In this paper, we use molecular paleothermometry, based on the TEX86 proxy derived from fossilized archaeal lipids, to reconstruct absolute sea surface temperatures (SSTs) for the northwest Tethys Shelf during the late Pliensbachian to early Toarcian (Early Jurassic, similar to 183 Ma) stages. Our composite record from outcrops in Spain and Italy reveals that tropical SSTs varied between 22 and 32 degrees C over a similar to 3 Myr time period, including transient temperature excursions of 5-10 degrees C magnitude with lapse rates of similar to 0.1 degrees C/kyr. Changes in reconstructed SSTs covaried with sea level fluctuations and delta O-18 isotope signatures of marine biocalcifiers, recording recurrent shifts between icehouse and greenhouse states. Parallel trends of reconstructed SST and delta C-18 isotopes of atmospheric CO2 may reflect storage of isotopically light carbon in cryosphere reservoirs during icehouse phases and release during greenhouse phases. The existence of a labile cryosphere is considered a prerequisite to explain the inferred rapid climate fluctuations and as a reservoir to facilitate pronounced carbon isotope excursions.

Molecular paleothermometry of the early Toarcian climate perturbation

Sabatino Nadia;
2020

Abstract

In this paper, we use molecular paleothermometry, based on the TEX86 proxy derived from fossilized archaeal lipids, to reconstruct absolute sea surface temperatures (SSTs) for the northwest Tethys Shelf during the late Pliensbachian to early Toarcian (Early Jurassic, similar to 183 Ma) stages. Our composite record from outcrops in Spain and Italy reveals that tropical SSTs varied between 22 and 32 degrees C over a similar to 3 Myr time period, including transient temperature excursions of 5-10 degrees C magnitude with lapse rates of similar to 0.1 degrees C/kyr. Changes in reconstructed SSTs covaried with sea level fluctuations and delta O-18 isotope signatures of marine biocalcifiers, recording recurrent shifts between icehouse and greenhouse states. Parallel trends of reconstructed SST and delta C-18 isotopes of atmospheric CO2 may reflect storage of isotopically light carbon in cryosphere reservoirs during icehouse phases and release during greenhouse phases. The existence of a labile cryosphere is considered a prerequisite to explain the inferred rapid climate fluctuations and as a reservoir to facilitate pronounced carbon isotope excursions.
2020
Sea surface temperatures
TEX86
GDGT
Early Jurassic
Mesozoic climates
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/427819
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