Nature Search

Future of the Greenland ice sheet

Ice-sheet loss is a likely effect of human interference with the climate system. Research shows that the disintegration of the Greenland ice sheet could occur close to, or even below, the target of limiting warming to 2 °C above pre-industrial levels.

Gerhard Krinner
Gaël Durand
News & Views25 May 2012
Nature Climate Change

Volume: 2, P: 396-397
Regional and tele-connected impacts of the Tibetan Plateau surface darkening

Impacts of Tibetan Plateau darkening remain unclear. Here authors show that darkening under the RCP8.5 scenario will increase South Asian monsoon precipitation and the “South Flood-North Drought” pattern over East Asia, while lead to local glacier loss.

Shuchang Tang
Anouk Vlug
Tandong Yao
ResearchOpen Access03 Jan 2023
Nature Communications

Volume: 14, P: 1-10
Observed changes in dry-season water availability attributed to human-induced climate change

Regional changes in dry-season water availability over recent decades can be attributed to human-induced climate change, according to analyses of global reconstructions.

Ryan S. Padrón
Lukas Gudmundsson
Sonia I. Seneviratne
Research29 Jun 2020
Nature Geoscience

Volume: 13, P: 477-481
Controls of soil organic matter on soil thermal dynamics in the northern high latitudes

Soils in the northern permafrost region contain large quantities of organic carbon, formed over long time scales under cold climates. Here the authors test a number of soil properties and show that soil organic carbon is the dominant factor controlling thermal diffusivity among 200 sites in high latitude regions.

Dan Zhu
Philippe Ciais
Gustaf Hugelius
ResearchOpen Access18 Jul 2019
Nature Communications

Volume: 10, P: 1-9
The large mean body size of mammalian herbivores explains the productivity paradox during the Last Glacial Maximum

Incorporating a grazing module into a global dynamic vegetation model allows the effects of large herbivores to be accounted for. This revised model is applied to conditions in the present and during the Last Glacial Maximum.

Dan Zhu
Philippe Ciais
Sergey Zimov
Research26 Feb 2018
Nature Ecology & Evolution

Volume: 2, P: 640-649
Mass balance of the Greenland Ice Sheet from 1992 to 2018

Three techniques for estimating mass losses from the Greenland Ice Sheet produce comparable results for the period 1992–2018 that approach the trajectory of the highest rates of sea-level rise projected by the IPCC.

Andrew Shepherd
Erik Ivins
Jan Wuite
Research10 Dec 2019
Nature

Volume: 579, P: 233-239
Mass balance of the Antarctic Ice Sheet from 1992 to 2017

Andrew Shepherd
Erik Ivins
Bert Wouters
Research13 Jun 2018
Nature

Volume: 558, P: 219-222
Historically-based run-time bias corrections substantially improve model projections of 100 years of future climate change

Empirical bias corrections in climate models based on historical data improve future projections of climate change, even in strong change over 100 years, suggest experiments with three climate models.

Gerhard Krinner
Viatcheslav Kharin
Francis Codron
ResearchOpen Access14 Oct 2020
Communications Earth & Environment

Volume: 1, P: 1-7
Communicating future sea-level rise uncertainty and ambiguity to assessment users

The extent to which sea level will rise under climate change is uncertain, with some of this uncertainty being quantifiable and some unquantifiable. This Review discusses past and present presentations of this uncertainty in IPCC and regional assessments, as well as their influence on users' interpretations.

Robert E. Kopp
Michael Oppenheimer
Cunde Xiao
Reviews19 Jun 2023
Nature Climate Change

Volume: 13, P: 648-660

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