Terrestrial biosphere changes over the last 120 kyr

A new global synthesis and biomization of long (> 40 kyr) pollen-data records is presented and used with simulations from the HadCM3 and FAMOUS climate models and the BIOME4 vegetation model to analyse the dynamics of the global terrestrial biosphere and carbon storage over the last glacial–inter...

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Published in:Climate of the Past
Main Authors: Hoogakker, B. A. A., Smith, R. S., Singarayer, J. S., Marchant, R., Prentice, I. C., Allen, J. R. M., Anderson, R. S., Bhagwat, S. A., Behling, H., Borisova, O., Bush, M., Correa-Metrio, A., Vernal, A. de, Finch, J. M., Fréchette, B., Lozano-Garcia, S., Gosling, W. D., Granoszewski, W., Grimm, E. C., Grüger, E., Hanselman, J., Harrison, S. P., Hill, T. R., Huntley, B., Jiménez-Moreno, G., Kershaw, P., Ledru, M.-P., Magri, D., McKenzie, M., Müller, U., Nakagawa, T., Novenko, E., Penny, D., Sadori, L., Scott, L., Stevenson, J., Valdes, P. J., Vandergoes, M., Velichko, A., Whitlock, C., Tzedakis, C.
Language:English
Published: 2016
Subjects:
Tundra
Online Access:https://repository.publisso.de/resource/frl:6408484
https://doi.org/10.5194/cp-12-51-2016
https://www.clim-past.net/12/51/2016/
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spelling ftleibnizopen:oai:oai.leibnizopen.de:Pt6Lm4YBdbrxVwz6XOeS 2023-05-15T18:40:24+02:00 Terrestrial biosphere changes over the last 120 kyr Hoogakker, B. A. A. Smith, R. S. Singarayer, J. S. Marchant, R. Prentice, I. C. Allen, J. R. M. Anderson, R. S. Bhagwat, S. A. Behling, H. Borisova, O. Bush, M. Correa-Metrio, A. Vernal, A. de Finch, J. M. Fréchette, B. Lozano-Garcia, S. Gosling, W. D. Granoszewski, W. Grimm, E. C. Grüger, E. Hanselman, J. Harrison, S. P. Hill, T. R. Huntley, B. Jiménez-Moreno, G. Kershaw, P. Ledru, M.-P. Magri, D. McKenzie, M. Müller, U. Nakagawa, T. Novenko, E. Penny, D. Sadori, L. Scott, L. Stevenson, J. Valdes, P. J. Vandergoes, M. Velichko, A. Whitlock, C. Tzedakis, C. 2016 https://repository.publisso.de/resource/frl:6408484 https://doi.org/10.5194/cp-12-51-2016 https://www.clim-past.net/12/51/2016/ eng eng https://creativecommons.org/licenses/by/3.0/ CC-BY Climate of the past, 12(1):51-73 2016 ftleibnizopen https://doi.org/10.5194/cp-12-51-2016 2023-03-01T07:20:36Z A new global synthesis and biomization of long (> 40 kyr) pollen-data records is presented and used with simulations from the HadCM3 and FAMOUS climate models and the BIOME4 vegetation model to analyse the dynamics of the global terrestrial biosphere and carbon storage over the last glacial–interglacial cycle. Simulated biome distributions using BIOME4 driven by HadCM3 and FAMOUS at the global scale over time generally agree well with those inferred from pollen data. Global average areas of grassland and dry shrubland, desert, and tundra biomes show large-scale increases during the Last Glacial Maximum, between ca. 64 and 74 ka BP and cool substages of Marine Isotope Stage 5, at the expense of the tropical forest, warm-temperate forest, and temperate forest biomes. These changes are reflected in BIOME4 simulations of global net primary productivity, showing good agreement between the two models. Such changes are likely to affect terrestrial carbon storage, which in turn influences the stable carbon isotopic composition of seawater as terrestrial carbon is depleted in 13C. Other/Unknown Material Tundra LeibnizOpen (The Leibniz Association) Climate of the Past 12 1 51 73
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
description A new global synthesis and biomization of long (> 40 kyr) pollen-data records is presented and used with simulations from the HadCM3 and FAMOUS climate models and the BIOME4 vegetation model to analyse the dynamics of the global terrestrial biosphere and carbon storage over the last glacial–interglacial cycle. Simulated biome distributions using BIOME4 driven by HadCM3 and FAMOUS at the global scale over time generally agree well with those inferred from pollen data. Global average areas of grassland and dry shrubland, desert, and tundra biomes show large-scale increases during the Last Glacial Maximum, between ca. 64 and 74 ka BP and cool substages of Marine Isotope Stage 5, at the expense of the tropical forest, warm-temperate forest, and temperate forest biomes. These changes are reflected in BIOME4 simulations of global net primary productivity, showing good agreement between the two models. Such changes are likely to affect terrestrial carbon storage, which in turn influences the stable carbon isotopic composition of seawater as terrestrial carbon is depleted in 13C.
author Hoogakker, B. A. A.
