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93 results on '"Alonso Balmaseda, Magdalena"'

1. Impact of the ocean in-situ observations on the ECMWF seasonal forecasting system.

Author

Alonso Balmaseda, Magdalena, Sarojini, Beena Balan, Mayer, Michael, Tietsche, Steffen, Hao Zuo, Vitart, Frederic, and Stockdale, Timothy N.

Subjects
OCEAN temperature, ATMOSPHERIC circulation, MIXING height (Atmospheric chemistry), LEAD time (Supply chain management), OCEAN
Abstract

This study aims to evaluate the impact of the in-situ ocean observations on seasonal forecasts. A series of seasonal reforecasts have been conducted for the period 1993-2015, in which different sets of ocean observations were withdrawn in the production of the ocean initial conditions, while maintaining a strong constrain in sea surface temperature (SST). By comparing the different reforecast sets, it is possible to assess the impact on the forecast of ocean and atmospheric variables. Results show that the in-situ observations have profound and significant impacts on the mean state of forecast ocean and atmospheric variables, which can be classified into different categories: i) impact due to local air-sea interaction, as direct consequence of changes in the mixed layer in the ocean initial conditions, and visible in the early stages of the forecasts; ii) changes due to different ocean dynamical balances, most visible in the Equatorial Pacific in forecasts initialized in May, which amplify and evolve with forecast lead time; iii) changes to the atmospheric circulation resulting from changes in large scale SST gradients; these are non-local, mediated by the atmospheric bridge, and they are obvious from the visible impact of the removing in-situ observations on the Atlantic basin only in the global atmospheric circulation; iv) changes in the atmospheric tropical deep convection associated with the structure of the warm pools. The ocean observations have also a significant impact on the representation of the trends of the ocean initial conditions, which affect the trends in the seasonal forecasts of ocean and atmospheric variables. The impact of the ocean observing system in the Atlantic and extratropics appears dominated by Argo, but this is not the case in the Tropical Pacific, where the other ocean observing systems play a role in constraining the ocean state. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Earth System Reanalysis in Support of Climate Model Improvements.

Author

Stammer, Detlef, Amrhein, Daniel E., Alonso Balmaseda, Magdalena, Bertino, Laurent, Bonavita, Massimo, Buontempo, Carlo, Caltabiano, Nico, Counillon, Francois, Fenty, Ian, Ferrari, Raffaele, Fujii, Yosuke, Gaikwad, Shreyas Sunil, Gentine, Pierre, Gettelman, Andrew, Gopalakrishnan, Ganesh, Heimbach, Patrick, Hersbach, Hans, Hill, Chris, Kobayashi, Shinya, and Köhl, Armin

Subjects
GLOBAL Ocean Observing System, ATMOSPHERIC boundary layer, MACHINE learning, AUTOMATIC differentiation, BRIGHTNESS temperature, GRAPHICAL projection, NUMERICAL weather forecasting, RADAR meteorology
Abstract

A workshop at MIT discussed the importance of data assimilation and Earth system reanalysis in improving climate models. The workshop emphasized the need to bring models and observations into consistency to reduce uncertainties in climate projections. Recommendations were made for actions and funding in areas such as exploiting Earth observations, developing infrastructure for data assimilation and machine learning, and performing Earth system reanalysis. The document highlights the significance of using observations to improve models and calls for collaboration between different scientific communities to achieve these goals. The recommendations aim to enhance the quality and usability of climate information. [Extracted from the article]

Published
2024
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3. Impact of ocean in-situ observations on ECMWF sub-seasonal forecasts.

Author

Balan-Sarojini, Beena, Alonso Balmaseda, Magdalena, Vitart, Frédéric, Roberts, Christopher David, Hao Zuo, Tietsche, Steffen, and Mayer, Michael

Subjects
OCEAN, WEATHER, LEAD time (Supply chain management)
Abstract

We assess for the first time the impact of in-situ ocean observations on European Centre for Medium-Range Weather Forecasts (ECMWF) sub-seasonal forecasts of both ocean and atmospheric conditions. A series of coupled reforecasts have been conducted for the period 1993-2015, in which different sets of ocean observations were withdrawn in the production of the ocean initial conditions. Removal of all ocean in-situ observations in the initial conditions leads to significant degradation in the forecasts of ocean surface and subsurface mean state at lead times from week 1 to week 4. The negative impact is predominantly caused by the removal of the Argo observing system in recent decades. Changes in the mean state of atmospheric variables are comparatively small but significant in the forecasts of lower and upper atmospheric circulation over large regions. Our results highlight the value of continuous, real-time in-situ observations of the surface and subsurface ocean for coupled forecasts in the sub-seasonal range. [ABSTRACT FROM AUTHOR]

Published
2024
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5. The tropical influence on sub‐seasonal predictability of wintertime stratosphere and stratosphere–troposphere coupling.

