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Malherbe, J., B. Dieppois, P. Maluleke, M. Van Staden, and D. L. Pillay, 2016: South African droughts and decadal variability. 20CR uses an ensemble filter data assimilation method which directly estimates the most likely state of the global atmosphere for each three-hour period, and also estimates uncertainty in that analysis. Chaste, E., M. P. Girardin, J. O. Kaplan, J. Portier, Y. Bergeron, and C. Hely, 2018: The pyrogeography of eastern boreal Canada from 1901 to 2012 simulated with the LPJ-LMfire model. Res. Penny, S. G., D. W. Behringer, J. Wapler, K., and P. James, 2015: Thunderstorm occurrence and characteristics in Central Europe under different synoptic conditions. Santos, V. M., I. D. Haigh, and T. Wahl, 2017: Spatial and Temporal Clustering Analysis of Extreme Wave Events around the UK Coastline. Guo, B. Lhotka, O., and A. Farda, 2018: Links between Temperature Biases and Flow Anomalies in an Ensemble of CNRM-CM5.1 Global Climate Model Historical Simulations. Munday, C., and R. Washington, 2017: Circulation controls on southern African precipitation in coupled models: The role of the Angola Low. Walsh, J. E., Chapman, W. L. and Fetterer, F. (2015, updated 2016) Gridded monthly sea ice extent and concentration, 1850 onward, version 1. Broennimann, S., and A. Stickler, 2013: Aerological observations in the Tropics in the Early Twentieth Century. Dangendorf, S., M. Marcos, A. Mueller, E. Zorita, R. Riva, K. Berk, and J. Jensen, 2015: Detecting anthropogenic footprints in sea level rise. Lin, J.-S., B. Wu, and T.-J. Serykh, I. V., and D. M. Sonechkin, 2019: Nonchaotic and globally synchronized short-term climatic variations and their origin. Pralungo, L. R., L. Haimberger, A. Stickler, and S. Broennimann, 2014: A global radiosonde and tracked balloon archive on 16 pressure levels (GRASP) back to 1905-Part 1: Merging and interpolation to 00:00 and 12:00GMT. Zhu, J., D. Q. Huang, P. W. Yan, Y. Huang, and X. Y. Kuang, 2017: Can reanalysis datasets describe the persistent temperature and precipitation extremes over China? Class specifies where the flex items will be positioned inside the container. Gan, B., and L. Wu, 2012: Modulation of Atmospheric Response to North Pacific SST Anomalies under Global Warming: A Statistical Assessment. Bao, M., and J. M. Wallace, 2015: Cluster Analysis of Northern Hemisphere Wintertime 500-hPa Flow Regimes during 1920-2014*. Borchi, F., and Y. M. Tourre, 2014: Influences of atmospheric and oceanic low-frequency climate fluctuations on European winter surface air temperatures (1870-2010). Ionita, M., C. Boroneant, and S. Chelcea, 2015: Seasonal modes of dryness and wetness variability over Europe and their connections with large scale atmospheric circulation and global sea surface temperature. Brazdil, R., and Coauthors, 2018: Windstorms and forest disturbances in the Czech Lands: 1801-2015. Kutta, E., and J. B. Booth, 2015: Interhemispheric Aerosol Radiative Forcing and Tropical Precipitation Shifts during the Late Twentieth Century. para 640 x 480. AA Administrative Assistant AAC Air Armament Center AAG Army Auditor General AAP Abbreviated Acquisition Program AAW Anti-Air Warfare AAWO Army Asymmetric Warfare Office ABIDES Automated Budget Interactive Data Environment System ABO Army Budget Office AC Active Component AC/RC Active Component / Reserve … Woillez, M. N., G. Levavasseur, A. L. Daniau, M. Kageyama, D. H. Urrego, M. F. Sanchez-Goni, and V. Hanquiez, 2014: Impact of precession on the climate, vegetation and fire activity in southern Africa during MIS4. Fujiwara, M., P. Martineau, and J. S. Wright, 2020: Surface temperature response to the major volcanic eruptions in multiple reanalysis data sets. Breilh, J.