European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials

Esther Githumbi; Ralph Fyfe; Marie Jose Gaillard; Anna Kari Trondman; Florence Mazier; Anne Birgitte Nielsen; Anneli Poska; Shinya Sugita; Jessie Woodbridge; Julien Azuara; Angelica Feurdean; Roxana Grindean; Vincent Lebreton; Laurent Marquer; Nathalie Nebout-Combourieu; Migle Stančikaite; Ioan Tanţǎu; Spassimir Tonkov; Lyudmila Shumilovskikh; Christine Åkesson; Lauras Balakauskas; Vlada Batalova; H. John B. Birks; Anne E. Bjune; Olga Borisova; Elissaveta Bozilova; Francesc Burjachs; Rachid Cheddadi; Jörg Christiansen; Remi David; Pim De Klerk; Federico Di Rita; Walter Dörfler; Elise Doyen; Warren Eastwood; David Etienne; Ingo Feeser; Mariana Filipova-Marinova; Elske Fischer; Didier Galop; Jose Garcia Sebastian Carrion; Emilie Gauthier; Thomas Giesecke; Christa Herking; Ulrike Herzschuh; Isabelle Jouffroy-Bapicot; Alisa Kasianova; Katerina Kouli; Per Lagerås; Thomas Persson

doi:10.5194/essd-14-1581-2022

European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials

Esther Githumbi, Ralph Fyfe, Marie Jose Gaillard, Anna Kari Trondman, Florence Mazier, Anne Birgitte Nielsen, Anneli Poska, Shinya Sugita, Jessie Woodbridge, Julien Azuara, Angelica Feurdean, Roxana Grindean, Vincent Lebreton, Laurent Marquer, Nathalie Nebout-Combourieu, Migle Stančikaite, Ioan Tanţǎu, Spassimir Tonkov, Lyudmila Shumilovskikh, Christine ÅkessonLauras Balakauskas, Vlada Batalova, H. John B. Birks, Anne E. Bjune, Olga Borisova, Elissaveta Bozilova, Francesc Burjachs, Rachid Cheddadi, Jörg Christiansen, Remi David, Pim De Klerk, Federico Di Rita, Walter Dörfler, Elise Doyen, Warren Eastwood, David Etienne, Ingo Feeser, Mariana Filipova-Marinova, Elske Fischer, Didier Galop, Jose Garcia Sebastian Carrion, Emilie Gauthier, Thomas Giesecke, Christa Herking, Ulrike Herzschuh, Isabelle Jouffroy-Bapicot, Alisa Kasianova, Katerina Kouli, Per Lagerås, Thomas Persson

Research output: Contribution to journal › Article › peer-review

Abstract

Quantitative reconstructions of past land cover are necessary to determine the processes involved in climate-human-land-cover interactions. We present the first temporally continuous and most spatially extensive pollen-based land-cover reconstruction for Europe over the Holocene (last 11g€¯700g€¯calg€¯yrg€¯BP). We describe how vegetation cover has been quantified from pollen records at a 11 spatial scale using the "Regional Estimates of VEgetation Abundance from Large Sites"(REVEALS) model. REVEALS calculates estimates of past regional vegetation cover in proportions or percentages. REVEALS has been applied to 1128 pollen records across Europe and part of the eastern Mediterranean-Black Sea-Caspian corridor (30-75° N, 25° W-50° E) to reconstruct the percentage cover of 31 plant taxa assigned to 12 plant functional types (PFTs) and 3 land-cover types (LCTs). A new synthesis of relative pollen productivities (RPPs) for European plant taxa was performed for this reconstruction. It includes multiple RPP values (≥2 values) for 39 taxa and single values for 15 taxa (total of 54 taxa). To illustrate this, we present distribution maps for five taxa (Calluna vulgaris, Cerealia type (t)., Picea abies, deciduous Quercus t. and evergreen Quercus t.) and three land-cover types (open land, OL; evergreen trees, ETs; and summer-green trees, STs) for eight selected time windows. The reliability of the REVEALS reconstructions and issues related to the interpretation of the results in terms of landscape openness and human-induced vegetation change are discussed. This is followed by a review of the current use of this reconstruction and its future potential utility and development. REVEALS data quality are primarily determined by pollen count data (pollen count and sample, pollen identification, and chronology) and site type and number (lake or bog, large or small, one site vs. multiple sites) used for REVEALS analysis (for each grid cell). A large number of sites with high-quality pollen count data will produce more reliable land-cover estimates with lower standard errors compared to a low number of sites with lower-quality pollen count data. The REVEALS data presented here can be downloaded from https://doi.org/10.1594/PANGAEA.937075 (Fyfe et al., 2022).

