Dana Royer

Q: What Schools Are Affiliated With Dana Royer

Dana Royer is affiliated with the following schools: Wesleyan University, University of Pennsylvania, University of California, Berkeley, University of Sheffield, Yale University, Pennsylvania State University, University of California, Davis

Dana Royer's AcademicInfluence.com Rankings

Dana Royer

Earth Sciences

#2426

World Rank

#3281

Historical Rank

Paleobiology

#31

World Rank

#36

Historical Rank

earth-sciences Degrees

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Earth Sciences

Dana Royer's Degrees

Bachelors Geology University of California, Davis

Why Is Dana Royer Influential?

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According to Wikipedia, Dana Leviticus Royer is a geoscientist specializing in paleobotany at Wesleyan University. Education Royer attended the University of Pennsylvania and received his PhD from Yale University, studying under Leo Hickey and Robert Berner. He also studied with David Beerling at the University of Sheffield.

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Dana Royer's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Target atmospheric CO2: Where should humanity aim? (2008) (1252)
Three keys to the radiation of angiosperms into freezing environments (2013) (1150)
The Geological Record of Ocean Acidification (2011) (846)
CO2 as a Primary Driver of Phanerozoic Climate Change (2003) (562)
Convergent Cenozoic CO2 history (2011) (531)
CO2-forced climate thresholds during the Phanerozoic (2006) (497)
Future climate forcing potentially without precedent in the last 420 million years (2017) (442)
Sensitivity of leaf size and shape to climate: global patterns and paleoclimatic applications. (2011) (433)
Stomatal density and stomatal index as indicators of paleoatmospheric CO(2) concentration. (2001) (406)
The evolution and functional significance of leaf shape in the angiosperms. (2011) (370)
Paleobotanical evidence for near present-day levels of atmospheric Co2 during part of the tertiary. (2001) (337)
Phanerozoic atmospheric CO2 change: evaluating geochemical and paleobiological approaches (2001) (299)
Making sense of palaeoclimate sensitivity (2012) (261)
Correlations of climate and plant ecology to leaf size and shape: potential proxies for the fossil record. (2005) (252)
Sharply increased insect herbivory during the Paleocene–Eocene Thermal Maximum (2008) (239)
Vascular plant species richness in Alaskan arctic tundra: the importance of soil pH (2000) (225)
Climate sensitivity constrained by CO2 concentrations over the past 420 million years (2007) (223)
Depth to pedogenic carbonate horizon as a paleoprecipitation indicator (1999) (216)
New constraints on atmospheric CO2 concentration for the Phanerozoic (2014) (177)
Why Do Toothed Leaves Correlate with Cold Climates? Gas Exchange at Leaf Margins Provides New Insights into a Classic Paleotemperature Proxy (2006) (163)
An atmospheric pCO2 reconstruction across the Cretaceous-Tertiary boundary from leaf megafossils (2002) (160)
The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database (2017) (159)
Fossil Plants as Indicators of the Phanerozoic Global Carbon Cycle (2002) (151)
Reading a CO2 signal from fossil stomata. (2002) (140)
Ecological conservatism in the “living fossil” Ginkgo (2003) (131)
Sensitivity of leaf size and shape to climate within Acer rubrum and Quercus kelloggii. (2008) (129)
Phenotypic Plasticity of Leaf Shape along a Temperature Gradient in Acer rubrum (2009) (123)
Fossil leaf economics quantified: calibration, Eocene case study, and implications (2007) (113)
Functional distinctiveness of major plant lineages (2014) (112)
Carbon isotope evidence implying high O2/CO2 ratios in the Permo-Carboniferous atmosphere (2002) (109)
Error analysis of CO2 and O2 estimates from the long-term geochemical model GEOCARBSULF (2014) (108)
Convergent Cenozoic CO 2 history (2011) (103)
Oxygenation as a driver of the Great Ordovician Biodiversification Event (2017) (93)
Geobiological constraints on Earth system sensitivity to CO2 during the Cretaceous and Cenozoic (2012) (86)
Atmospheric CO 2 and O 2 During the Phanerozoic: Tools, Patterns, and Impacts (2014) (84)
Declining atmospheric CO2 during the late Middle Eocene climate transition (2011) (78)