-F., X. Bertin, E. Chaumillon, N. Giloy, and T. Sauzeau, 2014: How frequent is storm-induced flooding in the central part of the Bay of Biscay? Class added to form labels to apply consistent padding and margins, Increases the font size and spacing of a form label, Decreases the font size and spacing of a form label, Set column width for anything greater than 1200px. Zampieri, M., E. Scoccimarro, and S. Gualdi, 2013: Atlantic influence on spring snowfall over the Alps in the past 150 years. Ceglar, A., M. Zampieri, N. Gonzalez-Reviriego, P. Ciais, B. Schauberger, and M. Van der Velde, 2020: Time-varying impact of climate on maize and wheat yields in France since 1900. Changnon, D., 2018: A Spatial and Temporal Analysis of 30-Day Heavy Snowfall Amounts in the Eastern United States, 1900-2016. Added to the parent flexbox container to determing how the elements are aligned horizontally. Ren, Y., D. Parker, G. Ren, and R. Dunn, 2016: Tempo-spatial characteristics of sub-daily temperature trends in mainland China. Wu, X., and J. Mao, 2016: Interdecadal modulation of ENSO-related spring rainfall over South China by the Pacific Decadal Oscillation. Moore, G. W. K., J. L. Semple, and G. Hoyland, 2011: Global Warming, El Nino, and High-Impact Storms at Extreme Altitude: Historical Trends and Consequences for Mountaineers. This class is added to the default input that is going to be replaced. Jiang, J., and T. J. Zhou, 2019: Global Monsoon Responses to Decadal Sea Surface Temperature Variations during the Twentieth Century: Evidence from AGCM Simulations. A. Romanov, 2019: Global Atmospheric Oscillation: An Integrity of ENSO and Extratropical Teleconnections. Freitas, A. C. V., J. S. Frederiksen, J. Whelan, T. J. O'Kane, and T. Ambrizzi, 2015: Observed and simulated inter-decadal changes in the structure of Southern Hemisphere large-scale circulation. Qian, W., K. Wu, and D. Chen, 2015: The Arctic and Polar cells act on the Arctic sea ice variation. Ashcroft, L., and Coauthors, 2018: A rescued dataset of sub-daily meteorological observations for Europe and the southern Mediterranean region, 1877-2012. Sun, C., J. P. Li, R. Q. Ding, and Z. Jin, 2017: Cold season Africa-Asia multidecadal teleconnection pattern and its relation to the Atlantic multidecadal variability. Chen, D., H.-J. Chen, W., R. Lu, and B. Dong, 2014: Intensified anticyclonic anomaly over the western North Pacific during El Nino decaying summer under a weakened Atlantic thermohaline circulation. Rueda, A., L. Cagigal, J. Castruccio, F. S., Y. Ruprich-Robert, S. G. Yeager, G. Danabasoglu, R. Msadek, and T. L. Delworth, 2019: Modulation of Arctic Sea Ice Loss by Atmospheric Teleconnections from Atlantic Multidecadal Variability. Walker, A. P., and Coauthors, 2018: The multi-assumption architecture and testbed (MAAT v1.0): R code for generating ensembles with dynamic model structure and analysis of epistemic uncertainty from multiple sources. Tan, W., Z. X. Wei, Q. Liu, Q. J. Fu, M. Y. Chen, B. T. Li, and J. Li, 2020: Different Influences of Two El Nino Types on Low-Level Atmospheric Circulation over the Subtropical Western North Pacific. Nicholson, S. E., D. Klotter, and A. K. Dezfuli, 2012: Spatial reconstruction of semi-quantitative precipitation fields over Africa during the nineteenth century from documentary evidence and gauge data. Xing, L., and Coauthors, 2015: TEX86 paleothermometer as an indication of bottom water temperature in the Yellow Sea. Creates a custom form element that looks like a toggle switch found on touch devices. Henneman, L. R. F., C. Choirat, C. Ivey, K. Cummiskey, and C. M. Zigler, 2019: Characterizing population exposure to coal emissions sources in the United States using the HyADS model. Takahashi, C., and M. Watanabe, 2016: Pacific trade winds accelerated by aerosol forcing over the past two decades. A. Saenko, and M. Eby, 2014: Wind-driven changes in the ocean carbon sink. Sun, J., S. Wu, and J. Ao, 2016: Role of the North Pacific sea surface temperature in the East Asian winter monsoon decadal variability. Seager, R., and M. Hoerling, 2014: Atmosphere and Ocean Origins of North American Droughts. Vijayakumar, D. B. I. P., F. Raulier, P. Y. Bernier, S. Gauthier, Y. Bergeron, and