Original language	English
Pages (from-to)	1581-1619
Number of pages	39
Journal	Earth System Science Data
Volume	14
Issue number	4
DOIs	https://doi.org/10.5194/essd-14-1581-2022
Publication status	Published - 2022 Apr 8

Bibliographical note

Funding Information:
Financial support. This research has been supported by the Swedish Research Council VR (Vetenskapsrådet) (Quantification of the bio-geophysical and biogeochemical forcings from anthropogenic de-forestation on regional Holocene climate in Europe, LandClim II).

Publisher Copyright:
© 2022 Esther Githumbi et al.

Contributor: LandClimII data contributors

Subject classification (UKÄ)

Multidisciplinary Geosciences
Geology

Free keywords

Landscape reconstruction
Holocene
Palynology
Palaeoecology

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10.5194/essd-14-1581-2022Licence: CC BY

Cite this

Githumbi, E., Fyfe, R., Gaillard, M. J., Trondman, A. K., Mazier, F., Nielsen, A. B., Poska, A., Sugita, S., Woodbridge, J., Azuara, J., Feurdean, A., Grindean, R., Lebreton, V., Marquer, L., Nebout-Combourieu, N., Stančikaite, M., Tanţǎu, I., Tonkov, S., Shumilovskikh, L., ... Persson, T. (2022). European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials. Earth System Science Data, 14(4), 1581-1619. https://doi.org/10.5194/essd-14-1581-2022

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title = "European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials",

abstract = "Quantitative reconstructions of past land cover are necessary to determine the processes involved in climate-human-land-cover interactions. We present the first temporally continuous and most spatially extensive pollen-based land-cover reconstruction for Europe over the Holocene (last 11g€¯700g€¯calg€¯yrg€¯BP). We describe how vegetation cover has been quantified from pollen records at a 11 spatial scale using the {"}Regional Estimates of VEgetation Abundance from Large Sites{"}(REVEALS) model. REVEALS calculates estimates of past regional vegetation cover in proportions or percentages. REVEALS has been applied to 1128 pollen records across Europe and part of the eastern Mediterranean-Black Sea-Caspian corridor (30-75° N, 25° W-50° E) to reconstruct the percentage cover of 31 plant taxa assigned to 12 plant functional types (PFTs) and 3 land-cover types (LCTs). A new synthesis of relative pollen productivities (RPPs) for European plant taxa was performed for this reconstruction. It includes multiple RPP values (≥2 values) for 39 taxa and single values for 15 taxa (total of 54 taxa). To illustrate this, we present distribution maps for five taxa (Calluna vulgaris, Cerealia type (t)., Picea abies, deciduous Quercus t. and evergreen Quercus t.) and three land-cover types (open land, OL; evergreen trees, ETs; and summer-green trees, STs) for eight selected time windows. The reliability of the REVEALS reconstructions and issues related to the interpretation of the results in terms of landscape openness and human-induced vegetation change are discussed. This is followed by a review of the current use of this reconstruction and its future potential utility and development. REVEALS data quality are primarily determined by pollen count data (pollen count and sample, pollen identification, and chronology) and site type and number (lake or bog, large or small, one site vs. multiple sites) used for REVEALS analysis (for each grid cell). A large number of sites with high-quality pollen count data will produce more reliable land-cover estimates with lower standard errors compared to a low number of sites with lower-quality pollen count data. The REVEALS data presented here can be downloaded from https://doi.org/10.1594/PANGAEA.937075 (Fyfe et al., 2022).",

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note = "Funding Information: Financial support. This research has been supported by the Swedish Research Council VR (Vetenskapsr{\aa}det) (Quantification of the bio-geophysical and biogeochemical forcings from anthropogenic de-forestation on regional Holocene climate in Europe, LandClim II). Publisher Copyright: {\textcopyright} 2022 Esther Githumbi et al. Contributor: LandClimII data contributors",

