Ricarda Winkelmann
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German climatologist
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Ricarda Winkelmannbusiness Degrees
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#1149
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#1283
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Management
#530
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#587
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Ricarda Winkelmannearth-sciences Degrees
Earth Sciences
#2277
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#3083
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Atmospheric Sciences
#227
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#236
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Ricarda Winkelmann's Degrees
- PhD Climate Science University of Potsdam
- Masters Environmental Science University of Potsdam
Why Is Ricarda Winkelmann Influential?
(Suggest an Edit or Addition)According to Wikipedia, Ricarda Winkelmann is a German mathematician, physicist, and climatologist. She is a professor of Climate System Analysis at Potsdam University and the Potsdam-Institute for Climate Impact Research. She studies interdependencies between climate, land ice, and the ocean.
Ricarda Winkelmann's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Trajectories of the Earth System in the Anthropocene (2018) (1646)
- Consequences of twenty-first-century policy for multi-millennial climate and sea-level change (2016) (401)
- Why the right climate target was agreed in Paris (2016) (305)
- The Potsdam Parallel Ice Sheet Model (PISM-PIK) – Part 1: Model description (2010) (300)
- Interacting tipping elements increase risk of climate domino effects under global warming (2020) (228)
- Future sea level rise constrained by observations and long-term commitment (2016) (173)
- The Potsdam Parallel Ice Sheet Model (PISM-PIK) – Part 2: Dynamic equilibrium simulation of the Antarctic ice sheet (2010) (160)
- ISMIP6 Antarctica: a multi-model ensemble of the Antarctic ice sheet evolution over the 21st century (2020) (160)
- The far reach of ice-shelf thinning in Antarctica (2017) (155)
- Kinematic first-order calving law implies potential for abrupt ice-shelf retreat (2011) (152)
- Consistent evidence of increasing Antarctic accumulation with warming (2015) (150)
- Projected land ice contributions to twenty-first-century sea level rise (2021) (122)
- Projecting Antarctic ice discharge using response functions from SeaRISE ice-sheet models (2012) (116)
- Combustion of available fossil fuel resources sufficient to eliminate the Antarctic Ice Sheet (2015) (112)
- A Review of Recent Updates of Sea-Level Projections at Global and Regional Scales (2016) (109)
- Critical insolation–CO2 relation for diagnosing past and future glacial inception (2016) (108)
- The hysteresis of the Antarctic Ice Sheet (2020) (94)
- Exceeding 1.5°C global warming could trigger multiple climate tipping points (2022) (93)
- Increased future ice discharge from Antarctica owing to higher snowfall (2012) (82)
- Antarctic sub-shelf melt rates via PICO (2017) (78)
- initMIP-Antarctica: an ice sheet model initialization experiment of ISMIP6 (2017) (74)
- Projecting Antarctica's contribution to future sea level rise from basal ice shelf melt using linear response functions of 16 ice sheet models (LARMIP-2) (2019) (74)
- Critical insolation-CO2 relation for diagnosing past and future glacial inception (2016) (73)
- Antarctic ice sheet response to sudden and sustained ice-shelf collapse (ABUMIP) (2020) (62)
- Parameterization for subgrid-scale motion of ice-shelf calving fronts (2010) (61)
- Higher resilience to climatic disturbances in tropical vegetation exposed to more variable rainfall (2019) (52)
- Identifying a Safe and Just Corridor for People and the Planet (2021) (51)
- Closing the loop: Reconnecting human dynamics to Earth System science (2017) (45)
- Global warming due to loss of large ice masses and Arctic summer sea ice (2020) (44)
- A simple equation for the melt elevation feedback of ice sheets (2016) (37)
- Glacial-cycle simulations of the Antarctic Ice Sheet with the Parallel Ice Sheet Model (PISM) – Part 1: Boundary conditions and climatic forcing (2020) (35)
- Glacial-cycle simulations of the Antarctic Ice Sheet with the Parallel Ice Sheet Model (PISM) – Part 2: Parameter ensemble analysis (2020) (33)
- Emergence of cascading dynamics in interacting tipping elements of ecology and climate (2019) (30)
- The tipping points and early warning indicators for Pine Island Glacier, West Antarctica (2020) (29)
- Grounding-line flux formula applied as a flux condition in numerical simulations fails for buttressed Antarctic ice streams (2018) (25)
- Linear response functions to project contributions to future sea level (2013) (25)
- Dynamics of tipping cascades on complex networks. (2019) (24)
- Modeling Antarctic tides in response to ice shelf thinning and retreat (2014) (22)