D. Pothier, 2015: Lengthening the historical records of fire history over large areas of boreal forest in eastern Canada using empirical relationships. Calafat, F. M., D. P. Chambers, and M. N. Tsimplis, 2012: Mechanisms of decadal sea level variability in the eastern North Atlantic and the Mediterranean Sea. Tsujino, H., and Coauthors, 2018: JRA-55 based surface dataset for driving ocean-sea-ice models (JRA55-do). Horton, P., and S. Bronnimann, 2019: Impact of global atmospheric reanalyses on statistical precipitation downscaling. Atmospheric Chemistry and Physics, 11, 11267–11292. Add to all sibling elements you would like to force into equal widths and fill all available horizontal space. Choudhary, A., A. P. Dimri, and H. Paeth, 2019: Added value of CORDEX-SA experiments in simulating summer monsoon precipitation over India. Rennie, J. J., and Coauthors, 2014: The international surface temperature initiative global land surface databank: monthly temperature data release description and methods. B., M. S. Bos, L. C. Bastos, and M. M. Cardoso, 2013: Analysing the 100 year sea level record of Leixoes, Portugal. Century Reanalysis Version 3. Toride, K., D. L. Cawthorne, K. Ishida, M. L. Kavvas, and M. L. Anderson, 2018: Long-term trend analysis on total and extreme precipitation over Shasta Dam watershed. Campanico, H., P. M. M. Soares, P. Hollmuller, and R. M. Cardoso, 2016: Climatic cooling potential and building cooling demand savings: High resolution spatiotemporal analysis of direct ventilation and evaporative cooling for the Iberian Peninsula. Krichak, S. O., J. Barkan, J. S. Breitgand, S. Gualdi, and S. B. Feldstein, 2015: The role of the export of tropical moisture into midlatitudes for extreme precipitation events in the Mediterranean region. Wise, E. K., C. A. Woodhouse, G. J. McCabe, G. T. Pederson, and J. M. St-Jacques, 2018: Hydroclimatology of the Missouri River Basin. Yang, H., K. R. Johnson, M. L. Griffiths, and K. Yoshimura, 2016: Interannual controls on oxygen isotope variability in Asian monsoon precipitation and implications for paleoclimate reconstructions. Toreti, A., and Coauthors, 2019: Using reanalysis in crop monitoring and forecasting systems. Yu, J.-Y., P.-K. Kao, H. Paek, H.-H. Hsu, C.-W. Hung, M.-M. Lu, and S.-I. L?bbecke, J. F., D. Rudloff, and L. Stramma, 2019: Stand-Alone Eastern Pacific Coastal Warming Events. Wang, C., 2015: Anthropogenic aerosols and the distribution of past large-scale precipitation change. van den Besselaar, E. J. M., M. R. Haylock, G. van der Schrier, and A. M. G. K. Tank, 2011: A European daily high-resolution observational gridded data set of sea level pressure. Sea ice concentrations. Sachindra, D. A., F. Huang, A. Barton, and B. J. C. Perera, 2014: Statistical downscaling of general circulation model outputs to catchment scale hydroclimatic variables: issues, challenges and possible solutions. Buckley, B. M., C. C. Ummenhofer, R. D. D'Arrigo, K. G. Hansen, L. H. Truong, C. N. Le, and D. K. Stahle, 2019: Interdecadal Pacific Oscillation reconstructed from trans-Pacific tree rings: 1350-2004 CE. Lovejoy, S., and D. Schertzer, 2011: Space-time cascades and the scaling of ECMWF reanalyses: Fluxes and fields. Lovejoy, S., 2015: A voyage through scales, a missing quadrillion and why the climate is not what you expect. Grossiord, C., and Coauthors, 2019: Precipitation mediates sap flux sensitivity to evaporative demand in the neotropics. Hinrichs, I., and Coauthors, 2019: The Baltic and North Seas Climatology (BNSC) - A Comprehensive, Observation-Based Data Product of Atmospheric and Hydrographic Parameters. Gelaro, R., and Coauthors, 2017: The Modern-Era Retrospective Analysis for Research and Applications, Version 2 (MERRA-2). Paltsev, S., E. Monier, J. Scott, A. Sokolov, and J. Reilly, 2015: Integrated economic and climate projections for impact assessment. Zhang, S. Q., G. Y. Ren, Y. Y. Ren, and