Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous

Climate plays a significant role in determining the styles of depositional processes at different latitudes, which in turn influence the locations of hydrocarbon systems. Results of climate modeling may therefore provide important information for predicting the presence or absence of suitable hydroc...

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Main Authors: Harland, M., Valdes, P., Lunt, D.J., Francis, Jane E., Farnsworth, A., Loptson, C., Beerling, D.J., Markwick, P.J.
Other Authors: Fraticelli, Carmen M., Markwick, Paul J., Martinius, Allard W., Suter, John R.
Format: Book Part
Language:unknown
Published: GeoScience World 2019
Subjects:
Arctic
Svalbard
Canada
taiga
Online Access:http://nora.nerc.ac.uk/id/eprint/527261/
https://doi.org/10.2110/sepmsp.108.08
id ftnerc:oai:nora.nerc.ac.uk:527261
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:527261 2023-05-15T15:14:51+02:00 Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous Harland, M. Valdes, P. Lunt, D.J. Francis, Jane E. Farnsworth, A. Loptson, C. Beerling, D.J. Markwick, P.J. Fraticelli, Carmen M. Markwick, Paul J. Martinius, Allard W. Suter, John R. 2019-01-01 http://nora.nerc.ac.uk/id/eprint/527261/ https://doi.org/10.2110/sepmsp.108.08 unknown GeoScience World Harland, M.; Valdes, P.; Lunt, D.J.; Francis, Jane E.; Farnsworth, A.; Loptson, C.; Beerling, D.J.; Markwick, P.J. 2019 Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous. In: Fraticelli, Carmen M.; Markwick, Paul J.; Martinius, Allard W.; Suter, John R., (eds.) Latitudinal controls on stratigraphic models and sedimentary concepts. Va 22101, GeoScience World, 119-133. (Society for Sedimentary Geology. Special Publications, 108). Publication - Book Section PeerReviewed 2019 ftnerc https://doi.org/10.2110/sepmsp.108.08 2023-02-04T19:50:24Z Climate plays a significant role in determining the styles of depositional processes at different latitudes, which in turn influence the locations of hydrocarbon systems. Results of climate modeling may therefore provide important information for predicting the presence or absence of suitable hydrocarbon plays. To determine whether the models provide realistic results, the critical step is to validate the model results against proxy data where they are available. Paleoclimate proxy data are most often derived from more accessible low- to midlatitude regions and are biased towards warm climate states. However, general circulation models (GCMs) have traditionally been biased to colder temperatures, in particular at high-latitudes, struggling to maintain the high-latitude regions warm enough to sustain forests that were present during greenhouse periods, such as the mid-Cretaceous (~130–89 Ma), without exaggerated warming of the equatorial regions. To improve this approach, the HadCM3L coupled atmosphere–ocean GCM, a state-of-the-art model for the long simulations required to reach an equilibrium climate, was run for each stage of the Cretaceous using new paleogeographic base maps. Here, we compare the results for the Aptian (118.5 Ma) and Albian (105.8 Ma) with paleoclimate proxy data from the high northern latitudes in order to determine if the model produces viable results for this region. Paleoclimate analysis of fossil wood from conifer forests from Svalbard of Aptian–Albian age suggests that they grew in moist cool upland areas adjacent to warmer temperate lowland regions, probably with rivers and/or swamps present. Studies of conifers from the Canadian Arctic islands indicate that they grew under slightly cooler conditions than on Svalbard, similar to northern Canada today. The HadCM3L GCM results for Svalbard show that the dominant biome was evergreen taiga/montane forest with lowland temperate vegetation present during the Albian Stage, possibly with an element of deciduous taiga/montane forest in the ... Book Part Arctic Svalbard taiga Natural Environment Research Council: NERC Open Research Archive Arctic Svalbard Canada 119 133
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
description Climate plays a significant role in determining the styles of depositional processes at different latitudes, which in turn influence the locations of hydrocarbon systems. Results of climate modeling may therefore provide important information for predicting the presence or absence of suitable hydrocarbon plays. To determine whether the models provide realistic results, the critical step is to validate the model results against proxy data where they are available. Paleoclimate proxy data are most often derived from more accessible low- to midlatitude regions and are biased towards warm climate states. However, general circulation models (GCMs) have traditionally been biased to colder temperatures, in particular at high-latitudes, struggling to maintain the high-latitude regions warm enough to sustain forests that were present during greenhouse periods, such as the mid-Cretaceous (~130–89 Ma), without exaggerated warming of the equatorial regions. To improve this approach, the HadCM3L coupled atmosphere–ocean GCM, a state-of-the-art model for the long simulations required to reach an equilibrium climate, was run for each stage of the Cretaceous using new paleogeographic base maps. Here, we compare the results for the Aptian (118.5 Ma) and Albian (105.8 Ma) with paleoclimate proxy data from the high northern latitudes in order to determine if the model produces viable results for this region. Paleoclimate analysis of fossil wood from conifer forests from Svalbard of Aptian–Albian age suggests that they grew in moist cool upland areas adjacent to warmer temperate lowland regions, probably with rivers and/or swamps present. Studies of conifers from the Canadian Arctic islands indicate that they grew under slightly cooler conditions than on Svalbard, similar to northern Canada today. The HadCM3L GCM results for Svalbard show that the dominant biome was evergreen taiga/montane forest with lowland temperate vegetation present during the Albian Stage, possibly with an element of deciduous taiga/montane forest in the ...
author2 Fraticelli, Carmen M.
Markwick, Paul J.
Martinius, Allard W.
Suter, John R.
format Book Part
author Harland, M.
Valdes, P.
Lunt, D.J.
Francis, Jane E.
Farnsworth, A.
Loptson, C.
Beerling, D.J.
Markwick, P.J.
spellingShingle Harland, M.
Valdes, P.
Lunt, D.J.
Francis, Jane E.
Farnsworth, A.
Loptson, C.
Beerling, D.J.
Markwick, P.J.
Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
author_facet Harland, M.
Valdes, P.
Lunt, D.J.
Francis, Jane E.
Farnsworth, A.
Loptson, C.
Beerling, D.J.
Markwick, P.J.
author_sort Harland, M.
title Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
title_short Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
title_full Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
title_fullStr Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
title_full_unstemmed Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous
title_sort evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the middle cretaceous
publisher GeoScience World
publishDate 2019
url http://nora.nerc.ac.uk/id/eprint/527261/
https://doi.org/10.2110/sepmsp.108.08
geographic Arctic
Svalbard
Canada
geographic_facet Arctic
Svalbard
Canada
genre Arctic
Svalbard
taiga
genre_facet Arctic
Svalbard
taiga
op_relation Harland, M.; Valdes, P.; Lunt, D.J.; Francis, Jane E.; Farnsworth, A.; Loptson, C.; Beerling, D.J.; Markwick, P.J. 2019 Evaluating northern high-latitude paleoclimate model results using paleobotanical evidence from the Middle Cretaceous. In: Fraticelli, Carmen M.; Markwick, Paul J.; Martinius, Allard W.; Suter, John R., (eds.) Latitudinal controls on stratigraphic models and sedimentary concepts. Va 22101, GeoScience World, 119-133. (Society for Sedimentary Geology. Special Publications, 108).
op_doi https://doi.org/10.2110/sepmsp.108.08
container_start_page 119
op_container_end_page 133
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