The use of modelling and simulation approach in reconstructing past landscapes from fossil pollen data: A review and results from the POLLANDCAL network

Andy Lotter, Anneli Poska, Antti Huusko, Barbora Lučeničová, Bent Odgaard, Chris Caseldine, Henna Suutari, Jacques Louis De Beaulieu, Jane Bunting, Kari Hjelle, Lucia Wick, Małgorzata Latałowa, Margrét Hallsdóttir, Marie José Gaillard*, Mary Edwards, Mihkel Kangur, Petri Pellikka, Petter Pilesjö, Ralph Fyfe, Richard MiddletonSheila Hicks, Shinya Sugita, Siim Veski, Tiiu Koff, Anna Broström, Anne Birgitte Nielsen, Anne Bjune, Florence Mazier, Heather Binney, Helen Shaw, Henrik Von Stedingk, Kristina Duffin, Michael Grant, Mona Court-Picon, Naoko Sasaki, Naomi Holmes, Per Sjögren, Sandra Pratt, Satu Räsänen, Sonia Fontana, Thomas Giesecke, Verushka Valsecchi, Sophie Hellman, Hanna Karlsson, Welmoed Soepboer, Annica Greisman, Claire Twiddle, Edgar Sepp, Gunnar Gustavsson, Kalev Koppel, Kirsi Valta-Hulkkonen, Mari Hagberg, Mari Kuoppamaa, Martina Hättestrand, Michelle Farrell, Pericles Nacionales, Vivika Meltsov, Alexandre Buttler, Ann Marie Robertsson, Brigitta Ammann, Cécile Brun, Dominique Marguerie, Greger Hörnberg, Hikaru Takahara, Hilary Birks, Jarno Mikkola, John Birks, Karl Dag Vorren, Keith Bennett, Markus Heinrichs, Martyn Waller, Olavi Heikkinen, Per Lagerås, Richard Bradshaw, Stefanie Jacomet, Ulf Segerström, Christopher Caseldine, Sophie E.V. Hellman, Catherine Langdon, Sim Veski

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Information on past land cover in terms of absolute areas of different landscape units (forest, open land, pasture land, cultivated land, etc.) at local to regional scales is needed to test hypotheses and answer questions related to climate change (e.g. feedbacks effects of land-cover change), archaeological research, and nature conservancy (e.g. management strategy). The palaeoecological technique best suited to achieve quantitative reconstruction of past vegetation is pollen analysis. A simulation approach developed by Sugita (the computer model POLLSCAPE) which uses models based on the theory of pollen analysis is presented together with examples of application. POLLSCAPE has been adopted as the central tool for POLLANDCAL (POLlen/LANdscape CALibration), an international research network focusing on this topic. The theory behind models of the pollen-vegetation relationship and POLLSCAPE is reviewed. The two model outputs which receive greatest attention in this paper are the relevant source area of pollen (RSAP) and pollen loading in mires and lakes. Six examples of application of POLLSCAPE are presented, each of which explores a possible use of the POLLANDCAL tools and a means of validating or evaluating the models with empirical data. The landscape and vegetation factors influencing the size of the RSAP, the importance of pollen productivity estimates (PPEs) for the model outputs, the detection of small and rare patches of plant taxa in pollen records, and quantitative reconstructions of past vegetation and landscapes are discussed on the basis of these examples. The simulation approach is seen to be useful both for exploring different vegetation/landscape scenarios and for refuting hypotheses.

Original languageEnglish
Pages (from-to)419-443
Number of pages25
JournalVegetation History and Archaeobotany
Volume17
Issue number5
DOIs
Publication statusPublished - 1 Sept 2008

ASJC Scopus subject areas

  • Archeology (arts and humanities)
  • Plant Science
  • Paleontology

Keywords

  • POLLANDCAL network
  • Pollen dispersal and deposition
  • POLLSCAPE simulation model
  • Quantitative reconstructions of past vegetation and landscapes
  • Relevant source area of pollen

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