- Social Tipping Processes for Sustainability: An Analytical Framework (2020) (22)
- Future Sea Level Change Under Coupled Model Intercomparison Project Phase 5 and Phase 6 Scenarios From the Greenland and Antarctic Ice Sheets (2021) (21)
- Uncertainty in future solid ice discharge from Antarctica (2012) (20)
- How motifs condition critical thresholds for tipping cascades in complex networks: Linking micro- to macro-scales. (2019) (17)
- Ten new insights in climate science 2021: a horizon scan (2021) (15)
- An early-warning indicator for Amazon droughts exclusively based on tropical Atlantic sea surface temperatures (2020) (14)
- The role of history and strength of the oceanic forcing in sea level projections from Antarctica with the Parallel Ice Sheet Model (2020) (14)
- Comparing ice discharge through West Antarctic Gateways: Weddell vs. Amundsen Sea warming (2015) (11)
- Social tipping processes towards climate action: A conceptual framework (2022) (11)
- Basin stability and limit cycles in a conceptual model for climate tipping cascades (2020) (10)
- Sensitivity of ice loss to uncertainty in flow law parameters in an idealized one-dimensional geometry (2020) (10)
- Coupling framework (1.0) for the PISM (1.1.4) ice sheet model and the MOM5 (5.1.0) ocean model via the PICO ice shelf cavity model in an Antarctic domain (2021) (8)
- Glacial cycles simulation of the Antarctic Ice Sheet with PISM – Part 1: Boundary conditions and climatic forcing (2019) (8)
- Modelling nonlinear dynamics of interacting tipping elements on complex networks: the PyCascades package (2020) (8)
- Impact of an AMOC weakening on the stability of the southern Amazon rainforest (2021) (8)
- What do we mean, ‘tipping cascade’? (2021) (7)
- Future sea level change under CMIP5 and CMIP6 scenarios from the Greenland and Antarctic ice sheets (2020) (7)
- Recurrent droughts increase risk of cascading tipping events by outpacing adaptive capacities in the Amazon rainforest (2022) (7)
- Dynamic emergence of domino effects in systems of interacting tipping elements in ecology and climate (2019) (6)
- Network dynamics of drought-induced tipping cascades in the Amazon rainforest (2020) (5)
- Sea-Level Rise: From Global Perspectives to Local Services (2022) (5)
- Supplementary material to "Interacting tipping elements increase risk of climate domino effects under global warming" (2020) (4)
- Shear-margin melting causes stronger transient ice discharge than ice-stream melting in idealized simulations (2022) (4)
- The stability of present-day Antarctic grounding lines — Part A: No indication of marine ice sheet instability in the current geometry (2022) (3)
- Achieving a nature- and people-positive future (2022) (3)
- Sensitivity of ice flow to uncertainty in flow law parameters in an idealized one-dimensional geometry (2020) (3)
- Impact of the melt-albedo feedback on the future evolution of the Greenland Ice Sheet with PISM-dEBM-simple (2021) (3)
- Coupling framework (1.0) for the ice sheet model PISM (1.1.1) and the ocean model MOM5 (5.1.0) via the ice-shelf cavity module PICO (2020) (3)
- Dynamic regimes of the Greenland Ice Sheet emerging from interacting melt-elevation and glacial isostatic adjustment feedbacks (2021) (3)
- Impact of the melt–albedo feedback on the future evolution of the Greenland Ice Sheet with PISM-dEBM-simple (2021) (2)
- The stability of present-day Antarctic grounding lines — Part B: Possible commitment of regional collapse under current climate (2022) (2)
- Glacial cycles simulation of the Antarctic Ice Sheet with PISM – Part 2: Parameter ensemble analysis (2019) (2)
- Domino Effects in the Earth System -- The potential role of wanted tipping points (2019) (2)
- Parameter sensitivity of dynamic ice loss from Antarctica: SeaRISE experiments with the Parallel Ice Sheet Model (2012) (1)
- Is Greenland's flow law flawed? (2018) (1)
- Implications of flow law uncertainty for flow-driven ice-loss in Greenland under idealized warming pathways (2020) (1)
- Effects of extreme melt events on ice flow and sea level rise of the Greenland Ice Sheet (2022) (1)
- Subgrid-scale parameterization for ice-shelf front motion (2010) (1)
- Shear-margin melting causes stronger transient ice discharge than ice-stream melting according to idealized simulations (2021) (1)
- Updated assessment suggests >1.5°C global warming could trigger multiple climate tipping points (2021) (1)
- Interactions of climate tipping elements and their associated basin stability in a conceptual model for tipping cascades (0)
- Fast and Slow: Centennial to Millennial Timescale Processes in the Climate System Posters (2019) (0)
- Interactive comment on “ Comparing ice discharge through West Antarctic Gateways : Weddell vs . Amundsen Sea warming ” by M . A . Martin et al (2015) (0)
- The tipping points of Pine Island Glacier, West Antarctica (2020) (0)
- The Contribution of Antarctica to Future Sea-Level Rise inferred from PISM-PIK (2010) (0)
