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Polar Rain Gradients and Field-Aligned Polar Cap Potentials (2008)

Wing, S. ; Gosling, J. T. ; Ruohoniemi, J. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: ACE SWEPAM measurements of solar wind field-aligned electrons have been compared with simultaneous measurements of polar rain electrons precipitating over the polar cap and detected by DMSP spacecraft. Such comparisons allow investigation of cross-polarcap gradients in the intensity of otherwise-steady polar rain. The generally good agreement of the distribution functions, f, from the two data sources confirms that direct entry of solar electrons along open field lines is indeed the cause of polar rain. The agreement between the data sets is typically best on the side of the polar cap with most intense polar rain but the DMSP f's in less intense regions can be brought into agreement with ACE measurements by shifting all energies by a fixed amounts that range from tens to several hundred eV. In most cases these shifts are positive which implies that field-aligned potentials of these amounts exist on polar cap field lines which tend to retard the entry of electrons and produce the observed gradients. These retarding potentials undoubtedly appear in order to prevent the entry of low-energy electrons and maintain charge quasi-neutrality that would otherwise be violated since most tailward flowing magnetosheath ions are unable to follow polar rain electrons down to the polar cap. In more limited regions near the boundary of the polar cap there is sometimes evidence for field-aligned potentials of the opposite sign that accelerate polar rain electrons. A solar electron burst is also studied and it is concluded that electrons from such bursts can enter the magnetotail and precipitate in the same manner as polar rain.

Keywords: Meteorology and Climatology

Type: 2008 Fall AGU Meeting; Dec 14, 2008 - Dec 19, 2008; San Francisco, CA; United States

Format: text

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Human Influence on Tropical Cyclone Intensity (2016)

Tippett, Michael K. ; Hall, Timothy M. ; Wing, Allison A. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Recent assessments agree that tropical cyclone intensity should increase as the climate warms. Less agreement exists on the detection of recent historical trends in tropical cyclone intensity.We interpret future and recent historical trends by using the theory of potential intensity, which predicts the maximum intensity achievable by a tropical cyclone in a given local environment. Although greenhouse gas-driven warming increases potential intensity, climate model simulations suggest that aerosol cooling has largely canceled that effect over the historical record. Large natural variability complicates analysis of trends, as do poleward shifts in the latitude of maximum intensity. In the absence of strong reductions in greenhouse gas emissions, future greenhouse gas forcing of potential intensity will increasingly dominate over aerosol forcing, leading to substantially larger increases in tropical cyclone intensities.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN33975 , Science (ISSN 0036-8075) (e-ISSN 1095-9203); 353; 6296; 242-246

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Arctic Sea Ice Simulation in the PlioMIP Ensemble (2016)

Contoux, Camille ; Stepanek, Christian ; Chandler, Mark A. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Eight general circulation models have simulated the mid-Pliocene warm period (mid-Pliocene, 3.264 to 3.025 Ma) as part of the Pliocene Modelling Intercomparison Project (PlioMIP). Here, we analyse and compare their simulation of Arctic sea ice for both the pre-industrial period and the mid-Pliocene. Mid-Pliocene sea ice thickness and extent is reduced, and the model spread of extent is more than twice the pre-industrial spread in some summer months. Half of the PlioMIP models simulate ice-free conditions in the mid-Pliocene. This spread amongst the ensemble is in line with the uncertainties amongst proxy reconstructions for mid-Pliocene sea ice extent. Correlations between mid-Pliocene Arctic temperatures and sea ice extents are almost twice as strong as the equivalent correlations for the pre-industrial simulations. The need for more comprehensive sea ice proxy data is highlighted, in order to better compare model performances.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN31106 , Climate of the Past (e-ISSN 1814-9332); 12; 3; 749-767

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Assessing Confidence in Pliocene Sea Surface Temperatures to Evaluate Predictive Models (2012)

Hill, Daniel J. ; Bragg, Fran J. ; Stoll, Danielle K. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: In light of mounting empirical evidence that planetary warming is well underway, the climate research community looks to palaeoclimate research for a ground-truthing measure with which to test the accuracy of future climate simulations. Model experiments that attempt to simulate climates of the past serve to identify both similarities and differences between two climate states and, when compared with simulations run by other models and with geological data, to identify model-specific biases. Uncertainties associated with both the data and the models must be considered in such an exercise. The most recent period of sustained global warmth similar to what is projected for the near future occurred about 3.33.0 million years ago, during the Pliocene epoch. Here, we present Pliocene sea surface temperature data, newly characterized in terms of level of confidence, along with initial experimental results from four climate models. We conclude that, in terms of sea surface temperature, models are in good agreement with estimates of Pliocene sea surface temperature in most regions except the North Atlantic. Our analysis indicates that the discrepancy between the Pliocene proxy data and model simulations in the mid-latitudes of the North Atlantic, where models underestimate warming shown by our highest-confidence data, may provide a new perspective and insight into the predictive abilities of these models in simulating a past warm interval in Earth history.This is important because the Pliocene has a number of parallels to present predictions of late twenty-first century climate.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN9024 , Nature Climate Change (ISSN 1758-678X); 2; 5; 365-371

Format: application/pdf

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Challenges in Quantifying Pliocene Terrestrial Warming Revealed by Data-Model Discord (2013)

Hill, Daniel J. ; Ulrich, Salzmann ; Haywood, Alan M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN24593-2 , Nature Climate Change; 3

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Challenges in Quantifying Pliocene Terrestrial Warming Revealed by Data-Model Discord (2013)

Salzmann, Ulrich ; Otto-Bliesner, Bette ; Chan, Wing-Le ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Comparing simulations of key warm periods in Earth history with contemporaneous geological proxy data is a useful approach for evaluating the ability of climate models to simulate warm, high-CO2 climates that are unprecedented in the more recent past. Here we use a global data set of confidence-assessed, proxy-based temperature estimates and biome reconstructions to assess the ability of eight models to simulate warm terrestrial climates of the Pliocene epoch. The Late Pliocene, 3.6-2.6 million years ago, is an accessible geological interval to understand climate processes of a warmer world4. We show that model-predicted surface air temperatures reveal a substantial cold bias in the Northern Hemisphere. Particularly strong data-model mismatches in mean annual temperatures (up to 18 C) exist in northern Russia. Our model sensitivity tests identify insufficient temporal constraints hampering the accurate configuration of model boundary conditions as an important factor impacting on data- model discrepancies. We conclude that to allow a more robust evaluation of the ability of present climate models to predict warm climates, future Pliocene data-model comparison studies should focus on orbitally defined time slices.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN24593-1 , Nature Climate Change; 3; 969-974

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