both physiological and biochemical drought adaptation. The findings have bearings on interpretation of fossil sedimentary biomarker records in the Mediterranean region, which is discussed in relation to a case study from Agios Floros fen, Messenian plain, Peloponnese. The 6000 year long n-alkane record from Agios Floros (ACL, δ13Cwax) is linked to the modern analogue and then evaluated through a comparison with other regional-wide as well as local climate and vegetation proxy-data. The high concentration of long chain n-alkanes in phrygana vegetation suggests a dominating imprint from this vegetation type in sedimentary archives from this ecotone. © 2017 The Author(s)

Published
2017

41. The environmental and evolutionary history of Lake Ohrid (FYROM/Albania): Interim results from the SCOPSCO deep drilling project

Author

Wagner, B. Wilke, T. Francke, A. Albrecht, C. Baumgarten, H. Bertini, A. Combourieu-Nebout, N. Cvetkoska, A. D'Addabbo, M. Donders, T.H. Föller, K. Giaccio, B. Grazhdani, A. Hauffe, T. Holtvoeth, J. Joannin, S. Jovanovska, E. Just, J. Kouli, K. Koutsodendris, A. Krastel, S. Lacey, J.H. Leicher, N. Leng, M.J. Levkov, Z. Lindhorst, K. Masi, A. Mercuri, A.M. Nomade, S. Nowaczyk, N. Panagiotopoulos, K. Peyron, O. Reed, J.M. Regattieri, E. Sadori, L. Sagnotti, L. Stelbrink, B. Sulpizio, R. Tofilovska, S. Torri, P. Vogel, H. Wagner, T. Wagner-Cremer, F. Wolff, G.A. Wonik, T. Zanchetta, G. Zhang, X.S.

Abstract

This study reviews and synthesises existing information generated within the SCOPSCO (Scientific Collaboration on Past Speciation Conditions in Lake Ohrid) deep drilling project. The four main aims of the project are to infer (i) the age and origin of Lake Ohrid (Former Yugoslav Republic of Macedonia/Republic of Albania), (ii) its regional seismotectonic history, (iii) volcanic activity and climate change in the central northern Mediterranean region, and (iv) the influence of major geological events on the evolution of its endemic species. The Ohrid basin formed by transtension during the Miocene, opened during the Pliocene and Pleistocene, and the lake established de novo in the still relatively narrow valley between 1.9 and 1.3 Ma. The lake history is recorded in a 584 m long sediment sequence, which was recovered within the framework of the International Continental Scientific Drilling Program (ICDP) from the central part (DEEP site) of the lake in spring 2013. To date, 54 tephra and cryptotephra horizons have been found in the upper 460 m of this sequence. Tephrochronology and tuning biogeochemical proxy data to orbital parameters revealed that the upper 247.8 m represent the last 637 kyr. The multi-proxy data set covering these 637 kyr indicates long-term variability. Some proxies show a change from generally cooler and wetter to drier and warmer glacial and interglacial periods around 300 ka. Short-term environmental change caused, for example, by tephra deposition or the climatic impact of millennial-scale Dansgaard-Oeschger and Heinrich events are superimposed on the long-term trends. Evolutionary studies on the extant fauna indicate that Lake Ohrid was not a refugial area for regional freshwater animals. This differs from the surrounding catchment, where the mountainous setting with relatively high water availability provided a refuge for temperate and montane trees during the relatively cold and dry glacial periods. Although Lake Ohrid experienced significant environmental change over the last 637 kyr, preliminary molecular data from extant microgastropod species do not indicate significant changes in diversification rate during this period. The reasons for this constant rate remain largely unknown, but a possible lack of environmentally induced extinction events in Lake Ohrid and/or the high resilience of the ecosystems may have played a role. © Author(s) 2017.

Published
2017

42. Pleistocene glacial and lacustrine activity in the southern part of Mount Olympus (central Greece)

Author

Bathrellos, G.D. Skilodimou, H.D. Maroukian, H. Gaki-Papanastassiou, K. Kouli, K. Tsourou, T. Tsaparas, N.

