Palynology of the upper Chinle Formation in northern New Mexico, U.S.A.: Implications for biostratigraphy and terrestrial ecosystem change during the Late Triassic (Norian–Rhaetian)
Palynology of the upper Chinle Formation in northern New Mexico, U.S.A.: Implications for biostratigraphy and terrestrial ecosystem change during the Late Triassic (Norian–Rhaetian)
A new densely sampled palynological record from the vertebrate-bearing upper Chinle Formation at Ghost Ranch in the Chama Basin of northwestern New Mexico provides insights into the biostratigraphy and terrestrial ecosystem changes during the Late Triassic of northwestern Pangaea. Spore–pollen assemblages from the Poleo Sandstone, Petrified Forest, and ‘siltstone’ members are dominated by pollen of corystospermous seed ferns (Alisporites) and voltziacean conifers (Enzonalasporites, Patinasporites). Other abundant taxa include Klausipollenites gouldii and the enigmatic fused tetrad Froelichsporites traversei, whereas spores of ferns and fern allies are generally rare. The assemblages are correlated with Zone III Chinle palynofloras of previous authors. The lower assemblages contain rare occurrences of typical Zone II taxa, namely Cycadopites stonei, Equisetosporites chinleanus and Lagenella martini, that may either be reworked or represent relictual floral elements. Marked step-wise losses of species richness, along with only minor appearances of new taxa, led to a total 50% drop in range-through diversity during the late Norian of the Chama Basin. Correlations with other Chinle records in the western U.S. reveal differences in the stratigraphic ranges of some spore–pollen taxa, likely attributable to local/regional differences in environmental conditions, such as groundwater availability, precipitation, nutrients, and temperature, rather than stratigraphic miscorrelation. This is interpreted as a consequence of environmental stress resulting from increased aridity coincident with the northward movement of Pangaea. Similarly, major differences between the western and eastern U.S. and northwestern Europe can be attributed to floral provincialism governed by climatic zones during the Late Triassic.
Late Triassic, Norian–Rhaetian, Chinle Formation, Palynology, Palynostratigraphy, Palaeoecology
106-131
Lindström, Sofie
fd413e16-cac3-461f-8294-d79244fc8d11
Irmis, Randall B.
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Whiteside, Jessica
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
Smith, Nathan D.
66ae64a1-91a1-419b-87c6-5f8b1a753ecd
Nesbitt, Sterling J.
605d5fbd-7096-4ff4-bb73-757664c69ccf
Turner, Alan H.
38cc3e3d-9951-462d-9190-a0b1366f5c83
February 2016
Lindström, Sofie
fd413e16-cac3-461f-8294-d79244fc8d11
Irmis, Randall B.
1490574b-4ad6-4896-a1d7-b66933a7e12e
Whiteside, Jessica
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
Smith, Nathan D.
66ae64a1-91a1-419b-87c6-5f8b1a753ecd
Nesbitt, Sterling J.
605d5fbd-7096-4ff4-bb73-757664c69ccf
Turner, Alan H.
38cc3e3d-9951-462d-9190-a0b1366f5c83
Lindström, Sofie, Irmis, Randall B., Whiteside, Jessica, Smith, Nathan D., Nesbitt, Sterling J. and Turner, Alan H.
(2016)
Palynology of the upper Chinle Formation in northern New Mexico, U.S.A.: Implications for biostratigraphy and terrestrial ecosystem change during the Late Triassic (Norian–Rhaetian).
Review of Palaeobotany and Palynology, 225, .
(doi:10.1016/j.revpalbo.2015.11.006).
Abstract
A new densely sampled palynological record from the vertebrate-bearing upper Chinle Formation at Ghost Ranch in the Chama Basin of northwestern New Mexico provides insights into the biostratigraphy and terrestrial ecosystem changes during the Late Triassic of northwestern Pangaea. Spore–pollen assemblages from the Poleo Sandstone, Petrified Forest, and ‘siltstone’ members are dominated by pollen of corystospermous seed ferns (Alisporites) and voltziacean conifers (Enzonalasporites, Patinasporites). Other abundant taxa include Klausipollenites gouldii and the enigmatic fused tetrad Froelichsporites traversei, whereas spores of ferns and fern allies are generally rare. The assemblages are correlated with Zone III Chinle palynofloras of previous authors. The lower assemblages contain rare occurrences of typical Zone II taxa, namely Cycadopites stonei, Equisetosporites chinleanus and Lagenella martini, that may either be reworked or represent relictual floral elements. Marked step-wise losses of species richness, along with only minor appearances of new taxa, led to a total 50% drop in range-through diversity during the late Norian of the Chama Basin. Correlations with other Chinle records in the western U.S. reveal differences in the stratigraphic ranges of some spore–pollen taxa, likely attributable to local/regional differences in environmental conditions, such as groundwater availability, precipitation, nutrients, and temperature, rather than stratigraphic miscorrelation. This is interpreted as a consequence of environmental stress resulting from increased aridity coincident with the northward movement of Pangaea. Similarly, major differences between the western and eastern U.S. and northwestern Europe can be attributed to floral provincialism governed by climatic zones during the Late Triassic.
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Lindström et al manuscript revised 2.pdf
- Accepted Manuscript
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SV__Accepted_manuscript_version_of_Review_of_Palaeobotany_and_Palynology.zip
- Accepted Manuscript
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Accepted/In Press date: 7 November 2015
e-pub ahead of print date: 2 December 2015
Published date: February 2016
Keywords:
Late Triassic, Norian–Rhaetian, Chinle Formation, Palynology, Palynostratigraphy, Palaeoecology
Organisations:
Paleooceanography & Palaeoclimate
Identifiers
Local EPrints ID: 390917
URI: http://eprints.soton.ac.uk/id/eprint/390917
ISSN: 0034-6667
PURE UUID: 6a93e79b-f66b-4a20-9ea7-f14620f1dd22
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Date deposited: 06 Apr 2016 15:45
Last modified: 15 Mar 2024 05:28
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Contributors
Author:
Sofie Lindström
Author:
Randall B. Irmis
Author:
Nathan D. Smith
Author:
Sterling J. Nesbitt
Author:
Alan H. Turner
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