Fagaceae pollen from the early Conozoic of West Greenland: revisiting Engler`s and Chaney`s Arcto-Tertiary hypotheses

Fridgeir Grimsson; Reinhard Zetter; Guido W. Grimm; Gunver Krarup  Pedersen; Asger Ken Pedersen; Thomas Denk

doi:10.1007/s00606-014-1118-5

Fagaceae pollen from the early Conozoic of West Greenland: revisiting Engler`s and Chaney`s Arcto-Tertiary hypotheses

Fridgeir Grimsson, Reinhard Zetter, Guido W. Grimm, Gunver Krarup Pedersen, Asger Ken Pedersen, Thomas Denk

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Abstract

In this paper we document Fagaceae pollen from the Eocene of western Greenland. The pollen record suggests a remarkable diversity of the family in the early Cenozoic of Greenland. Extinct Fagaceae pollen types include Eotrigonobalanus, which extends at least back to the Paleocene, and two ancestral pollen types with affinities to the Eurasian Quercus Group Ilex and the western North American Quercus Group Protobalanus. In addition, modern lineages of Fagaceae are unambiguously represented by pollen of Fagus, Quercus Group Lobatae/Quercus, and three Castaneoideae pollen types. These findings corroborate earlier findings from Axel Heiberg Island that Fagaceae were a dominant element at high latitudes during the early Cenozoic. Comparison with coeval or older mid-latitude records of modern lineages of Fagaceae shows that modern lineages found in western Greenland and Axel Heiberg likely originated at lower latitudes. Further examples comprise (possibly) Acer, Aesculus, Alnus, Ulmus, and others. Thus, before fossils belonging to modern northern temperate lineages will have been recovered from older (early Eocene, Paleocene) strata from high latitudes, Engler’s hypothesis of an Arctic origin of the modern temperate woody flora of Eurasia, termed ‘Arcto-Tertiary Element’, and later modification by R. W. Chaney and H. D. Mai (‘Arcto-Tertiary Geoflora’) needs to be modified.

Originalsprog	Engelsk
Tidsskrift	Plant Systematics and Evolution
Vol/bind	301
Udgave nummer	2
Sider (fra-til)	809-832
Antal sider	24
ISSN	0378-2697
DOI	https://doi.org/10.1007/s00606-014-1118-5
Status	Udgivet - feb. 2015

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10.1007/s00606-014-1118-5Licens: CC BY

Fagaceae pollen from the early Cenozoic of West Greenland: revisiting Engler’s and Chaney’s Arcto-Tertiary hypothesesForlagets udgivne version, 8,47 MBLicens: CC BY

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title = "Fagaceae pollen from the early Conozoic of West Greenland: revisiting Engler`s and Chaney`s Arcto-Tertiary hypotheses",

abstract = "In this paper we document Fagaceae pollen from the Eocene of western Greenland. The pollen record suggests a remarkable diversity of the family in the early Cenozoic of Greenland. Extinct Fagaceae pollen types include Eotrigonobalanus, which extends at least back to the Paleocene, and two ancestral pollen types with affinities to the Eurasian Quercus Group Ilex and the western North American Quercus Group Protobalanus. In addition, modern lineages of Fagaceae are unambiguously represented by pollen of Fagus, Quercus Group Lobatae/Quercus, and three Castaneoideae pollen types. These findings corroborate earlier findings from Axel Heiberg Island that Fagaceae were a dominant element at high latitudes during the early Cenozoic. Comparison with coeval or older mid-latitude records of modern lineages of Fagaceae shows that modern lineages found in western Greenland and Axel Heiberg likely originated at lower latitudes. Further examples comprise (possibly) Acer, Aesculus, Alnus, Ulmus, and others. Thus, before fossils belonging to modern northern temperate lineages will have been recovered from older (early Eocene, Paleocene) strata from high latitudes, Engler{\textquoteright}s hypothesis of an Arctic origin of the modern temperate woody flora of Eurasia, termed {\textquoteleft}Arcto-Tertiary Element{\textquoteright}, and later modification by R. W. Chaney and H. D. Mai ({\textquoteleft}Arcto-Tertiary Geoflora{\textquoteright}) needs to be modified.",