Leaf economic traits from fossils support a weedy habit for early angiosperms. (2010) (76)
Target atmospheric CO2: Supporting material (2008) (75)
Carbon loss by deciduous trees in a CO2-rich ancient polar environment (2003) (64)
Geologic constraints on the glacial amplification of Phanerozoic climate sensitivity (2011) (63)
Estimating Latest Cretaceous and Tertiary atmospheric CO2 from stromatal indices (2001) (52)
Roles of climate and functional traits in controlling toothed vs. untoothed leaf margins. (2012) (51)
Fossil soils constrain ancient climate sensitivity (2010) (50)
Fossil bryophytes as recorders of ancient CO2 levels: Experimental evidence and a Cretaceous case study (2005) (50)
High CO2 increases the freezing sensitivity of plants: Implications for paleoclimatic reconstructions from fossil floras (2002) (45)
Ecology of leaf teeth: A multi-site analysis from an Australian subtropical rainforest. (2009) (45)
Quantification of large uncertainties in fossil leaf paleoaltimetry (2010) (44)
High Arctic forests during the middle Eocene supported by moderate levels of atmospheric CO2 (2014) (44)
Climate Reconstruction from Leaf Size and Shape: New Developments and Challenges (2012) (43)
Contrasting seasonal patterns of carbon gain in evergreen and deciduous trees of ancient polar forests (2005) (39)
Plant Ecological Strategies Shift Across the Cretaceous–Paleogene Boundary (2014) (39)
Linkages between CO2, climate, and evolution in deep time (2008) (39)
Export of chloride after clear-cutting in the Hubbard Brook sandbox experiment (2003) (37)
Climate Sensitivity in the Geologic Past (2016) (30)
A preliminary study of sonographic grading of fetal intracardiac echogenic foci: feasibility, reliability and association with aneuploidy (2000) (29)
Efficacy of community‐based second trimester genetic ultrasonography in detecting the chromosomally abnormal fetus. (2000) (27)
Middle Eocene CO2 and climate reconstructed from the sediment fill of a subarctic kimberlite maar (2017) (27)
Leaf Shape Responds to Temperature but Not CO2 in Acer rubrum (2012) (25)
CO2 as a primary driver of Phanerozoic climate: Reply (2004) (23)
Erratum: Three keys to the radiation of angiosperms into freezing environments (Nature (2014) 506 (89-92) (Doi:10.1038/nature12872)) (2014) (22)
Early Miocene CO2 estimates from a Neotropical fossil leaf assemblage exceed 400 ppm. (2018) (22)
Leaf size estimation based on leaf length, width and shape. (2021) (20)
Multiple Proxy Estimates of Atmospheric CO2 From an Early Paleocene Rainforest (2018) (20)
Adaptive Role of Leaf Habit in Extinct Polar Forests (2004) (19)
Connecting the Deep Earth and the Atmosphere (2020) (18)
No Evidence for a Large Atmospheric CO2 Spike Across the Cretaceous‐Paleogene Boundary (2019) (17)
Biomechanical and leaf-climate relationships: a comparison of ferns and seed plants. (2014) (15)
Sensitivity of a leaf gas-exchange model for estimating paleoatmospheric CO2 concentration (2018) (14)
Experimental evidence for species-dependent responses in leaf shape to temperature: Implications for paleoclimate inference (2019) (13)
Ultrasonographic diagnosis of thoracopagus conjoined twins in a monoamniotic triplet gestation. (1999) (13)
Corrigendum: Three keys to the radiation of angiosperms into freezing environments (2014) (12)
Quantitative critique of leaf‐based paleo‐CO2 proxies: Consequences for their reliability and applicability (2020) (12)
Diversity in neotropical wet forests during the Cenozoic is linked more to atmospheric CO2 than temperature (2013) (12)
CARBON ISOTOPIC FRACTIONATION BETWEEN WHOLE LEAVES AND CUTICLE (2017) (11)
Geologic constraints on earth system sensitivity to CO 2 during the Cretaceous and early Paleogene (2011) (11)
Corrigendum: Three keys to the radiation of angiosperms into freezing environments (2014) (10)
New paleogeographic and degassing parameters for long-term carbon cycle models (2021) (9)
Comment on “Was atmospheric CO2 capped at 1000 ppm over the past 300 million years?” by McElwain J. C. et al. [Palaeogeogr. Palaeoclimatol. Palaeoecol. 441 (2016) 653–658] (2017) (6)
A tighter constraint on Earth-system sensitivity from long-term temperature and carbon-cycle observations (2021) (5)
Automatic analysis of ISS—spectra (1993) (5)