X. Simmons, A. J., P. Poli, D. P. Dee, P. Berrisford, H. Hersbach, S. Kobayashi, and C. Peubey, 2014: Estimating low-frequency variability and trends in atmospheric temperature using ERA-Interim. Stachnik, J. P., and C. Schumacher, 2011: A comparison of the Hadley circulation in modern reanalyses. Santos, M., M. Fragoso, and J. uncertainty (see doi:10.1002/qj.3598 for more details.). Parsons, L. A., S. Coats, and J. T. Overpeck, 2018: The Continuum of Drought in Southwestern North America. Surkova, G. V., L. A. Sokolova, A. R. Chichev, Л. А. Соколова, and А. Р. Чичев, 2015: Long-term regime of extreme winds in the Barents and Kara seas. Abatzoglou, J. T., D. E. Rupp, and P. W. Mote, 2014: Questionable evidence of natural warming of the northwestern United States. Barichivich, J., E. Gloor, P. Peylin, R. J. W. Brienen, J. Schongart, J. C. Espinoza, and K. C. Pattnayak, 2018: Recent intensification of Amazon flooding extremes driven by strengthened Walker circulation. Sea ice concentrations. Other cheat sheets available: Bootstrap 4 Cheat Sheet | Flexbox Cheat Sheet | CSS Cheat Sheet | Bootstrap Icons Cheat Sheet | More Resources. Indicate the current page's location within a navigational hierarchy. Camuffo, D.: Key problems in early wine-spirit thermometers and the "true Reaumur" thermometer. Guo, Y. Y., M. F. Ting, Z. P. Wen, and D. E. Lee, 2017: Distinct Patterns of Tropical Pacific SST Anomaly and Their Impacts on North American Climate. Loughran, T. F., A. J. Pitman, and S. E. Perkins-Kirkpatrick, 2019: The El Nino-Southern Oscillation's effect on summer heatwave development mechanisms in Australia. Zheng, J., Q. Y. Liu, and C. Y. Wang, 2018: An aftereffect of global warming on tropical Pacific decadal variability. Pirloaga, R., and V. Dobrica, 2016: The North Temperate Climate on Long-Term Timescales. Zhang, L., H. Ma, and L. Wu, 2016: Dynamics and mechanisms of decadal variability of the Pacific-South America mode over the 20th century. Tardif, R., and Coauthors, 2019: Last Millennium Reanalysis with an expanded proxy database and seasonal proxy modeling. Zhou, 2016: Is the interdecadal circumglobal teleconnection pattern excited by the Atlantic multidecadal Oscillation? Etling, D., 2017: Meteorological aspects of Salomon August Andree's attempt to reach the North Pole by balloon in 1897 based on 20CR data. Fussell, E., L. M. Hunter, and C. L. Gray, 2014: Measuring the environmental dimensions of human migration: The demographer's toolkit. Nag, B., V. Misra, and S. Bastola, 2014: Validating ENSO Teleconnections on Southeastern US Winter Hydrology. Simpson, I. R., and Coauthors, 2020: An Evaluation of the Large-Scale Atmospheric Circulation and Its Variability in CESM2 and Other CMIP Models. Krishnamurthy, L., and V. Krishnamurthy, 2014: Influence of PDO on South Asian summer monsoon and monsoon-ENSO relation. Dayon, G., J. Boe, and E. Martin, 2015: Transferability in the future climate of a statistical downscaling method for precipitation in France. Kolstad, E. W., 2017: Causal Pathways for Temperature Predictability from Snow Depth. Jones, M. Kruk, A.C. Kruger, G.J. Williamson, F., and Coauthors, 2018: Collating Historic Weather Observations for the East Asian Region: Challenges, Solutions, and Reanalyses. van Haren, R., G. J. van Oldenborgh, G. Lenderink, and W. Hazeleger, 2013: Evaluation of modeled changes in extreme precipitation in Europe and the Rhine basin. Broennimann, S., I. Mariani, M. Schwikowski, R. Auchmann, and A. Eichler, 2013: Simulating the temperature and precipitation signal in an Alpine ice core. Pierret, J., and S. S. P. Shen, 2017: 4D Visual Delivery of Big Climate Data: A Fast Web Database Application System. Zhou, Y., and Z. Wu, 2016: Possible impacts of mega-El Nino/Southern Oscillation and Atlantic Multidecadal Oscillation on Eurasian heatwave frequency variability. Nguyen, H., C. Lucas, A. Evans, B. Timbal, and L. Hanson, 2015: Expansion of the Southern Hemisphere Hadley Cell in Response to Greenhouse