Author

Karpechko, Alexey Yu., Vitart, Frederic, Statnaia, Irina, Alonso Balmaseda, Magdalena, Charlton‐Perez, Andrew James, and Polichtchouk, Inna

Subjects
STRATOSPHERE, STRATOSPHERIC circulation, TROPOSPHERIC circulation, WINTER, MADDEN-Julian oscillation
Abstract

A unique set of relaxation experiments with a forecast model initialized during December–January 1999–2019 is used to explore tropical influence on the Northern Hemisphere polar stratosphere and stratosphere–troposphere coupling, to quantify predictability benefits due to the perfect knowledge of the tropical variability. On average, predictability of the polar stratosphere, as represented by the 50 hPa geopotential height anomalies north of 50°N (Z50), increases from 17 days in freely running (control) forecasts to 21 days in the tropical relaxation experiments. At sub‐seasonal time‐scales, a statistically significant improvement in weekly mean skill scores can be demonstrated in 14%–20% of individual forecast ensembles, mostly in cases when the skill of the corresponding control forecast is worse than average. In these forecasts, root‐mean‐square errors and forecast spread of Z50 during forecast weeks 3–5 are decreased by 10%–15%. Stratospheric improvements are detected during periods of both vortex strengthening and vortex weakening, including most major Sudden Stratospheric Warmings that occurred during the study period, via modulation of the upward wave activity fluxes. An active Madden–Julian Oscillation (MJO) is found in most of these events with MJO phase 5–7 preceding vortex weakening and MJO phase 3–4 preceding vortex strengthening. Forecasts with improved stratospheric circulation also have improved tropospheric circulation during and after the periods when improvements are detected in the stratosphere. We attribute these improvements to both stratosphere–troposphere coupling and tropospheric tropical teleconnections. [ABSTRACT FROM AUTHOR]

Published
2024
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6. ADVANCING GLOBAL AND REGIONAL REANALYSES

Author

Buizza, Roberto, Poli, Paul, Rixen, Michel, Alonso-Balmaseda, Magdalena, Bosilovich, Michael G., Brönnimann, Stefan, Compo, Gilbert P., Dee, Dick P., Desiato, Franco, Doutriaux-Boucher, Marie, Fujiwara, Masatomo, Kaiser-Weiss, Andrea K., Kobayashi, Shinya, Liu, Zhiquan, Masina, Simona, Mathieu, Pierre-Philippe, Rayner, Nick, Richter, Carolin, Seneviratne, Sonia I., Simmons, Adrian J., Thépaut, Jean-Noel, Auger, Jeffrey D., Bechtold, Michel, Berntell, Ellen, Dong, Bo, Kozubek, Michal, Sharif, Khaled, Thomas, Christopher, Schimanke, Semjon, Storto, Andrea, Tuma, Matthias, Välisuo, Ilona, and Vaselali, Alireza

Published
2018

7. THE EU-FP7 ERA-CLIM2 PROJECT CONTRIBUTION TO ADVANCING SCIENCE AND PRODUCTION OF EARTH SYSTEM CLIMATE REANALYSES

Author

Buizza, Roberto, Brönnimann, Stefan, Haimberger, Leopold, Laloyaux, Patrick, Martin, Matthew J., Fuentes, Manuel, Alonso-Balmaseda, Magdalena, Becker, Andreas, Blaschek, Michael, Dahlgren, Per, de Boisseson, Eric, Dee, Dick, Doutriaux-Boucher, Marie, Feng, Xiangbo, John, Viju O., Haines, Keith, Jourdain, Sylvie, Kosaka, Yuki, Lea, Daniel, Lemarié, Florian, Mayer, Michael, Messina, Palmira, Perruche, Coralie, Peylin, Philippe, Pullainen, Jounie, Rayner, Nick, Rustemeier, Elke, Schepers, Dinand, Saunders, Roger, Schulz, Jörg, Sterin, Alexander, Stichelberger, Sebastian, Storto, Andrea, Testut, Charles-Emmanuel, Valente, Maria-Antóonia, Vidard, Arthur, Vuichard, Nicolas, Weaver, Anthony, While, James, and Ziese, Markus

