1
Acknowledgements Macrofossil specimens courtesy of the United States Geological Survey (USGS) & the University of California Museum of Paleontology (UCMP) Pollen identifications and photography by Estella B. Leopold & Stephanie Zaborac-Reed (University of Washington) Travel funding provided by The Friends of the Florissant Fossil Beds, Inc. Fossil photography by Lindsay J. Walker (GeoCorps America) & Dave Strauss (UCMP) Flora & Vegetation • Modern bristlecone and foxtail pines are endemic to the western U.S. This group typically inhabits cold climates at high elevations, and includes some of the world’s longest living organisms, which can reach ages >4000 years. Dominance of this pine in the Hermosa and Hillsboro floras indicates a depauperate, cold, subalpine (physiognomically taiga-like) forest. Mahonia and Crataegus were understory shrubs Pollen flora dominated by Pinaceae and Sarcobatus, with several minor angiosperms - Pinaceae substantiates macrofloral evidence for pine dominance - Sarcobatus and Ephedra indicate dry habitats (at lower elevations?) within the region and regional aridity - Juglandaceae and Ulmaceae indicate moist habitat (at lower elevations?) more distant from the depositional basin Climate • Mean annual temperature (MAT) estimate: 1°C ± 2° Supported by both physiognomic and nearest-living- relative methods Physiognomic - Modern bristlecone pine subalpine forest MAT: -2 to +3°C (see diagram) - Taiga NLRs - Pinus aristata (MAT: -4 to +3°C) - Pinus longaeva (MAT: -2 to +12°C) Caldera topography may have resulted in cold-air drainage into the basin Paleoelevation • Estimates are based on comparison with coeval early Oligocene sea level floras and inferred lapse rates Estimated paleoelevation - Meyer local lapse rate method: 2850 meters - Wolfe regional lapse rate method: 5660 meters Response to Eocene-Oligocene Transition • The floras indicate that a very cold climate developed locally in the interior uplands of the American Southwest during the global climatic cooling of the Eocene-Oligocene transition Increase in mean annual range of temperature (MART) during the Eocene-Oligocene transition was probably prerequisite to development of taiga-like subalpine coniferous forest (“pure” bristlecone pine forest) in this region The late Eocene Red Rock Ranch flora of this region represents cool mixed coniferous forest with some hardwoods Warmer climate (MAT 5-9°C) than the Hermosa and Hillsboro floras - Climate change? - Elevation difference? More northern floras of Colorado (Antero and Florissant) indicate warmer conditions than New Mexico during the Eocene-Oligocene transition, probably due to differences in elevation Note: 2x scale for macrofossils unless indicated otherwise White Mountains, California, U.S.A. Pinus longaeva Black Mountain, Colorado, U.S.A. Pinus aristata 3x Modern Pinus aristata Poster designed by Lindsay J. Walker (GeoCorps America, Geological Society of America) ~1x 1 cm

Paleoelevation Response to Eocene-Oligocene Transition · Eocene-Oligocene transition was probably prerequisite to development of taiga-like subalpine coniferous forest (“pure”

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Page 1: Paleoelevation Response to Eocene-Oligocene Transition · Eocene-Oligocene transition was probably prerequisite to development of taiga-like subalpine coniferous forest (“pure”

AcknowledgementsMacrofossil specimens courtesy of the United States Geological Survey (USGS) & the University of California Museum of Paleontology (UCMP)

Pollen identifications and photography by Estella B. Leopold & Stephanie Zaborac-Reed (University of Washington)Travel funding provided by The Friends of the Florissant Fossil Beds, Inc.

Fossil photography by Lindsay J. Walker (GeoCorps America) & Dave Strauss (UCMP)

Flora & Vegetation• Modern bristlecone and foxtail pines are endemic to the western U.S. This group

typically inhabits cold climates at high elevations, and includes some of the world’s longest living organisms, which can reach ages >4000 years.

• Dominance of this pine in the Hermosa and Hillsboro floras indicates a depauperate, cold, subalpine (physiognomically taiga-like) forest.

• Mahonia and Crataegus were understory shrubs• Pollen flora dominated by Pinaceae and Sarcobatus, with several minor

angiosperms- Pinaceae substantiates macrofloral evidence for pine dominance- Sarcobatus and Ephedra indicate dry habitats (at lower elevations?) within the region and regional aridity- Juglandaceae and Ulmaceae indicate moist habitat (at lower elevations?) more distant from the depositional basin

Climate• Mean annual temperature (MAT) estimate: 1°C ± 2°• Supported by both physiognomic and nearest-living-

relative methodsPhysiognomic

- Modern bristlecone pine subalpine forest MAT: -2 to +3°C (see diagram) - Taiga

NLRs- Pinus aristata (MAT: -4 to +3°C) - Pinus longaeva (MAT: -2 to +12°C)

• Caldera topography may have resulted in cold-air drainage into the basin

Paleoelevation• Estimates are based on

comparison with coeval early Oligocene sea level floras and inferred lapse rates

• Estimated paleoelevation - Meyer local lapse rate method: 2850 meters

- Wolfe regional lapse rate method: 5660 meters

Response to Eocene-Oligocene Transition• The floras indicate that a very cold climate developed locally in the

interior uplands of the American Southwest during the global climatic cooling of the Eocene-Oligocene transition

• Increase in mean annual range of temperature (MART) during the Eocene-Oligocene transition was probably prerequisite to development of taiga-like subalpine coniferous forest (“pure” bristlecone pine forest) in this region

• The late Eocene Red Rock Ranch flora of this region represents cool mixed coniferous forest with some hardwoods

Warmer climate (MAT 5-9°C) than the Hermosa and Hillsboro floras- Climate change?- Elevation difference?

• More northern floras of Colorado (Antero and Florissant) indicate warmer conditions than New Mexico during the Eocene-Oligocene transition, probably due to differences in elevation

Note: 2x scale for macrofossils unless indicated otherwise

White Mountains, California, U.S.A. Pinus longaeva

Black Mountain, Colorado, U.S.A.Pinus aristata

3x

ModernPinus aristata

Poster designed by Lindsay J. Walker(GeoCorps America, Geological Society of America)

~1x

1 cm