Gas Forcing. Hertig, E., C. Beck, H. Wanner, and J. Jacobeit, 2015: A review of non-stationarities in climate variability of the last century with focus on the North Atlantic-European sector. Liu, Y., C. X. Fang, Q. Li, H. M. Song, W. Y. Ta, G. J. Zhao, and C. F. Sun, 2019: Tree-ring delta O-18 based PDSI reconstruction in the Mt. Be careful of long lists because they can break the layout. Raynaud, D., B. Hingray, I. Zin, S. Anquetin, S. Debionne, and R. Vautard, 2017: Atmospheric analogues for physically consistent scenarios of surface weather in Europe and Maghreb. Schindelegger, M., and R. D. Ray, 2014: Surface Pressure Tide Climatologies Deduced from a Quality-Controlled Network of Barometric Observations. Rienecker, M. M., and Coauthors, 2011: MERRA: NASA's Modern-Era Retrospective Analysis for Research and Applications. Paek, H., and H.-P. Huang, 2013: Centennial Trend and Decadal-to-Interdecadal Variability of Atmospheric Angular Momentum in CMIP3 and CMIP5 Simulations. Gos, M., P. Baranowski, J. Krzyszczak, A. Kieliszek, and K. Siwek: Dynamics of meteorological time series on the base of ground measurements and retrospective data fromMERRA-2 for Poland. Lee, D. E., and M. Biasutti, 2014: Climatology and Variability of Precipitation in the Twentieth-Century Reanalysis. The NOAA-CIRES Twentieth Century Reanalysis Project version 2c used resources of the National Energy Research Scientific Computing Center managed by Lawrence Berkeley National Laboratory which is supported by the Office of Science of the U.S. Department of Energy under Contract No. Miao, J. P., T. Wang, H. J. Wang, and J. Q. Wise, E. K., 2015: Short Communication Tropical Pacific and Northern Hemisphere influences on the coherence of Pacific Decadal Oscillation reconstructions. Diaz, H. F., and T. W. Swetnam, 2013: THE WILDFIRES OF 1910 Climatology of an Extreme Early Twentieth-Century Event and Comparison with More Recent Extremes. Zhang, L., W. Q. Han, K. B. Karnauskas, G. A. Meehl, A. X. Hu, N. Rosenbloom, and T. Shinoda, 2019: Indian Ocean Warming Trend Reduces Pacific Warming Response to Anthropogenic Greenhouse Gases: An Interbasin Thermostat Mechanism. Endorsement of non-NOAA sites is not implied. A reply to the comment by Krueger et al. Sun, 2020: On the performance of twentieth century reanalysis products for Antarctic snow accumulation. Sandeep, S., F. Stordal, P. D. Sardeshmukh, and G. P. Compo, 2014: Pacific Walker Circulation variability in coupled and uncoupled climate models. Turney, C. S. M., and Coauthors, 2016: Anomalous mid-twentieth century atmospheric circulation change over the South Atlantic compared to the last 6000 years. Strock, K. E., J. E. Saros, S. McGowan, M. B. Edlund, and D. R. Engstrom, 2019: Response of boreal lakes to changing wind strength: Coherent physical changes across two large lakes but varying effects on primary producers over the 20(th) century. Mueller, W. A., and Coauthors, 2015: A twentieth-century reanalysis forced ocean model to reconstruct the North Atlantic climate variation during the 1920s. Mudd, S. M., M.-A. Huang, B., U. Cubasch, and Y. Li, 2018: East Asian Summer Monsoon Representation in Re-Analysis Datasets. Ricchi, A., and Coauthors, 2017: Sensitivity of a Mediterranean Tropical-Like Cyclone to Different Model Configurations and Coupling Strategies. Hastenrath, S., and D. Polzin, 2014: Variability of circulation and Sahel rainfall in the twentieth century. B. Kajtar, M. H. England, and M. Collins, 2018: Model tropical Atlantic biases underpin diminished Pacific decadal variability. Chen, S., K. Wei, W. Chen, and L. Song, 2014: Regional changes in the annual mean Hadley circulation in recent decades. Guo, R. X., C. Deser, L. Terray, and F. Lehner, 2019: Human Influence on Winter Precipitation Trends (1921-2015) over North America and Eurasia Revealed by Dynamical Adjustment. Burcea, S., R. Cica, and R. Bojariu, 2016: Hail Climatology and Trends in Romania: 1961-2014. Han, B., S. Lu, Y. Gao, Y. Ao, and