Published
2018

9. Coupled data assimilation at ECMWF: current status, challenges and future developments

Author

de Rosnay, Patricia, primary, Browne, Philip, additional, de Boisséson, Eric, additional, Fairbairn, David, additional, Hirahara, Yoichi, additional, Ochi, Kenta, additional, Schepers, Dinand, additional, Weston, Peter, additional, Zuo, Hao, additional, Alonso‐Balmaseda, Magdalena, additional, Balsamo, Gianpaolo, additional, Bonavita, Massimo, additional, Borman, Niels, additional, Brown, Andy, additional, Chrust, Marcin, additional, Dahoui, Mohamed, additional, Chiara, Giovanna, additional, English, Stephen, additional, Geer, Alan, additional, Healy, Sean, additional, Hersbach, Hans, additional, Laloyaux, Patrick, additional, Magnusson, Linus, additional, Massart, Sébastien, additional, McNally, Anthony, additional, Pappenberger, Florian, additional, and Rabier, Florence, additional

Published
2022
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16. Tropical cyclone activities at ECMWF

Author

Magnusson, Linus, Majumdar, Sharan, Emerton, Rebecca, Richardson, David, Alonso-Balmaseda, Magdalena, Baugh, C., Bechtold, Peter, Bidlot, Jean-Raymond, Bonanni, Antonino, Bonavita, Massimo, Bormann, Niels, Brown, Andy, Browne, Philip, Carr, Hilda, Dahoui, Mohamed, De Chiara, Giovanna, Diamantakis, Michail, Duncan, David, English, Stephen, Forbes, Richard, Geer, Alan, Haiden, Thomas, Healy, Sean, Hewson, Tim, Ingleby, B., Janousek, Martin, Kuehnlein, Christian, Lang, Simon, Lock, Sarah-Jane, McNally, Tony, Mogensen, Kristian, Pappenberger, Florian, Polichtchouk, Inna, Prates, Fernando, Prudhomme, C., Rabier, Florence, de Rosnay, Patricia, Quintino, Tiago, and Rennie, Michael

Published
2021
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22. Extended-range prediction

Author

Vitart, Frédéric, Alonso-Balmaseda, Magdalena, Ferranti, Laura, Benedetti, Angela, Balan-Sarojini, Beena, Tietsche, Steffen, Yao, Junchen, Janousek, Martin, Balsamo, Gianpaolo, Leutbecher, Martin, Bechtold, Peter, Polichtchouk, Inna, Richardson, David, Stockdale, Tim, and Roberts, Christopher

Published
2019
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23. Advancing global & regional reanalyses

Author

Buizza, Roberto, Poli, Paul, Rixen, Michel, Alonso-Balmaseda, Magdalena, Bosilovich, Michael G., Brönnimann, Stefan, Compo, Gilbert P., Dee, Dick P., Desiato, Franco, Doutriaux-Boucher, Marie, Fujiwara, Masamoto, Kaiser-Weiss, Andrea K., Kobayashi, Shinya, Liu, Zhiquan, Masina, Simona, Mathieu, Pierre-Philippe, Rayner, Nick, Richter, Carolin, Seneviratne, Sonia I., Simmons, Adrian J., Thépaut, Jean-Noel, Auger, Jeffrey D., Bechtold, Michel, Berntell, Ellen, Dong, Bo, Kozubek, Michal, Sharif, Khaled, Thomas, Christopher, Schimanke, Semjon, Storto, Andrea, Tuma, Matthias, Välisuo, Ilona, and Vaselali, Alireza

Abstract

This report outlines the structure of and summarizes the recommendations made at the 5th International Conference on Reanalysis (ICR5), attended by 259 participants from 37 countries, in Rome (Italy), on 13-17 November 2017. It first summarizes the conference structure. Then, the key recommendations of ICR5 are given for the five main conference topics: production; observations (data rescue and preparation); data assimilation methods; quality assurance of reanalysis; and applications in science, services, and policymaking. Lastly, five high-level recommendations are proposed to managing agencies on how best to advance the field of reanalyses, which serves tens of thousands of users, via enhanced research, development, and operations.

Published
2018

24. SEAS5 and the future evolution of the long-range forecast system

Author

Stockdale, Tim, Alonso-Balmaseda, Magdalena, Johnson, Stephanie, Ferranti, Laura, Molteni, Franco, Magnusson, L., Tietsche, Steffen, Vitart, Frédéric, Decremer, Damien, Weisheimer, Antje, Roberts, Christopher, Balsamo, Gianpaolo, Keeley, Sarah, Mogensen, Kristian, Zuo, Hao, Mayer, Michael, and Monge-Sanz, B.M.

