Extremely high sea-surface temperatures at low latitudes during the middle Cretaceous as revealed by archaeal membrane lipids

The middle Cretaceous (125–88 Ma) greenhouse world was characterized by high atmospheric CO₂ levels, the general absence of polar ice caps, and much higher global temperatures than at present. Both δ¹⁸O-based and model-based temperature reconstructions indicate extremely high sea-surface temperatures (SSTs) at high latitudes. However, there are a number of uncertainties with SST reconstructions based on δ¹⁸O isotope data of foraminifera due to diagenetic overprinting effects and tenuous assumptions with respect to the δ¹⁸O value of Cretaceous seawater, the paleoecology of middle Cretaceous marine organisms and seawater pH. Here we applied a novel SST proxy (i.e., TEX₈₆ [tetraether index of 86 carbon atoms], based on the membrane lipids of marine crenarchaeota) derived from middle Cretaceous sedimentary rocks deposited at low latitudes. The TEX₈₆ proxy indicates that tropical SSTs in the proto–North Atlantic were at 32–36 °C during the early Albian and late Cenomanian–early Turonian. This finding agrees with SST estimates based on δ¹⁸O paleothermometry of well-preserved foraminifera as well as global circulation model calculations. The TEX₈₆ proxy indicates cooler SSTs (27–32 °C) for the equatorial Pacific during the early Aptian, which is in agreement with SST estimates based on δ¹⁸O paleothermometry.