Late Eocene to middle Miocene (33 to 13 million years ago) vegetation and climate development on the North American Atlantic Coastal Plain (IODP Expedition 313, Site M0027)

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doi: 10.5194/cp-10-1523-2014
Author(s): Kotthoff, U.; Greenwood, D. R.; McCarthy, F. M. G.; Müller-Navarra, K.; Prader, S.; Hesselbo, S. P.
Author Affiliation(s): Primary:
Universität Hamburg, Institut für Geologie, Centrum für Erdsystemforschung und Nachhaltigkeit, Hamburg, Germany
Brandon University, Canada
Brock University, Canada
University of Exeter, United Kingdom
Volume Title: Climate of the Past
Source: Climate of the Past, 10(4), p.1523-1539. Publisher: Copernicus, Katlenburg-Lindau, International. ISSN: 1814-9324
Note: In English. 106 refs.; illus., incl. sketch maps
Summary: We investigated the palynology of sediment cores from Site M0027 of IODP (Integrated Ocean Drilling Program) Expedition 313 on the New Jersey shallow shelf to examine vegetation and climate dynamics on the east coast of North America between 33 and 13 million years ago and to assess the impact of over-regional climate events on the region. Palynological results are complemented with pollen-based quantitative climate reconstructions. Our results indicate that the hinterland vegetation of the New Jersey shelf was characterized by oak-hickory forests in the lowlands and conifer-dominated vegetation in the highlands from the early Oligocene to the middle Miocene. The Oligocene witnessed several expansions of conifer forest, probably related to cooling events. The pollen-based climate data imply an increase in annual temperatures from ∼11.5 °C to more than 16 °C during the Oligocene. The Mi-1 cooling event at the onset of the Miocene is reflected by an expansion of conifers and mean annual temperature decrease of ∼4 °C, from ∼16 °C to ∼12 °C around 23 million years before present. Relatively low annual temperatures are also recorded for several samples during an interval around ∼20 million years before present, which may reflect the Mi-1a and the Mi-1aa cooling events. Generally, the Miocene ecosystem and climate conditions were very similar to those of the Oligocene. Miocene grasslands, as known from other areas in the USA during that time period, are not evident for the hinterland of the New Jersey shelf, possibly reflecting moisture from the proto-Gulf Stream. The palaeovegetation data reveal stable conditions during the mid-Miocene climatic optimum at ∼15 million years before present, with only a minor increase in deciduous-evergreen mixed forest taxa and a decrease in swamp forest taxa. Pollen-based annual temperature reconstructions show average annual temperatures of ∼14 °C during the mid-Miocene climatic optimum, ∼2 °C higher than today, but ∼1.5 °C lower than preceding and following phases of the Miocene. We conclude that vegetation and regional climate in the hinterland of the New Jersey shelf did not react as sensitively to Oligocene and Miocene climate changes as other regions in North America or Europe due to the moderating effects of the North Atlantic. An additional explanation for the relatively low regional temperatures reconstructed for the mid-Miocene climatic optimum could be an uplift of the Appalachian Mountains during the Miocene, which would also have influenced the catchment area of our pollen record.
Year of Publication: 2014
Research Program: IODP Integrated Ocean Drilling Program
Key Words: 12 Stratigraphy, Historical Geology and Paleoecology; Absolute age; Age model; Assemblages; Atlantic Coastal Plain; Atlantic Ocean; Atmospheric precipitation; Biochronology; Biostratigraphy; Cenozoic; Climate; Climate change; Climate forcing; Coniferales; Cores; Eocene; Expedition 313; Forests; Gymnospermae; IODP Site M0027; Integrated Ocean Drilling Program; Isotope ratios; Isotopes; Lithostratigraphy; Marine environment; Microfossils; Middle Miocene; Miocene; Miospores; Neogene; New Jersey; North America; North Atlantic; O-18/O-16; Oligocene; Oxygen; Paleoclimatology; Paleoecology; Paleoenvironment; Paleogene; Palynomorphs; Plantae; Pollen; Sediments; Sequence stratigraphy; Shelf environment; Spermatophyta; Spores; Sr/Sr; Stable isotopes; Temperature; Tertiary; United States; Upper Eocene; Vegetation
Coordinates: N393800 N393800 W0733700 W0733700
Record ID: 2015083436
Copyright Information: GeoRef, Copyright 2019 American Geosciences Institute. Reference includes data from Copernicus Gesellschaft, Katlenburg-Lindau, Germany