Mantle Convection and Surface Expressions (2021) (4)
No Large Bias within Species between the Reconstructed Areas of Complete and Fragmented Fossil Leaves (2019) (4)
NUTRIENT TURNOVER RATES IN ANCIENT TERRESTRIAL ECOSYSTEMS (2008) (3)
Can climate feel the pressure? (2015) (3)
Tank bromeliads capture Saharan dust in El Yunque National Forest, Puerto Rico (2018) (3)
Comment on “ Was atmospheric CO 2 capped at 1000 ppm over the past 300 million years ? ” by McElwain J (2017) (3)
The pedogenic formation of coal balls by CO2 degassing through the rootlets of arborescent lycopsids (2019) (2)
Diverse Students Can be Attracted to Geoscience (2017) (2)
No Consistent Shift in Leaf Dry Mass per Area Across the Cretaceous—Paleogene Boundary (2022) (2)
Zanne et al. reply (2015) (2)
Leaf-economic strategies across the Eocene-Oligocene transition correlate with dry season precipitation and paleoelevation. (2020) (2)
PROSPECTS, PITFALLS, AND PRATFALLS OF HIGH LATITUDE PALEOENVIRONMENTAL RECONSTRUCTION FROM THE POST-ERUPTIVE SEDIMENTARY FILL OF KIMBERLITE PIPES IN NORTHERN CANADA (2020) (2)
Moderate to Elevated Atmospheric CO2 During the Early Paleocene Recorded by Platanites Leaves of the San Juan Basin, New Mexico (2022) (2)
The Mars Spherule Size Distribution and the Impact Hypothesis (2008) (1)
Reply to “Doubtful pathways to cold tolerance in plants” (2015) (1)
The Geological Record of Ocean Acidification: Supporting Online Material (2012) (1)
Author response for "Quantitative critique of leaf-based paleo-CO 2 proxies: Consequences for their reliability and applicability" (2020) (1)
Mars Spherule Size Distribution from Panoramic Camera Images (2006) (1)
The Geological Record of Ocean Acidification: Carbonate Chemistry Tutorial (2012) (1)
Digital Leaf Physiognomy: Using Leaf Size and Shape to Reconstruct Early and Middle Paleocene Climate Change in the Western Interior of North America (2009) (0)
High CO2 increases the freezing sensitivity of plants: implications for paleoclimate reconstructions (2003) (0)
COMMUNITY LEVEL TRENDS IN MEASURED AND ESTIMATED LEAF MASS PER AREA AND THEIR IMPLICATIONS FOR CHARACTERIZING PLANT COMMUNITY ECOLOGY IN THE GEOLOGIC PAST (2022) (0)
Phanerozoic pCO 2 recorded by the plants that used it: refinement, independent validation and multi-proxy comparison of a physiological model. (2016) (0)
Interactive comment on “ Geologic constraints on earth system sensitivity to CO 2 during the Cretaceous and early Paleogene ” by D (2011) (0)
DID ATMOSPHERIC CO2 FORCE THE MID-CRETACEOUS HOT GREENHOUSE? (2016) (0)
NO GLOBAL SHIFT IN LEAF MASS PER AREA ACROSS THE CRETACEOUS-PALEOGENE BOUNDARY (2019) (0)
CO2PIP— A COMMUNITY PROJECT TO ADVANCE AND STANDARDIZE APPROACHES TO PALEO-CO2 RECONSTRUCTION AND TO BUILD THE NEXT-GENERATION PHANEROZOIC RECORD (2021) (0)
ECOLOGICAL STRATEGY OF PACIFIC NORTHWEST SPECIES DURING THE MIOCENE CLIMATIC OPTIMUM (2022) (0)
THE IMPACTS OF SERVICE LEARNING IN THE EARTH AND ENVIRONMENTAL SCIENCES AT WESLEYAN UNIVERSITY (2017) (0)
“Hungry Insect Herbivores during the Paleocene-Eocene Thermal Maximum in the Bighorn Basin, Wyoming, USA.” (2007) (0)
Novel application of physiological theory and statistical modelling to the reconstruction of Phanerozoic atmospheric CO2 concentration (2013) (0)
AN ESTIMATE FOR MEAN ANNUAL TEMPERATURE OF THE FLORISSANT FORMATION USING DIGITAL LEAF PHYSIOGNOMY (2022) (0)
authors' response to both reviews (2019) (0)
Multi-proxy Paleoclimate and CO 2 Reconstruction from the Latest Middle Eocene Sedimentary Fill of a Subarctic Kimberlitic Maar Crater (2016) (0)
The Geological Record of Ocean Acidification: Tables (2012) (0)
Evidence for higher Earth-system sensitivity from long-term carbon-cycle observations (2019) (0)
Geologic Constraints on Climate Sensitivity (2007) (0)
BULK CARBON ISOTOPIC VARIABILITY WITHIN LEAVES (2022) (0)
review of Fletcher et al. (2018) (0)
Early Miocene redwood fossils from Inner Mongolia: CO2 reconstructions and paleoclimate effects of a low Mongolian plateau (2022) (0)
Revising key parameters for long-term carbon cycle models (2021) (0)

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What Schools Are Affiliated With Dana Royer?

Dana Royer is affiliated with the following schools:

Dana Royer's Academic­Influence.com Rankings