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author = "Fridgeir Grimsson and Reinhard Zetter and Grimm, {Guido W.} and Pedersen, {Gunver Krarup} and Pedersen, {Asger Ken} and Thomas Denk",

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doi = "10.1007/s00606-014-1118-5",

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pages = "809--832",

journal = "Plant Systematics and Evolution",

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T1 - Fagaceae pollen from the early Conozoic of West Greenland

T2 - revisiting Engler`s and Chaney`s Arcto-Tertiary hypotheses

AU - Grimsson, Fridgeir

AU - Zetter, Reinhard

AU - Grimm, Guido W.

AU - Pedersen, Gunver Krarup

AU - Pedersen, Asger Ken

AU - Denk, Thomas

PY - 2015/2

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N2 - In this paper we document Fagaceae pollen from the Eocene of western Greenland. The pollen record suggests a remarkable diversity of the family in the early Cenozoic of Greenland. Extinct Fagaceae pollen types include Eotrigonobalanus, which extends at least back to the Paleocene, and two ancestral pollen types with affinities to the Eurasian Quercus Group Ilex and the western North American Quercus Group Protobalanus. In addition, modern lineages of Fagaceae are unambiguously represented by pollen of Fagus, Quercus Group Lobatae/Quercus, and three Castaneoideae pollen types. These findings corroborate earlier findings from Axel Heiberg Island that Fagaceae were a dominant element at high latitudes during the early Cenozoic. Comparison with coeval or older mid-latitude records of modern lineages of Fagaceae shows that modern lineages found in western Greenland and Axel Heiberg likely originated at lower latitudes. Further examples comprise (possibly) Acer, Aesculus, Alnus, Ulmus, and others. Thus, before fossils belonging to modern northern temperate lineages will have been recovered from older (early Eocene, Paleocene) strata from high latitudes, Engler’s hypothesis of an Arctic origin of the modern temperate woody flora of Eurasia, termed ‘Arcto-Tertiary Element’, and later modification by R. W. Chaney and H. D. Mai (‘Arcto-Tertiary Geoflora’) needs to be modified.

AB - In this paper we document Fagaceae pollen from the Eocene of western Greenland. The pollen record suggests a remarkable diversity of the family in the early Cenozoic of Greenland. Extinct Fagaceae pollen types include Eotrigonobalanus, which extends at least back to the Paleocene, and two ancestral pollen types with affinities to the Eurasian Quercus Group Ilex and the western North American Quercus Group Protobalanus. In addition, modern lineages of Fagaceae are unambiguously represented by pollen of Fagus, Quercus Group Lobatae/Quercus, and three Castaneoideae pollen types. These findings corroborate earlier findings from Axel Heiberg Island that Fagaceae were a dominant element at high latitudes during the early Cenozoic. Comparison with coeval or older mid-latitude records of modern lineages of Fagaceae shows that modern lineages found in western Greenland and Axel Heiberg likely originated at lower latitudes. Further examples comprise (possibly) Acer, Aesculus, Alnus, Ulmus, and others. Thus, before fossils belonging to modern northern temperate lineages will have been recovered from older (early Eocene, Paleocene) strata from high latitudes, Engler’s hypothesis of an Arctic origin of the modern temperate woody flora of Eurasia, termed ‘Arcto-Tertiary Element’, and later modification by R. W. Chaney and H. D. Mai (‘Arcto-Tertiary Geoflora’) needs to be modified.

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JF - Plant Systematics and Evolution

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ER -

Fagaceae pollen from the early Conozoic of West Greenland: revisiting Engler`s and Chaney`s Arcto-Tertiary hypotheses

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