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month = apr,

day = "8",

doi = "10.5194/essd-14-1581-2022",

language = "English",

volume = "14",

pages = "1581--1619",

journal = "Earth System Science Data",

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Githumbi, E, Fyfe, R, Gaillard, MJ, Trondman, AK, Mazier, F, Nielsen, AB , Poska, A, Sugita, S, Woodbridge, J, Azuara, J, Feurdean, A, Grindean, R, Lebreton, V, Marquer, L, Nebout-Combourieu, N, Stančikaite, M, Tanţǎu, I, Tonkov, S, Shumilovskikh, L, Åkesson, C, Balakauskas, L, Batalova, V, Birks, HJB, Bjune, AE, Borisova, O, Bozilova, E, Burjachs, F, Cheddadi, R, Christiansen, J, David, R, De Klerk, P, Di Rita, F, Dörfler, W, Doyen, E, Eastwood, W, Etienne, D, Feeser, I, Filipova-Marinova, M, Fischer, E, Galop, D, Carrion, JGS, Gauthier, E, Giesecke, T, Herking, C, Herzschuh, U, Jouffroy-Bapicot, I, Kasianova, A, Kouli, K, Lagerås, P & Persson, T 2022, 'European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials', Earth System Science Data, vol. 14, no. 4, pp. 1581-1619. https://doi.org/10.5194/essd-14-1581-2022

TY - JOUR

T1 - European pollen-based REVEALS land-cover reconstructions for the Holocene

T2 - Methodology, mapping and potentials

AU - Githumbi, Esther

AU - Fyfe, Ralph

AU - Gaillard, Marie Jose

AU - Trondman, Anna Kari

AU - Mazier, Florence

AU - Nielsen, Anne Birgitte

AU - Poska, Anneli

AU - Sugita, Shinya

AU - Woodbridge, Jessie

AU - Azuara, Julien

AU - Feurdean, Angelica

AU - Grindean, Roxana

AU - Lebreton, Vincent

AU - Marquer, Laurent

AU - Nebout-Combourieu, Nathalie

AU - Stančikaite, Migle

AU - Tanţǎu, Ioan

AU - Tonkov, Spassimir

AU - Shumilovskikh, Lyudmila

AU - Åkesson, Christine

AU - Balakauskas, Lauras

AU - Batalova, Vlada

AU - Birks, H. John B.

AU - Bjune, Anne E.

AU - Borisova, Olga

AU - Bozilova, Elissaveta

AU - Burjachs, Francesc

AU - Cheddadi, Rachid

AU - Christiansen, Jörg

AU - David, Remi

AU - De Klerk, Pim

AU - Di Rita, Federico

AU - Dörfler, Walter

AU - Doyen, Elise

AU - Eastwood, Warren

AU - Etienne, David

AU - Feeser, Ingo

AU - Filipova-Marinova, Mariana

AU - Fischer, Elske

AU - Galop, Didier

AU - Carrion, Jose Garcia Sebastian

AU - Gauthier, Emilie

AU - Giesecke, Thomas

AU - Herking, Christa

AU - Herzschuh, Ulrike

AU - Jouffroy-Bapicot, Isabelle

AU - Kasianova, Alisa

AU - Kouli, Katerina

AU - Lagerås, Per

AU - Persson, Thomas

N1 - Funding Information: Financial support. This research has been supported by the Swedish Research Council VR (Vetenskapsrådet) (Quantification of the bio-geophysical and biogeochemical forcings from anthropogenic de-forestation on regional Holocene climate in Europe, LandClim II). Publisher Copyright: © 2022 Esther Githumbi et al. Contributor: LandClimII data contributors