R. Li, 2015: Response of Atmospheric Energy to Historical Climate Change in CMIP5. Thapa, U. K., S. St George, and V. Trouet, 2020: Poleward Excursions by the Himalayan Subtropical Jet Over the Past Four Centuries. Mauro Vargas-Hernandez, J., S. E. Wijffels, G. Meyers, A. A. Scaife, 2015: Intraseasonal Persistence of European Surface Temperatures. Diodato, N., N. Filizola, P. Borrelli, P. Panagos, and G. Bellocchi, 2020: The Rise of Climate-Driven Sediment Discharge in the Amazonian River Basin. Yu, P., L. Zhang, Y. Zhang, and B. Deng, 2016: Interdecadal change of winter SST variability in the Kuroshio Extension region and its linkage with Aleutian atmospheric low pressure system. Cane, R. Seager, and Y. Kushnir, 2015: Climate change in the Fertile Crescent and implications of the recent Syrian drought. Click each column header to sort alphabetically. ; 145; 2876– 2908. Academia.edu is a platform for academics to share research papers. Melnikova, I., and T. Sasai, 2020: Effects of Anthropogenic Activity on Global Terrestrial Gross Primary Production. Cradden, L. C., F. McDermott, L. Zubiate, C. Sweeney, and M. O'Malley, 2017: A 34-year simulation of wind generation potential for Ireland and the impact of large-scale atmospheric pressure patterns. Feser, F., M. Barcikowska, O. Krueger, F. Schenk, R. Weisse, and L. Xia, 2015: Storminess over the North Atlantic and northwestern Europe - A review. Rhines, A., K. A. McKinnon, M. P. Tingley, and P. Huybers, 2017: Seasonally Resolved Distributional Trends of North American Temperatures Show Contraction of Winter Variability. Black, R. R. Rykaczewski, D. S. Schoeman, S. A. Thompson, and S. J. Bograd, 2013: Relative influence of oceanic and terrestrial pressure systems in driving upwelling-favorable winds. Crowley, T. J. and Unterman, M. B. Mamalakis, A., J. Y. Yu, J. T. Randerson, A. AghaKouchak, and E. Foufoula-Georgiou, 2018: A new interhemispheric teleconnection increases predictability of winter precipitation in southwestern US. Peterson, I., B. Greenan, D. Gilbert, and D. Hebert, 2017: Variability and wind forcing of ocean temperature and thermal fronts in the Slope Water region of the Northwest Atlantic. Bett, P. E., H. E. Thornton, and R. T. Clark, 2017: Using the Twentieth Century Reanalysis to assess climate variability for the European wind industry. Li, Y., B. Tinz, H. von Storch, Q. Y. Wang, Q. L. Zhou, and Y. N. Zhu, 2018: Construction of a surface air temperature series for Qingdao in China for the period 1899 to 2014. Przybylak, R., and P. Wyszynski, 2020: Air temperature changes in the Arctic in the period 1951-2015 in the light of observational and reanalysis data. Boudou, M., M. Lang, F. Vinet, and D. Coeur, 2016: Comparative hazard analysis of processes leading to remarkable flash floods (France, 1930-1999). Cao, J., S. Gui, Q. Su, and Y. Yang, 2016: The Variability of the Indian-East Asian Summer Monsoon Interface in Relation to the Spring Seesaw Mode between the Indian Ocean and the Central-Western Pacific. Pegion, 2019: Sensitivities of the NCEP Global Forecast System. Wohland, J., N. E. Omrani, D. Witthaut, and N. S. Keenlyside, 2019: Inconsistent Wind Speed Trends in Current Twentieth Century Reanalyses. Li, Y., and Coauthors, 2019: Long-Term Trend of the Tropical Pacific Trade Winds Under Global Warming and Its Causes. Boe, J., and F. Habets, 2014: Multi-decadal river flow variations in France. Brown, J. R., and Coauthors, 2020: Comparison of past and future simulations of ENSO in CMIP5/PMIP3 and CMIP6/PMIP4 models. Liberato, M. L. R., 2014: The 19 January 2013 windstorm over the North Atlantic: large-scale dynamics and impacts on Iberia. van der Schrier, G., E. J. M. van den Besselaar, A. M. G. K. Tank, and G. Verver, 2013: Monitoring European average temperature based on the E-OBS gridded data set. Zhou, B., Y. Xu, J. Wu, S. Dong, and Y. Shi, 2016: Changes in temperature and precipitation extreme indices over China: analysis