Published
2018
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25. Operational global reanalysis: progress, future directions and synergies with NWP

Author

Hersbach, Hans, de Rosnay, Patricia, Bell, Bill, Schepers, Dinand, Simmons, Adrian, Soci, Cornel, Abdalla, Saleh, Alonso-Balmaseda, Magdalena, Balsamo, Gianpaolo, Bechtold, Peter, Berrisford, P., Bidlot, Jean-Raymond, de Boisséson, E., Bonavita, Massimo, Browne, P., Buizza, Roberto, Dahlgren, Per, Dee, Dick, Dragani, Rossana, Diamantakis, Michail, Flemming, Johannes, Forbes, Richard, Geer, Alan, Haiden, Thomas, Hólm, Elias, Haimberger, L., Hogan, Robin, Horányi, Andras, Janiskova, M., Laloyaux, Patrick, Lopez, Philippe, Munoz-Sabater, J., Peubey, C., Radu, Raluca, Richardson, David, Thépaut, Jean-Noël, Vitart, Frédéric, Yang, X, Zsótér, Ervin, and Zuo, Hao

Published
2018
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37. Air-sea interaction and surface waves

Author

Janssen, Peter, Breivik, Ø., Mogensen, Kristian, Vitart, Frédéric, Alonso-Balmaseda, Magdalena, Bidlot, Jean-Raymond, Keeley, Sarah, Leutbecher, Martin, Magnusson, L., and Molteni, Franco

Published
2013
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38. SEAS5: The new ECMWF seasonal forecast system.

Author

Johnson, Stephanie J., Stockdale, Timothy N., Ferranti, Laura, Alonso Balmaseda, Magdalena, Molteni, Franco, Magnusson, Linus, Tietsche, Steffen, Decremer, Damien, Weisheimer, Antje, Balsamo, Gianpaolo, Keeley, Sarah, Mogensen, Kristian, Hao Zuo, and Monge-Sanz, Beatriz

Subjects
WEATHER forecasting, SEA ice
Abstract

In this paper we describe SEAS5, ECMWF's fifth generation seasonal forecast system, which became operational in November 2017. Compared to its predecessor, System 4, SEAS5 is a substantially changed forecast system. It includes upgraded versions of the atmosphere and ocean models at higher resolutions, and adds a prognostic sea ice model. Here, we describe the configuration of SEAS5 and summarise the most noticeable results from a set of diagnostics including biases, variability, teleconnections and forecast skill. An important improvement in SEAS5 is the reduction of the Equatorial Pacific cold tongue bias, which is accompanied by a more realistic ENSO amplitude and an improvement in ENSO prediction skill over the central-west Pacific. Improvements in two-metre temperature skill are also clear over the tropical Pacific. SST biases in the northern extratropics change due to increased ocean resolution, especially in regions associated with western boundary currents. The increased ocean resolution exposes a new problem in the northwest Atlantic, where SEAS5 fails to capture decadal variability of the North Atlantic subpolar gyre, resulting in a degradation of DJF two-metre temperature prediction skill in this region. The prognostic sea ice model improves seasonal predictions of sea ice cover, although some regions and seasons suffer from biases introduced by employing a fully dynamical model rather than the simple, empirical scheme used in System 4. There are also improvements in two-metre temperature skill in the vicinity of the Arctic sea-ice edge. Cold temperature biases in the troposphere improve, but increase at the tropopause. Biases in the extratropical jets are larger than in System 4: extratropical jets are too strong, and displaced northwards in summer. In summary, development and added complexity since System 4 has ensured SEAS5 is a state-of-the-art seasonal forecast system which continues to display a particular strength in ENSO prediction. [ABSTRACT FROM AUTHOR]

Published
2018
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41. Developments in diagnostics research

Author

Rodwell, Mark, Jung, T., Bechtold, Peter, Berrisford, P., Bormann, Niels, Cardinali, Carla, Ferranti, Laura, Hewson, Tim, Molteni, Franco, Wedi, Nils, Alonso-Balmaseda, Magdalena, Balsamo, Gianpaolo, Bonavita, Massimo, Buizza, Roberto, Dahoui, Mohamed, Garcia-Mendez, Anotonio, Leutbecher, Martin, Lopez, Philippe, Trémolet, Y., and Vitart, Frédéric

Published
2010
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50. Seasonal Forecast System 3

Author

Anderson, David, Stockdale, Tim, Alonso-Balmaseda, Magdalena, Ferranti, Laura, Vitart, Frédéric, Molteni, Franco, Dolbas-Reyes, Francisco, Mogensen, Kristian, and Vidard, Arthur

Published
2007
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