Abstract

Glacial activity affects landscape evolution in some parts of mountainous Greece. This paper deals with the southern part of Mount Olympus where the geomorphological impacts of Pleistocene glaciations are well presented. It is a preliminary study to demonstrate the landscape that has evolved as a result of glacial activity in these uplands. For this purpose, detailed field work and large-scale geomorphological mapping were performed. A 25-m sediment core was retrieved from the study area on which preliminary lithological and micropalaeontological–palaeobotanical analyses were performed. The intense glacial activity of the southern Mount Olympus area produced a number of landscape changes. Three cirques were identified in the uplands whose evolution has led to the formation of various types of moraines (ground, lateral, medial and terminal) down to an altitude of 1677 m. Intense glacio-fluvial activity caused a major reconfiguration of the drainage network in this area and also caused the formation of a lake. The occurrence of a water body in the area is documented by the presence of aquatic vegetation in parts of a 25-m core retrieved from this former lake basin. In recent times, the lake overtopped the fluvial deposits that bounded it, incising them and leading to the emptying of the lake. © 2016 Royal Geographical Society (with the Institute of British Geographers)

Published
2017

43. ALL TOGETHER NOW: AN INTERNATIONAL PALYNOLOGICAL TEAM DOCUMENTS VEGETATION AND CLIMATE CHANGES DURING THE LAST 500 KYR AT LAKE OHRID (SE EUROPE)

Author

Bertini, A., Sadori, L., Nathalie Combourieu-Nebout, Donders, T. H., Kouli, K., Koutsodendris, A., Joannin, S., Masi, A., Mercuri, A. M., Panagiotopoulos, K., Peyron, O., Sinopoli, G., Torri, P., Zanchetta, G., Francke, A., Wagner, B., Herrada, Anthony, Dipartimento di Scienze della Terra [Firenze] (DST), Università degli Studi di Firenze = University of Florence (UniFI), Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Histoire naturelle de l'Homme préhistorique (HNHP), Muséum national d'Histoire naturelle (MNHN)-Université de Perpignan Via Domitia (UPVD)-Centre National de la Recherche Scientifique (CNRS), Utrecht University [Utrecht], Faculty of Geology and Geoenvironment [Athens], National and Kapodistrian University of Athens (NKUA), Heidelberg University, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Università degli Studi di Modena e Reggio Emilia = University of Modena and Reggio Emilia (UNIMORE), University of Cologne, Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Palaeo-ecologie, and Coastal dynamics, Fluvial systems and Global change

Subjects
earth-surface processes, geology, Balkan peninsula, climate, flora, Lake Ohrid, pleistocene, pollen, vegetation, archeology (arts and humanities), paleontology, Palaeontology, [SDE.MCG]Environmental Sciences/Global Changes, Climate, Flora, Pleistocene, Pollen, Vegetation, Geology, [SDE.MCG] Environmental Sciences/Global Changes, [SDV.EE.BIO] Life Sciences [q-bio]/Ecology, environment/Bioclimatology, Archaeology, Lake Ohrid, pollen, flora, vegetation, climate, Pleistocene, Balkan peninsula, [SDU.STU.PG] Sciences of the Universe [physics]/Earth Sciences/Paleontology, [SDV.EE.BIO]Life Sciences [q-bio]/Ecology, environment/Bioclimatology, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Earth-Surface Processes
Abstract

International audience; Lake Ohrid (Balkan peninsula) is the oldest European extant lake and one of the deepest and largest. Such a unique, terrestrial natural archive is especially relevant for both paleoenvironmental and paleoclimatic reconstructions but also for genetic studies. In the frame of the International Continental Scientific Drilling Program (ICDP), a deep drilling campaign was carried out within the scope of the Scientific Collaboration on Past Speciation Conditions in Lake Ohrid (SCOPSCO) project in 2013. Here, we present the summary of palynological analyses carried out in the upper 200 m of the overall 569 m long DEEP site sediment succession from the central part of the lake. These studies, performed by an international palynological team, document the main floristic, vegetation and climate changes during the last ca 500 kyr, at a millennial-scale resolution (~1.6 kyr). The continuous sediment infill permitted to trace multiple non-forested/ forested phases as a response to Glacial/Interglacial cycles as well as to sub-Milankovitch climate changes. The pollen record, corresponding with marine isotope stages MIS 13 to MIS 1, points to a progressive change from cooler and wetter to warmer and drier interglacials. New palynological studies are underway to reconstruct vegetational and climatic conditions over older intervals as well as to obtain high resolution data for some key intervals such as MIS 5-6, MIS 11-12, MIS 35-42. The complete record of changes in flora composition and vegetation during both glacials and interglacials will furnish indispensable insights for understanding the role of refugia, ecosystem resilience and maintenance of terrestrial biodiversity in the Mediterranean area.

Published
2016

45. Pollen-based paleoenvironmental and paleoclimatic change at Lake Ohrid (south-eastern Europe) during the past 500 ka

Author

Sadori, L. Koutsodendris, A. Panagiotopoulos, K. Masi, A. Bertini, A. Combourieu-Nebout, N. Francke, A. Kouli, K. Joannin, S. Mercuri, A.M. Peyron, O. Torri, P. Wagner, B. Zanchetta, G. Sinopoli, G. Donders, T.H.