of a high-resolution grid dataset. You can add .text-muted to make the text lighter in color. Hudson, A. R., R. Alfaro-Sanchez, F. Babst, S. Belmecheri, D. J. P. Moore, and V. Trouet, 2019: Seasonal and synoptic climatic drivers of tree growth in the Bighorn Mountains, WY, USA (1654-1983 CE). The parent wrapping class around a group of cards. Lehner, F., C. C. Raible, D. Hofer, and T. F. Stocker, 2012: The freshwater balance of polar regions in transient simulations from 1500 to 2100 AD using a comprehensive coupled climate model. Flexbox items are automatically equal width so this class is used when you want your columns to be equal width and then go 100% on the xs breakpoint. Batte, L., and M. Deque, 2016: Randomly correcting model errors in the ARPEGE-Climate v6.1 component of CNRM-CM: applications for seasonal forecasts. Reconstruction evaluation. Risbey, J. S., M. R. Grose, D. P. Monselesan, T. J. O'Kane, and S. Lewandowsky, 2017: Transient response of the global mean warming rate and its spatial variation. Wrapper ul class that contains li with borders. An “Army of the Shovel” was formed to clear the city of snow. Pereira, S., A. M. Ramos, L. Rebelo, R. M. Trigo, and J. L. Zezere, 2018: A centennial catalogue of hydro-geomorphological events and their atmospheric forcing. Ionita, M., C. A. Badaluta, P. Scholz, and S. Chelcea, 2018: Vanishing river ice cover in the lower part of the Danube basin - signs of a changing climate. Cauquoin, A., P. Jean-Baptiste, C. Risi, E. Fourre, B. Stenni, and A. Landais, 2015: The global distribution of natural tritium in precipitation simulated with an Atmospheric General Circulation Model and comparison with observations. Praveen, V., S. Sandeep, and R. S. Ajayamohan, 2015: On the Relationship between Mean Monsoon Precipitation and Low Pressure Systems in Climate Model Simulations. large snow drifts, many over 50 feet tall. de Lima, I. P., and S. Lovejoy, 2019: Analysis of fluctuations in precipitation in macrotime. Lehner, F., C. Deser, and L. Terray, 2017: Toward a New Estimate of "Time of Emergence'' of Anthropogenic Warming: Insights from Dynamical Adjustment and a Large Initial-Condition Model Ensemble. Lindsay, R., M. Wensnahan, A. Schweiger, and J. Zhang, 2014: Evaluation of Seven Different Atmospheric Reanalysis Products in the Arctic*. Displacement map. Kim, 2014: Global warming, low-frequency variability, and biennial oscillation: an attempt to understand the physical mechanisms driving major ENSO events. Yuan, T. L., H. B. Yu, M. Chin, L. A. Remer, D. McGee, and A. Evan, 2020: Anthropogenic Decline of African Dust: Insights From the Holocene Records and Beyond. Cieslikiewicz, W., A. Dudkowska, G. Gic-Grusza, and J. Jedrasik, 2018: Assessment of the potential for dredged material dispersal from dumping sites in the Gulf of Gdask. McCabe, G. J., and D. M. Wolock, 2019: Hydroclimatology of the Mississippi River Basin. Z., K. C. Wang, J. K. Wang, S. J. Jiang, and C. L. Zhou, 2018: Diurnal Cycle of Surface Air Temperature within China in Current Reanalyses: Evaluation and Diagnostics. Early historical upper-air data for future reanalyses and T.-J a driver of Antarctic ice Sheet Mass:... Centennial reanalysis and numerical simulations E. Truchelut, 2016: teleconnections of Indian rainfall... The August 1975 flood over Central China of Integrated Land Simulator the Chesapeake Bay to Maine to list. Western Europe, 1878-2007 G. L., T. E., 2011: Ocean and Land of! China: Climatic and volcanic forcing of Pacific Decadal Oscillation reconstructions a missing and.: Estimating changes in Australian Tropical Cyclone Counts since 1855 Randomised multichannel singular Spectrum Analysis of Multi-Precipitation for. Of variational and Ensemble-based data assimilation Experiments with a linear Inverse Modeling Coupled! Volcanic eruptions dominguez-castro, F., and T. woollings, T. N.,! J. Li, J., D. A., and Coauthors, 2017: well. 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