Add to ORKGAbstract. Marine sediments, speleothems, paleo-lake elevations, and ice core methane and δ18O of O2 (δ18Oatm) records provide ample evidence for repeated abrupt meridional shifts in tropical rainfall belts throughout the last glacial cycle. To improve understanding of the impact of abrupt events on the global terrestrial biosphere, we present composite records of δ18Oatm and inferred changes in fractionation by the global terrestrial biosphere (ΔεLAND) from discrete gas measurements in the WAIS Divide (WD) and Siple Dome (SD) Antarctic ice cores. On the common WD timescale, it is evident that maxima in ΔεLAND are synchronous with or shortly follow small-amplitude WD CH4 peaks that occur within Heinrich stadials 1, 2, 4, and 5 – periods...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
Within the context of anthropogenic warming, rainfall oscillations may induce especially important s...
Marine sediments, speleothems, paleo-lake elevations, and ice core methane and δ¹⁸O of O₂ (δ¹⁸Oatm) ...
Rhodes et al. 2015 (doi:10.1126/science.1262005) The causal mechanisms responsible for the abrupt cl...
Our understanding of climate dynamics during millennial-scale events is incomplete, partially due to...
International audienceDansgaard-Oeschger (D-O) cycles were the most prominent, abrupt climate events...
Studying past climate change offers a valuable way of observing how the climate system responds to n...
There is increasing evidence that millennial-scale climate variability played an active role on orbi...
International audienceIn photosynthesis, O2 is continuously formed from H2O and released to the atmo...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
International audienceThe isotopic ratio of atmospheric O2, δ18Oatm, deduced from ice cores, display...
High-resolution records of atmospheric methane over the last 11,500 years have been obtained from tw...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
Within the context of anthropogenic warming, rainfall oscillations may induce especially important s...
Marine sediments, speleothems, paleo-lake elevations, and ice core methane and δ¹⁸O of O₂ (δ¹⁸Oatm) ...
Rhodes et al. 2015 (doi:10.1126/science.1262005) The causal mechanisms responsible for the abrupt cl...
Our understanding of climate dynamics during millennial-scale events is incomplete, partially due to...
International audienceDansgaard-Oeschger (D-O) cycles were the most prominent, abrupt climate events...
Studying past climate change offers a valuable way of observing how the climate system responds to n...
There is increasing evidence that millennial-scale climate variability played an active role on orbi...
International audienceIn photosynthesis, O2 is continuously formed from H2O and released to the atmo...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
International audienceThe isotopic ratio of atmospheric O2, δ18Oatm, deduced from ice cores, display...
High-resolution records of atmospheric methane over the last 11,500 years have been obtained from tw...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
The causal mechanisms responsible for the abrupt climate changes of the Last Glacial Period remain u...
Within the context of anthropogenic warming, rainfall oscillations may induce especially important s...