Abstract

Lake Ohrid is located at the border between FYROM (Former Yugoslavian Republic of Macedonia) and Albania and formed during the latest phases of Alpine orogenesis. It is the deepest, the largest and the oldest tectonic lake in Europe. To better understand the paleoclimatic and paleoenvironmental evolution of Lake Ohrid, deep drilling was carried out in 2013 within the framework of the Scientific Collaboration on Past Speciation Conditions (SCOPSCO) project that was funded by the International Continental Scientific Drilling Program (ICDP). Preliminary results indicate that lacustrine sedimentation of Lake Ohrid started between 1.2 and 1.9 Ma ago. Here we present new pollen data (selected percentage and concentration taxa/groups) of the uppermost ∼ 200 m of the 569 m long DEEP core drilled in the depocentre of Lake Ohrid. The study is the fruit of a cooperative work carried out in several European palynological laboratories. The age model of this part of the core is based on 10 tephra layers and on tuning of biogeochemical proxy data to orbital parameters. According to the age model, the studied sequence covers the last ∼ 500 000 years at a millennial-scale resolution ( ∼ 1.6 ka) and records the major vegetation and climate changes that occurred during the last 12 (13 only pro parte) marine isotope stages (MIS). Our results indicate that there is a general good correspondence between forested/non-forested periods and glacial-interglacial cycles of the marine isotope stratigraphy. The record shows a progressive change from cooler and wetter to warmer and drier interglacial conditions. This shift in temperature and moisture availability is visible also in vegetation during glacial periods. The period corresponding to MIS11 (pollen assemblage zone OD-10, 428-368 ka BP) is dominated by montane trees such as conifers. Mesophilous elements such as deciduous and semi-deciduous oaks dominate forest periods of MIS5 (PASZ OD-3, 129-70 ka BP) and MIS1 (PASZ OD-1, 14 ka BP to present). Moreover, MIS7 (PASZ OD-6, 245-190 ka) shows a very high interglacial variability, with alternating expansions of montane and mesophilous arboreal taxa. Grasslands (open vegetation formations requiring relatively humid conditions) characterize the earlier glacial phases of MIS12 (PASZ OD-12, 488-459 ka), MIS10 (corresponding to the central part of PASZ OD-10, 428-366 ka) and MIS8 (PASZ OD-7, 288-245 ka). Steppes (open vegetation formations typical of dry environments) prevail during MIS6 (OD-5 and OD-4, 190-129 ka) and during MIS4-2 (PASZ OD-2, 70-14 ka). Our palynological results support the notion that Lake Ohrid has been a refugium area for both temperate and montane trees during glacials. Closer comparisons with other long southern European and Near Eastern pollen records will be achieved through ongoing high-resolution studies. © 2016 Author(s).

Published
2016

47. The socio-environmental history of the Peloponnese during the Holocene: Towards an integrated understanding of the past

Author

Weiberg, E. Unkel, I. Kouli, K. Holmgren, K. Avramidis, P. Bonnier, A. Dibble, F. Finné, M. Izdebski, A. Katrantsiotis, C. Stocker, S.R. Andwinge, M. Baika, K. Boyd, M. Heymann, C.

Abstract

Published archaeological, palaeoenvironmental, and palaeoclimatic data from the Peloponnese in Greece are compiled, discussed and evaluated in order to analyse the interactions between humans and the environment over the last 9000 years. Our study indicates that the number of human settlements found scattered over the peninsula have quadrupled from the prehistoric to historical periods and that this evolution occurred over periods of climate change and seismo-tectonic activity. We show that societal development occurs both during periods of harsh as well as favourable climatic conditions. At some times, some settlements develop while others decline. Well-known climate events such as the 4.2 ka and 3.2 ka events are recognizable in some of the palaeoclimatic records and a regional decline in the number and sizes of settlements occurs roughly at the same time, but their precise chronological fit with the archaeological record remains uncertain. Local socio-political processes were probably always the key drivers behind the diverse strategies that human societies took in times of changing climate. The study thus reveals considerable chronological parallels between societal development and palaeoenvironmental records, but also demonstrates the ambiguities in these correspondences and, in doing so, highlights some of the challenges that will face future interdisciplinary projects. We suggest that there can be no general association made between societal expansion phases and periods of advantageous climate. We also propose that the relevance of climatic and environmental regionality, as well as any potential impacts of seismo-tectonics on societal development, need to be part of the interpretative frameworks. © 2015 The Authors.

