DSpace Colección :http://hdl.handle.net/20.500.11765/66922024-03-28T14:52:02Z2024-03-28T14:52:02ZTropical Cyclones and Climate ChangeBloemendaal, NadiaChand, SavinDeshpande, Medha S.Domínguez Sarmiento, ChristianGonzález-Alemán, Juan JesúsKnutson, Thomas R.Lin, I-IMoon, Il-JuPatricola, Christina M.Reed, Kevin A.Roberts, MalcolmScoccimarro, EnricoTam, Chi-YungWallace, ElizabethWu, LiguangYamada, YoheiZhang, WeiZhao, Haikunhttp://hdl.handle.net/20.500.11765/151262024-03-28T09:24:39Z2022-01-01T00:00:00ZTítulo : Tropical Cyclones and Climate Change
Autor : Bloemendaal, Nadia; Chand, Savin; Deshpande, Medha S.; Domínguez Sarmiento, Christian; González-Alemán, Juan Jesús; Knutson, Thomas R.; Lin, I-I; Moon, Il-Ju; Patricola, Christina M.; Reed, Kevin A.; Roberts, Malcolm; Scoccimarro, Enrico; Tam, Chi-Yung; Wallace, Elizabeth; Wu, Liguang; Yamada, Yohei; Zhang, Wei; Zhao, Haikun
Resumen : A substantial number of studies have been published since the IWTC-9 in 2018, improving our understanding of the effect of climate change on tropical cyclones (TCs) and associated hazards and risks. They reinforced the robustness of increases in TC intensity and associated TC hazards and risks due to anthropogenic climate change. New modeling and observational studies
suggested the potential influence of anthropogenic climate forcings, including greenhouse gases and aerosols, on global and regional TC activity at the decadal and century time scale. However, there is still substantial uncertainty owing to model uncertainty in simulating historical TC decadal variability in the Atlantic and owing to limitations of observed TC records. The projected future change in the global number of TCs has become more uncertain since IWTC-9 due to projected increases in TC frequency by a few climate models. A new paradigm, TC seeds, has been
proposed, and there is currently a debate on whether seeds can help explain the physical mechanism behind the projected changes in global TC frequency. New studies also highlighted the importance of large-scale environmental fields on TC activity, such as snow cover and air-sea interactions. Future projections on TC translation speed and Medicanes are new additional focus topics in our report. Recommendations and future research are proposed relevant to the remaining scientific questions and assisting policymakers.
Descripción : Trabajo presentado en: 10th International Worskshop Cyclones Tropicales, celebrado del 5 al 9 de diciembre de 2022 en Bali, Indonesia.2022-01-01T00:00:00ZClimatological comparison of 2011-2012 and 2012-2013 snow seasons in Central and Western Spanish Pyrenees and its relationship with the North Atlantic Oscillation (NAO)Vada, José AntonioRodríguez Marcos, Francisco JavierBuisán Sanz, Samuel TomásSanambrosio Beirán, José Ismaelhttp://hdl.handle.net/20.500.11765/135002024-03-25T16:52:34Z2013-01-01T00:00:00ZTítulo : Climatological comparison of 2011-2012 and 2012-2013 snow seasons in Central and Western Spanish Pyrenees and its relationship with the North Atlantic Oscillation (NAO)
Autor : Vada, José Antonio; Rodríguez Marcos, Francisco Javier; Buisán Sanz, Samuel Tomás; Sanambrosio Beirán, José Ismael
Resumen : The 2011–2012 winter season can be considered exceptional in Spanish Central and Western Pyrenees due to the scarce precipitation and unconsolidated snowpack. However, the 2012-
2013 winter season was highlighted by the intensity and duration of snowfall episodes, specially in January and February. Snowpacks depths around 4 metres have been reported in several stations at
altitudes of more than 2000 m.a.s.l. and depths over 2 metres in stations at altitudes between 1300 and 2000 m.a.s.l.
