Variations in Earth's orbit pace the glacial-interglacial cycles of the Quaternary, but the mechanisms that transform regional and seasonal variations in solar insolation into glacial-interglacial cycles are still elusive. Here, we present transient simulations of coevolution of climate, ice sheets, and carbon cycle over the past 3 million years. We show that a gradual lowering of atmospheric CO2 and regolith removal are essential to reproduce the evolution of climate variability over the Quaternary. The long-term CO2 decrease leads to the initiation of Northern Hemisphere glaciation and an increase in the amplitude of glacial-interglacial variations, while the combined effect of CO2 decline and regolith removal controls the timing of the t...
The sensitivity of the last glacial-inception (around 115 kyr BP, 115,000 years before present) to d...
Understanding the evolution of, and the interactions between, ice sheets and the global climate over...
During the Cenozoic, land ice and climate interacted on many different timescales. On long timescale...
Variations in Earth's orbit pace the glacial-interglacial cycles of the Quaternary, but the mechanis...
In spite of significant progress in paleoclimate reconstructions and modelling of different aspects ...
In spite of significant progress in paleoclimate reconstructions and modelling of different aspects...
Paleoclimate records reveal a close link between global ice volume and atmospheric CO2 concentratio...
During glacial-interglacial cycles, atmospheric CO2 concentration varied by about 100 ppmv in amplit...
Ice core records of atmospheric CO2 concentration through the last 800,000 years show the carbon cyc...
The mechanisms of strong glacial-interglacial variations in the atmospheric CO2 concentration and th...
Driven primarily by variations in the earth's axis wobble, tilt, and orbit eccentricity, our pl...
Understanding how and why global climate is changing is investigated at the astronomical time scale ...
Driven primarily by variations in earth’s axis wobble, tilt, and orbit eccentricity, our planet expe...
The gradual cooling of the climate during the Cenozoic has generally been attributed to a decrease i...
The Pliocene–Pleistocene Transition (PPT), from around 3.2 to 2.5 million years ago (Ma), represente...
The sensitivity of the last glacial-inception (around 115 kyr BP, 115,000 years before present) to d...
Understanding the evolution of, and the interactions between, ice sheets and the global climate over...
During the Cenozoic, land ice and climate interacted on many different timescales. On long timescale...
Variations in Earth's orbit pace the glacial-interglacial cycles of the Quaternary, but the mechanis...
In spite of significant progress in paleoclimate reconstructions and modelling of different aspects ...
In spite of significant progress in paleoclimate reconstructions and modelling of different aspects...
Paleoclimate records reveal a close link between global ice volume and atmospheric CO2 concentratio...
During glacial-interglacial cycles, atmospheric CO2 concentration varied by about 100 ppmv in amplit...
Ice core records of atmospheric CO2 concentration through the last 800,000 years show the carbon cyc...
The mechanisms of strong glacial-interglacial variations in the atmospheric CO2 concentration and th...
Driven primarily by variations in the earth's axis wobble, tilt, and orbit eccentricity, our pl...
Understanding how and why global climate is changing is investigated at the astronomical time scale ...
Driven primarily by variations in earth’s axis wobble, tilt, and orbit eccentricity, our planet expe...
The gradual cooling of the climate during the Cenozoic has generally been attributed to a decrease i...
The Pliocene–Pleistocene Transition (PPT), from around 3.2 to 2.5 million years ago (Ma), represente...
The sensitivity of the last glacial-inception (around 115 kyr BP, 115,000 years before present) to d...
Understanding the evolution of, and the interactions between, ice sheets and the global climate over...
During the Cenozoic, land ice and climate interacted on many different timescales. On long timescale...