- Antarctic ice dynamics - from deep past to deep future (2020) (0)
- Dynamic equilibrium simulation of Antarctica with the Potsdam Parallel Ice Sheet Model (PISM-PIK) (2010) (0)
- Climate feedbacks caused by cryosphere tipping elements (2018) (0)
- Coupled solid Earth – Antarctic ice sheet simulations with VILMA and PISM (2021) (0)
- Historic simulations of the Antarctic Ice Sheet with the Parallel Ice Sheet Model (2021) (0)
- Competing processes for Antarctica's ice discharge: Reduced buttressing versus elevation change (2015) (0)
- Supplementary material to "The role of history and strength of the oceanic forcing in sea-level projections from Antarctica with the Parallel Ice Sheet Model" (2020) (0)
- A Time-Dependent Sea-Level Response Function to Global Warming (2013) (0)
- Data and code for publication "The role of history and strength of the oceanic forcing in sea level projections from Antarctica with the Parallel Ice Sheet Model" (2020) (0)
- Supplementary material to "Sensitivity of ice flow to uncertainty in flow law parameters in an idealized one-dimensional geometry" (2020) (0)
- PISM paleo simulations of the Antarctic Ice Sheet over the last two glacial cycles (2020) (0)
- Response to Reviewer Comments ESD (2022) (0)
- Impact of ice load-bedrock uplift feedback on the long-term evolution of the Greenland ice sheet (2019) (0)
- Global warming overshoots increase risks of climate tipping cascades in a network model (2022) (0)
- Social tipping as a response to anticipated sea level rise (2020) (0)
- Projecting the long-term sea-level contribution from Antarctica (CR Division Outstanding ECS Award Lecture) (2017) (0)
- Interactive comment on “A simple equation for the surface-elevation feedback of ice sheets” by A. Levermann (2016) (0)
- Exploring risks and benefits of overshooting a 1.5 °C carbon budget over space and time (2023) (0)
- Snowfall versus sub-shelf melt: response of an idealized 3D ice-sheet-shelf system to mass redistribution (2018) (0)
- Mapping our reliance on the tropics can reveal the roots of the Anthropocene. (2023) (0)
- Global warming overshoots increase risk of triggering climate tipping points and cascades (2022) (0)
- Cascading tipping behavior of the interacting Greenland Ice Sheet and Atlantic Meridional Overturning Circulation in a model of low complexity (2021) (0)
- Author comment on RC1 and RC2 of gmd-2020-230 (2021) (0)
- Long-term ice loss from Greenland mediated by ice-load bedrock uplift feedback (2021) (0)
- Coupling the Parallel Ice Sheet Model with the Modular Ocean Model via an Antarctic ice-shelf cavity module (2020) (0)
- Can Antarctica tip climate policy (2019) (0)
- Antarctic ice discharge due to warm water intrusion into shelf cavities (2018) (0)
- A simple equation for the surface-elevation feedback of ice sheets (2016) (0)
- Influence of Pacific and Atlantic sea surface temperature variability on rainfall in South America and its forecasting potential (2018) (0)
- Interactive comment on “ Snowfall versus sub-shelf melt : response of an idealized 3 D icesheet-shelf system to mass redistribution (2018) (0)
- First results from coupling the Parallel Ice Sheet Model with the Modular Ocean Model via an Antarctic ice-shelf cavity module (2021) (0)
- The Future Sea-Level Contribution from Antarctica: Projections of Solid Ice Discharge (2012) (0)
- Hysteresis behaviour of the Antarctic Ice Sheet with the Parallel Ice Sheet Model (2018) (0)
- Dynamics of interacting generalized tipping elements on complex networks (2019) (0)
- Updated assessment of climate tipping elements suggests >1.5oC global warming could trigger multiple tipping points (2022) (0)
- Antarctic sub-shelf melt rates via PICO Response to reviewer comments Response to Reviewer Comments Date : 20 September 2017 (2017) (0)
- Potentially Abrupt Ice Discharge through West Antarctic Gateways: Weddell versus Amundsen Sea Warming (2013) (0)
- Stabilizing effect of mélange buttressing on the Marine Ice Cliff Instability of the West Antarctic Ice Sheet (2021) (0)
- Results of the AbuMIP experiments: The Antarctic BUttressing Model Intercomparison Project (2020) (0)
- Risk analysis approach for tipping cascades and domino effects in the Earth system under global warming (2020) (0)
- Contagious Transformations? Inter-City Spreading of Sustainability Innovations. (0)
- How will the Greenland Ice Sheet develop under Extreme Melt Events? (2020) (0)
- The Antarctic Ice Sheet–A Sleeping Giant? (2022) (0)
- Concern and anticipation of future sea-level rise increase potential for social tipping interventions (2021) (0)
- The Cryosphere The Potsdam Parallel Ice Sheet Model ( PISM-PIK ) – Part 2 : Dynamic equilibrium simulation of the Antarctic ice sheet (2010) (0)
- Ice load-bedrock uplift feedback leads to self-sustained oscillations in the Greenland Ice Sheet on long time scales (2020) (0)
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