Different weather and snow parameters (temperature, precipitation, snowfall, number of snow days, snowpack depth) have been taken into account to compare these two seasons. A possible influence of
the North Atlantic Oscillation (NAO) teleconnection pattern in the different behaviour of the two winter seasons has been analyzed, demonstrating a clear relationship. All weather and snow data are provided from AEMET nivometeorological stations network in the Central and Western Spanish Pyrenees range, which are also presented in this work.
Descripción : Comunicación presentada en: International Snow Science Workshop Grenoble, celebrado en Chamonix Mont-Blanc, del 7 al 11 de octubre de 2013.2013-01-01T00:00:00ZUso de las predicciones climáticas estacionales en el sector del aguaPouget, LaurentGómez, ManuelCabello, ÀngelsRodríguez Camino, ErnestoNavascués, BeatrizVoces Aboy, JoséSánchez García, EroteidaSolera, Abelhttp://hdl.handle.net/20.500.11765/128072024-03-27T11:47:33Z2015-01-01T00:00:00ZTítulo : Uso de las predicciones climáticas estacionales en el sector del agua
Autor : Pouget, Laurent; Gómez, Manuel; Cabello, Àngels; Rodríguez Camino, Ernesto; Navascués, Beatriz; Voces Aboy, José; Sánchez García, Eroteida; Solera, Abel
Descripción : Ponencia presentada en: IV Jornadas de Ingeniería del Agua: la precipitación y los procesos erosivos celebrado en Córdoba del 20 al 23 de octubre de 2015.2015-01-01T00:00:00ZThe REDMAAS 2014 intercomparison campaign: CPC, SMPS, UFPM and neutralizersGómez Moreno, Francisco JavierAlonso Blanco, ElisabethArtíñano, BegoñaIglesias Samitier, SilviaPiñeiro Iglesias, MaríaLópez Mahía, PurificaciónPérez, NoemíAlastuey, AndrésMorena Carretero, Benito A. de laGarcía, María IsabelRodríguez González, SergioSorribas, MarTitos Vela, GloriaLyamani, HassanAlados Arboledas, LucasFilimundi, E.Latorre Tarrasa, Enriquehttp://hdl.handle.net/20.500.11765/123862024-03-25T04:15:01Z2014-01-01T00:00:00ZTítulo : The REDMAAS 2014 intercomparison campaign: CPC, SMPS, UFPM and neutralizers
Autor : Gómez Moreno, Francisco Javier; Alonso Blanco, Elisabeth; Artíñano, Begoña; Iglesias Samitier, Silvia; Piñeiro Iglesias, María; López Mahía, Purificación; Pérez, Noemí; Alastuey, Andrés; Morena Carretero, Benito A. de la; García, María Isabel; Rodríguez González, Sergio; Sorribas, Mar; Titos Vela, Gloria; Lyamani, Hassan; Alados Arboledas, Lucas; Filimundi, E.; Latorre Tarrasa, Enrique
Resumen : The Spanish network on environmental DMAs (Red Española de DMAs Ambientales, REDMAAS), working since 2010, is currently formed by six groups involved in the measurement of atmospheric aerosol size distributions by means of Differential Mobility Analyzers (DMAs). One of its activities is an annual intercomparison of mobility size
spectrometers (SMPS and UFPM). In this work we show the results obtained in the 2014 campaign: the verification of DMA calibrations with latex, the results of the CPC and SMPS + UFPM intercomparisons, and a comparison of the new TSI 3087 X-ray and the former TSI 3077 85Kr neutralizers. The concentrations measured by different types of CPC were within the range of 10% of the average value. CPCs working at higher flow rates measured slightly higher concentrations, probably related to the smaller losses in the lines. All the SMPS worked at the same sampling and sheath flow rates (1:10 lpm). Four of the SMPS gave very good results for particles larger than 20 nm. The UFPM measured particle number concentrations in the average +/-10% band measured by the SMPS. Instruments working with the X-ray neutralizer measured higher concentrations than with the 85Kr neutralizers. This could mean that particle losses are smaller inside this neutralizer.
Descripción : Ponencia presentada en:2nd Iberian Meeting on Aerosol Science and Technology (RICTA 2014) celebrado en Tarragona del 7 al 9 de julio de 2014.2014-01-01T00:00:00Z