Smith, R. S.
Singarayer, J. S.
Marchant, R.
Prentice, I. C.
Allen, J. R. M.
Anderson, R. S.
Bhagwat, S. A.
Behling, H.
Borisova, O.
Bush, M.
Correa-Metrio, A.
Vernal, A. de
Finch, J. M.
Fréchette, B.
Lozano-Garcia, S.
Gosling, W. D.
Granoszewski, W.
Grimm, E. C.
Grüger, E.
Hanselman, J.
Harrison, S. P.
Hill, T. R.
Huntley, B.
Jiménez-Moreno, G.
Kershaw, P.
Ledru, M.-P.
Magri, D.
McKenzie, M.
Müller, U.
Nakagawa, T.
Novenko, E.
Penny, D.
Sadori, L.
Scott, L.
Stevenson, J.
Valdes, P. J.
Vandergoes, M.
Velichko, A.
Whitlock, C.
Tzedakis, C.
spellingShingle Hoogakker, B. A. A.
Smith, R. S.
Singarayer, J. S.
Marchant, R.
Prentice, I. C.
Allen, J. R. M.
Anderson, R. S.
Bhagwat, S. A.
Behling, H.
Borisova, O.
Bush, M.
Correa-Metrio, A.
Vernal, A. de
Finch, J. M.
Fréchette, B.
Lozano-Garcia, S.
Gosling, W. D.
Granoszewski, W.
Grimm, E. C.
Grüger, E.
Hanselman, J.
Harrison, S. P.
Hill, T. R.
Huntley, B.
Jiménez-Moreno, G.
Kershaw, P.
Ledru, M.-P.
Magri, D.
McKenzie, M.
Müller, U.
Nakagawa, T.
Novenko, E.
Penny, D.
Sadori, L.
Scott, L.
Stevenson, J.
Valdes, P. J.
Vandergoes, M.
Velichko, A.
Whitlock, C.
Tzedakis, C.
Terrestrial biosphere changes over the last 120 kyr
author_facet Hoogakker, B. A. A.
Smith, R. S.
Singarayer, J. S.
Marchant, R.
Prentice, I. C.
Allen, J. R. M.
Anderson, R. S.
Bhagwat, S. A.
Behling, H.
Borisova, O.
Bush, M.
Correa-Metrio, A.
Vernal, A. de
Finch, J. M.
Fréchette, B.
Lozano-Garcia, S.
Gosling, W. D.
Granoszewski, W.
Grimm, E. C.
Grüger, E.
Hanselman, J.
Harrison, S. P.
Hill, T. R.
Huntley, B.
Jiménez-Moreno, G.
Kershaw, P.
Ledru, M.-P.
Magri, D.
McKenzie, M.
Müller, U.
Nakagawa, T.
Novenko, E.
Penny, D.
Sadori, L.
Scott, L.
Stevenson, J.
Valdes, P. J.
Vandergoes, M.
Velichko, A.
Whitlock, C.
Tzedakis, C.
author_sort Hoogakker, B. A. A.
title Terrestrial biosphere changes over the last 120 kyr
title_short Terrestrial biosphere changes over the last 120 kyr
title_full Terrestrial biosphere changes over the last 120 kyr
title_fullStr Terrestrial biosphere changes over the last 120 kyr
title_full_unstemmed Terrestrial biosphere changes over the last 120 kyr
title_sort terrestrial biosphere changes over the last 120 kyr
publishDate 2016
url https://repository.publisso.de/resource/frl:6408484
https://doi.org/10.5194/cp-12-51-2016
https://www.clim-past.net/12/51/2016/
genre Tundra
genre_facet Tundra
op_source Climate of the past, 12(1):51-73
op_rights https://creativecommons.org/licenses/by/3.0/
op_rightsnorm CC-BY
op_doi https://doi.org/10.5194/cp-12-51-2016
container_title Climate of the Past
container_volume 12
container_issue 1
container_start_page 51
op_container_end_page 73
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