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Showing 1–23 of 23 results
Advanced filters: Author: Peter Huybers Clear advanced filters

  • Much progress has been made towards understanding what caused the waxing and the waning of the great ice sheets, but a complete theory of the ice ages is still elusive.

    • Maureen E. Raymo
    • Peter Huybers
    Special Features
    Nature
    Volume: 451, P: 284-285

  • Reconstructions and observations of Earth's surface temperature are used to examine variability at scales from annual to Milankovitch (23 and 41 kyr) cycles and find that temperature variability is linked at all timescales in response to deterministic solar forcing.

    • Peter Huybers
    • William Curry
    Research
    Nature
    Volume: 441, P: 329-332

  • On orbital timescales, Antarctic climate varies in phase with Northern Hemisphere insolation, but no physical mechanism for such a link is known. A new analysis suggests that at obliquity and precession timescales Antarctic climate may instead be responding to the duration of the local summer, which covaries with Northern insolation.

    • Peter Huybers
    • George Denton
    Research
    Nature Geoscience
    Volume: 1, P: 787-792

  • Migration responses to climate are demographically heterogeneous. Accounting for age and education greatly improves predictions, with demographic-specific effects often an order of magnitude larger than population wide averages.

    • Hélène Benveniste
    • Peter Huybers
    • Jonathan Proctor
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-14

  • Climate change could potentially destabilize marine ice sheets such as the West Antarctic ice sheet. A suite of predictions of sea-level change following grounding-line migration suggests that the gravitational effects of melting on local sea levels can exert a stabilizing influence on marine ice sheets on a reverse slope.

    • Natalya Gomez
    • Jerry X. Mitrovica
    • Peter U. Clark
    Research
    Nature Geoscience
    Volume: 3, P: 850-853

  • A merger of data and modelling using a probabilistic approach indicates that sea level was much higher during the last interglacial than it is now, providing telling clues about future ice-sheet responses to warming.

    • Peter U. Clark
    • Peter Huybers
    News & Views
    Nature
    Volume: 462, P: 856-857

  • Climate model simulations and aridity indices suggest decreasing summertime surface soil moisture in the continental USA due to anthropogenic climate change, but observations from 2011 to 2020 reveal positive trends across 57% of the region. Using a two-layer land surface model, this study attributes short-term soil moisture changes mainly to internal precipitation variability, and long-term trends to uncertain precipitation alterations.

    • Lucas R. Vargas Zeppetello
    • Aleyda M. Trevino
    • Peter Huybers
    Research
    Nature Water
    Volume: 2, P: 127-138

  • Surface conductance variations in non-vegetated salt flats are similar to those in vegetated ecosystems and in an idealized boundary layer model. This suggests that soil moisture, and not vapour pressure deficit, controls surface conductance variations.

    • Lucas R. Vargas Zeppetello
    • Kaighin A. McColl
    • Peter Huybers
    Research
    Nature Water
    Volume: 1, P: 941-951

  • Predictions of climate warming raise concerns about food security. However, the extent to which adaptation can offset heat-related yield losses remains unclear. Now research that used spatial adaptation of US maize crops as a surrogate for future adaptation finds that the yield reduction resulting from warming of 2 °C above pre-industrial levels can be approximately halved using existing management practices.

    • Ethan E. Butler
    • Peter Huybers
    Research
    Nature Climate Change
    Volume: 3, P: 68-72

  • Tree rings are a crucial archive for Common Era climate reconstructions, but the degree to which methodological decisions influence outcomes is not well known. Here, the authors show how different approaches taken by 15 different groups influence the ensemble temperature reconstruction from the same data.

    • Ulf Büntgen
    • Kathy Allen
    • Jan Esper
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-10

  • Increases in temperature extremes are of major concern for agricultural production. However, this study identifies a connection between agricultural intensification and less extreme summer temperatures over the agriculturally dominated US Midwest.

    • Nathaniel D. Mueller
    • Ethan E. Butler
    • Peter Huybers
    Research
    Nature Climate Change
    Volume: 6, P: 317-322

  • Correction of oddities in the historical record of sea surface temperatures reveals that some basin-wide climate variations were an artefact of systematic biases that stem, in part, from Japanese records being truncated to whole numbers when the records were digitized.

    • Duo Chan
    • Elizabeth C. Kent
    • Peter Huybers
    Research
    Nature
    Volume: 571, P: 393-397

  • Vertical motions of Earth’s crust had the greatest effect on regional spatial differences in relative sea-level trends along the eastern coast of the USA during 1900–2017, explaining most of the large-scale spatial variance in regional rates of sea-level rise.

    • Christopher G. Piecuch
    • Peter Huybers
    • Martin P. Tingley
    Research
    Nature
    Volume: 564, P: 400-404

  • The largest assemblage so far of published data shows that C3 crops have decreased zinc and iron levels under CO2 conditions predicted for the middle of this century, with worldwide nutritional implications.

    • Samuel S. Myers
    • Antonella Zanobetti
    • Yasuhiro Usui
    Research
    Nature
    Volume: 510, P: 139-142