PY - 2022/4/8

Y1 - 2022/4/8

N2 - Quantitative reconstructions of past land cover are necessary to determine the processes involved in climate-human-land-cover interactions. We present the first temporally continuous and most spatially extensive pollen-based land-cover reconstruction for Europe over the Holocene (last 11g€¯700g€¯calg€¯yrg€¯BP). We describe how vegetation cover has been quantified from pollen records at a 11 spatial scale using the "Regional Estimates of VEgetation Abundance from Large Sites"(REVEALS) model. REVEALS calculates estimates of past regional vegetation cover in proportions or percentages. REVEALS has been applied to 1128 pollen records across Europe and part of the eastern Mediterranean-Black Sea-Caspian corridor (30-75° N, 25° W-50° E) to reconstruct the percentage cover of 31 plant taxa assigned to 12 plant functional types (PFTs) and 3 land-cover types (LCTs). A new synthesis of relative pollen productivities (RPPs) for European plant taxa was performed for this reconstruction. It includes multiple RPP values (≥2 values) for 39 taxa and single values for 15 taxa (total of 54 taxa). To illustrate this, we present distribution maps for five taxa (Calluna vulgaris, Cerealia type (t)., Picea abies, deciduous Quercus t. and evergreen Quercus t.) and three land-cover types (open land, OL; evergreen trees, ETs; and summer-green trees, STs) for eight selected time windows. The reliability of the REVEALS reconstructions and issues related to the interpretation of the results in terms of landscape openness and human-induced vegetation change are discussed. This is followed by a review of the current use of this reconstruction and its future potential utility and development. REVEALS data quality are primarily determined by pollen count data (pollen count and sample, pollen identification, and chronology) and site type and number (lake or bog, large or small, one site vs. multiple sites) used for REVEALS analysis (for each grid cell). A large number of sites with high-quality pollen count data will produce more reliable land-cover estimates with lower standard errors compared to a low number of sites with lower-quality pollen count data. The REVEALS data presented here can be downloaded from https://doi.org/10.1594/PANGAEA.937075 (Fyfe et al., 2022).

AB - Quantitative reconstructions of past land cover are necessary to determine the processes involved in climate-human-land-cover interactions. We present the first temporally continuous and most spatially extensive pollen-based land-cover reconstruction for Europe over the Holocene (last 11g€¯700g€¯calg€¯yrg€¯BP). We describe how vegetation cover has been quantified from pollen records at a 11 spatial scale using the "Regional Estimates of VEgetation Abundance from Large Sites"(REVEALS) model. REVEALS calculates estimates of past regional vegetation cover in proportions or percentages. REVEALS has been applied to 1128 pollen records across Europe and part of the eastern Mediterranean-Black Sea-Caspian corridor (30-75° N, 25° W-50° E) to reconstruct the percentage cover of 31 plant taxa assigned to 12 plant functional types (PFTs) and 3 land-cover types (LCTs). A new synthesis of relative pollen productivities (RPPs) for European plant taxa was performed for this reconstruction. It includes multiple RPP values (≥2 values) for 39 taxa and single values for 15 taxa (total of 54 taxa). To illustrate this, we present distribution maps for five taxa (Calluna vulgaris, Cerealia type (t)., Picea abies, deciduous Quercus t. and evergreen Quercus t.) and three land-cover types (open land, OL; evergreen trees, ETs; and summer-green trees, STs) for eight selected time windows. The reliability of the REVEALS reconstructions and issues related to the interpretation of the results in terms of landscape openness and human-induced vegetation change are discussed. This is followed by a review of the current use of this reconstruction and its future potential utility and development. REVEALS data quality are primarily determined by pollen count data (pollen count and sample, pollen identification, and chronology) and site type and number (lake or bog, large or small, one site vs. multiple sites) used for REVEALS analysis (for each grid cell). A large number of sites with high-quality pollen count data will produce more reliable land-cover estimates with lower standard errors compared to a low number of sites with lower-quality pollen count data. The REVEALS data presented here can be downloaded from https://doi.org/10.1594/PANGAEA.937075 (Fyfe et al., 2022).

KW - Landscape reconstruction

KW - Holocene

KW - Palynology

KW - Palaeoecology

UR - https://www.scopus.com/pages/publications/85128759533

U2 - 10.5194/essd-14-1581-2022

DO - 10.5194/essd-14-1581-2022

M3 - Article

AN - SCOPUS:85128759533

SN - 1866-3508

VL - 14

SP - 1581

EP - 1619

JO - Earth System Science Data

JF - Earth System Science Data

IS - 4

ER -

European pollen-based REVEALS land-cover reconstructions for the Holocene: Methodology, mapping and potentials

Abstract

Bibliographical note

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Free keywords

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