Published
2016

48. Climate variability and socio-environmental changes in the northern Aegean (NE Mediterranean) during the last 1500 years

Author

Gogou, A. Triantaphyllou, M. Xoplaki, E. Izdebski, A. Parinos, C. Dimiza, M. Bouloubassi, I. Luterbacher, J. Kouli, K. Martrat, B. Toreti, A. Fleitmann, D. Rousakis, G. Kaberi, H. Athanasiou, M. Lykousis, V.

Abstract

We provide new evidence on sea surface temperature (SST) variations and paleoceanographic/paleoenvironmental changes over the past 1500 years for the north Aegean Sea (NE Mediterranean). The reconstructions are based on multiproxy analyses, obtained from the high resolution (decadal to multi-decadal) marine record M2 retrieved from the Athos basin. Reconstructed SSTs show an increase from ca. 850 to 950 AD and from ca. 1100 to 1300 AD. A cooling phase of almost 1.5 °C is observed from ca. 1600 AD to 1700 AD. This seems to have been the starting point of a continuous SST warming trend until the end of the reconstructed period, interrupted by two prominent cooling events at 1832 ± 15 AD and 1995 ± 1 AD. Application of an adaptive Kernel smoothing suggests that the current warming in the reconstructed SSTs of the north Aegean might be unprecedented in the context of the past 1500 years. Internal variability in atmospheric/oceanic circulations systems as well as external forcing as solar radiation and volcanic activity could have affected temperature variations in the north Aegean Sea over the past 1500 years. The marked temperature drop of approximately ~2 °C at 1832 ± 15 yr AD could be related to the 1809 ΑD 'unknown' and the 1815 AD Tambora volcanic eruptions. Paleoenvironmental proxy-indices of the M2 record show enhanced riverine/continental inputs in the northern Aegean after ca. 1450 AD.The paleoclimatic evidence derived from the M2 record is combined with a socio-environmental study of the history of the north Aegean region. We show that the cultivation of temperature-sensitive crops, i.e. walnut, vine and olive, co-occurred with stable and warmer temperatures, while its end coincided with a significant episode of cooler temperatures. Periods of agricultural growth in Macedonia coincide with periods of warmer and more stable SSTs, but further exploration is required in order to identify the causal links behind the observed phenomena. The Black Death likely caused major changes in agricultural activity in the north Aegean region, as reflected in the pollen data from land sites of Macedonia and the M2 proxy-reconstructions. Finally, we conclude that the early modern peaks in mountain vegetation in the Rhodope and Macedonia highlands, visible also in the M2 record, were very likely climate-driven. © 2016 Elsevier Ltd.

Published
2016

49. All together now: an international palynological team documents vegetation and climate changes during the last 500 kyr at Lake Ohrid (SE Europe)

Author

Bertini, A. Sadori, L. Combourieu-Nebout, N. Donders, T.H. Kouli, K. Koutsodendris, A. Joannin, S. Masi, A. Mercuri, A.M. Panagiotopoulos, K. Peyron, O. Sinopoli, G. Torri, P. Zanchetta, G. Francke, A. Wagner, B.

Subjects
Θετικές Επιστήμες, Science
Abstract

Lake Ohrid (Balkan peninsula) is the oldest European extant lake and one of the deepest and largest. Such a unique, terrestrial natural archive is especially relevant for both paleoenvironmental and paleoclimatic reconstructions but also for genetic studies. In the frame of the International Continental Scientific Drilling Program (ICDP), a deep drilling campaign was carried out within the scope of the Scientific Collaboration on Past Speciation Conditions in Lake Ohrid (SCOPSCO) project in 2013. Here, we present the summary of palynological analyses carried out in the upper 200 m of the overall 569 m long DEEP site sediment succession from the central part of the lake. These studies, performed by an international palynological team, document the main floristic, vegetation and climate changes during the last ca 500 kyr, at a millennial-scale resolution (~1.6 kyr). The continuous sediment infill permitted to trace multiple non-forested/ forested phases as a response to Glacial/Interglacial cycles as well as to sub-Milankovitch climate changes. The pollen record, corresponding with marine isotope stages MIS 13 to MIS 1, points to a progressive change from cooler and wetter to warmer and drier interglacials. New palynological studies are underway to reconstruct vegetational and climatic conditions over older intervals as well as to obtain high resolution data for some key intervals such as MIS 5-6, MIS 11-12, MIS 35-42. The complete record of changes in flora composition and vegetation during both glacials and interglacials will furnish indispensable insights for understanding the role of refugia, ecosystem resilience and maintenance of terrestrial biodiversity in the Mediterranean area.

Published
2016

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