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Spatially distinct ice-sheet growth on the Antarctic Peninsula through the Pleistocene was the result of dynamic topography and pre-glacial landscape evolution, not climate, according to a palaeotopographic reconstruction and ice-sheet modelling.
High-elevation meteorological observations and reanalysis data indicate local cooling and drying near Himalayan glaciers due to enhanced katabatic winds in response to global warming.
Plant diversity stabilizes grassland soil temperature by boosting soil organic carbon and increasing plant leaf area, according to an 18-year plant diversity experiment.
Weathering of mafic and ultramafic lithologies in ophiolites can enhance the preservation of organic carbon through the formation of smectite clays and modulate Earth’s climate, according to a coupled mineral weathering and carbon box model.
While global ocean redox patterns during the end Triassic were similar to today, pulses of localized anoxia were probably linked to mass extinctions on continental shelves, according to analysis of molybdenum records.
Abrupt changes in atmospheric methane through the last deglaciation were largely the result of tropical sources responding to shifting rainfall patterns, according to a comparison of precisely dated ice cores in Greenland and Antarctica.
The century-scale marine sequestration flux of biogenic inorganic carbon driven by the biological pump over the whole water column may be several times higher than previous estimates.
Convection-permitting simulations suggest that the radiative impact of aerosol–cloud interactions is enhanced by adjustments to large-scale circulation, which increase cloudiness.
Mineral precipitation experiments suggest the formation of greenalite, an iron silicate mineral, limited zinc, copper and vanadium levels in the Archaean ocean, making them unavailable to early microbial life.
Reconstructions of Tibetan Plateau streamflow over the last millennia reveal close associations with dry season vegetation and major population shifts in Southeast Asia.
Wildfires have caused widespread and increasingly severe losses within timber-producing forests in recent decades, according to maps of logging activity and wildfires.
The Southern Annular Mode and ENSO are the main drivers of recent decadal variability in Antarctic ice mass, according to analysis of satellite-based gravimetric observations.
Deeply subducted water may have enabled the exchange of hydrogen and silicon between the mantle and core, according to high-pressure and -temperature experiments.
Lightning-induced fires account for 77% of the burned area in extratropical intact forests, and lightning ignitions will probably become more frequent as the global climate warms, according to a global attribution of lightning and anthropogenic fires from 2001 to 2020.
Velocity-weakening seismic barriers in subduction zones display a range of behaviours consistent with geologic structural control on earthquake seismicity, according to earthquake cycle simulations along a megathrust.
Indirect forcing by low regional orography and high atmospheric methane levels contributed to the amplified Arctic temperatures in the early Eocene by enhancing polar stratospheric cloud formation, according to an atmospheric model with interactive chemistry.
Serpentinization of komatiites produced large quantities of H2 in the Archaean, which has implications for the start of early chemosynthetic life, according to petrologic and bulk rock chemical analyses.
European river discharge observations suggest that catchments with similar flood generation processes produce similar extremes, enabling better predictability of megafloods using a continental scale perspective.