F. Talarico scite author profile

Geological records from the Antarctic margin offer direct evidence of environmental variability at high southern latitudes and provide insight regarding ice sheet sensitivity to past climate change. The early to mid-Miocene (23–14 Mya) is a compelling interval to study as global temperatures and atmospheric CO2 concentrations were similar to those projected for coming centuries. Importantly, this time interval includes the Miocene Climatic Optimum, a period of global warmth during which average surface temperatures were 3–4 °C higher than today. Miocene sediments in the ANDRILL-2A drill core from the Western Ross Sea, Antarctica, indicate that the Antarctic ice sheet (AIS) was highly variable through this key time interval. A multiproxy dataset derived from the core identifies four distinct environmental motifs based on changes in sedimentary facies, fossil assemblages, geochemistry, and paleotemperature. Four major disconformities in the drill core coincide with regional seismic discontinuities and reflect transient expansion of grounded ice across the Ross Sea. They correlate with major positive shifts in benthic oxygen isotope records and generally coincide with intervals when atmospheric CO2 concentrations were at or below preindustrial levels (∼280 ppm). Five intervals reflect ice sheet minima and air temperatures warm enough for substantial ice mass loss during episodes of high (∼500 ppm) atmospheric CO2. These new drill core data and associated ice sheet modeling experiments indicate that polar climate and the AIS were highly sensitive to relatively small changes in atmospheric CO2 during the early to mid-Miocene.

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The stratigraphic signature of the late Cenozoic Antarctic Ice Sheets in the Ross Embayment

McKay

Browne

Carter

et al. 2009

Geological Society of America Bulletin

166

265

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Orbitally induced oscillations in the East Antarctic ice sheet at the Oligocene/Miocene boundary

Naish

Woolfe

Barrett

et al. 2001

Nature

253

169

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Antarctic Ice Sheet variability across the Eocene-Oligocene boundary climate transition

Galeotti

DeConto

Naish

et al. 2016

Science

151

148

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About 34 million years ago, Earth's climate cooled and an ice sheet formed on Antarctica as atmospheric carbon dioxide (CO2) fell below ∼750 parts per million (ppm). Sedimentary cycles from a drill core in the western Ross Sea provide direct evidence of orbitally controlled glacial cycles between 34 million and 31 million years ago. Initially, under atmospheric CO2 levels of >600 ppm, a smaller Antarctic Ice Sheet (AIS), restricted to the terrestrial continent, was highly responsive to local insolation forcing. A more stable, continental-scale ice sheet calving at the coastline did not form until ∼32.8 million years ago, coincident with the earliest time that atmospheric CO2 levels fell below ∼600 ppm. Our results provide insight into the potential of the AIS for threshold behavior and have implications for its sensitivity to atmospheric CO2 concentrations above present-day levels

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F. Talarico

Obliquity-paced Pliocene West Antarctic ice sheet oscillations

Antarctic ice sheet sensitivity to atmospheric CO ₂ variations in the early to mid-Miocene

The stratigraphic signature of the late Cenozoic Antarctic Ice Sheets in the Ross Embayment

Orbitally induced oscillations in the East Antarctic ice sheet at the Oligocene/Miocene boundary

Antarctic Ice Sheet variability across the Eocene-Oligocene boundary climate transition

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About

F. Talarico

Obliquity-paced Pliocene West Antarctic ice sheet oscillations

Antarctic ice sheet sensitivity to atmospheric CO 2 variations in the early to mid-Miocene

The stratigraphic signature of the late Cenozoic Antarctic Ice Sheets in the Ross Embayment

Orbitally induced oscillations in the East Antarctic ice sheet at the Oligocene/Miocene boundary

Antarctic Ice Sheet variability across the Eocene-Oligocene boundary climate transition

Contact Info

Product

Resources

About

Antarctic ice sheet sensitivity to atmospheric CO ₂ variations in the early to mid-Miocene