Your search keyword '"Romero, Romualdo"' showing total 18 results

1. Characterization of ensemble generation strategies: Application to three illustrative examples of Mediterranean high-impact weather

Author

Hermoso, Alejandro, Homar, Victor, and Romero, Romualdo

Published

2023

2. Forecasting meteotsunamis with neural networks: the case of Ciutadella harbour (Balearic Islands)

Author

Vich, Maria-del-Mar and Romero, Romualdo

Published

2021

3. Present and future climate potentials for several outdoor tourism activities in Spain.

Author

Cardell, Maria Francisca, Amengual, Arnau, and Romero, Romualdo

Subjects

TOURISM, TOURIST attractions, CLIMATE change, LEISURE, METEOROLOGICAL databases, ATMOSPHERIC models

Abstract

Spain is one of the leading tourist destinations worldwide, but also a climate change hot-spot. Weather conditions throughout the year have enabled the implementation of alternative outdoor leisure activities to beach-based tourism, helping to alleviate the strong seasonality. Climate is currently a positive resource but it could become a limiting factor for these activities in the future. Here, we assess the present and future conditions by adopting the second generation climate index for tourism (CIT) to quantify the climate potentials for cultural, golf, sailing, hiking, cycling and football activities. Present and future potentials are derived using observed and projected daily meteorological data from the ERA-5 reanalysis and the DMI-HIRHAM5 regional climate model (RCM) included in EURO-CORDEX project, respectively. A quantile–quantile adjustment is applied to the projected CIT data to correct biases at the local scale. Present climate potentials confirm the optimal conditions of the Spanish Mediterranean coast for practicing all the activities in spring and autumn, while in summer, ideal conditions only prevail for sailing. Projections show a general future increase of excellent climate potentials in winter and a general improvement of the weather assets in the northern half of the country during the shoulder seasons, except for cycling and football. [ABSTRACT FROM AUTHOR]

Published

2023

4. Coastal Hazards of Tropical‐Like Cyclones Over the Mediterranean Sea.

Author

Toomey, Tim, Amores, Angel, Marcos, Marta, Orfila, Alejandro, and Romero, Romualdo

Subjects

TROPICAL cyclones, STORM surges, CLIMATE change, HYDRODYNAMICS

Abstract

Medicanes, for Mediterranean hurricanes, are mesoscale cyclones with morphological and physical characteristics similar to tropical cyclones. Although less intense, smaller, and rarer than their Atlantic counterparts, medicanes are very hazardous events threatening islands and continental coasts within the Mediterranean Sea. The latest strong episode, Medicane Ianos (September 2020), resulted in severe damages in Greece and several casualties. This work investigates the oceanic response to these extreme events along the Mediterranean coasts under present‐day and future (late 21st century) climate conditions. To this end, a coupled hydrodynamic‐wave model is used to simulate both storm surges and wind‐waves generation and propagation in the Mediterranean Sea at high resolution (∼2 km) along the coastlines. A data set of thousands of medicanes synthetically generated from 20 global climate models and two atmospheric reanalyses is used to derive the atmospheric forcing fields. Regional coastal hazards assessment is performed for the present and future climates. For the first period, highest medicane‐induced waves are found in the central and the southwest part of the western Mediterranean, while greatest storm surges are found in the Adriatic Sea and regions characterized by wide and gently sloping continental shelves. Results obtained for future changes show amplitudes generally smaller than the associated uncertainty due to limited agreement among models (especially for coastal elevation). Though, model consensus is reached (60–75%) and relative intensity change is significant (10–20%) at some locations (e.g., 1 m increase of medicane‐induced significant wave height on average for south coasts of Sicilia). Plain Language Summary: Mediterranean hurricanes, medicanes, are tropical‐like cyclones generated in the Mediterranean basin that differ from their counterpart in the Atlantic in their smaller size and intensity. They rarely exceed 400 km of diameter and last generally 24–48 hr, unusually reaching intensities of category 1 hurricanes. A medicane is characterized by a warm core accompanied by thunderstorms, heavy rain, but also strong cyclonic winds (counter‐clockwise rotation) that are responsible for costly damages and often result in casualties. Furthermore, medicanes pose serious threats to coastal populations due to the storm surges, that is, the raising of the sea surface due to low atmospheric pressure, and to the combined effects of waves and winds along the coasts. This study investigates the coastal hazards induced by medicanes over the entire basin. To do so, we used a hydrodynamic and wave coupled model to simulate the generation and propagation of storm surges and wind‐waves over the Mediterranean Sea under the forcing of a set of thousands of synthetic medicanes that statistically describe the medicane climate for the present and future period (end of 21st century). Our results identify the most exposed coastal areas and quantify the current and projected return levels for waves and storm surges. Key Points: Mediterranean hurricanes (medicanes) generate largest wind‐waves (exceeding 10 m) in the central and the southwest part of the western basinWide and gently sloping continental shelves favor the generation of storm surges under medicane forcing with 100‐year return levels over 1 mProjected changes medicane‐induced coastal hazards are uncertain due to limited multimodel consensus, with some local exceptions [ABSTRACT FROM AUTHOR]

Published

2022

5. European climatology of severe convective storm environmental parameters: A test for significant tornado events

Author

Romero, Romualdo, Gayà, Miquel, and Doswell, Charles A., III

Published

2007

6. The influence of vegetation on the development and structure of mountain waves

Author

Romero, Romualdo, Alonso, Sergio, Nickerson, Everett C., and Ramis, Clemente

Subjects

Mountains -- Environmental aspects, Vegetation and climate -- Observations, Earth sciences

Abstract

The presence of thick vegetation on mountain slopes affects orographically generated atmospheric waves, redistributing low level winds. A thick conifer forest on the top of a mountain results in greater rainfall over the upwind and downwind slopes while shrubs cause greater rainfall over the upwind slope. A moist soil with no vegetation initiates circulation of winds at lower levels. A two-dimensional meso-beta model was used for the analysis of winds on the mountain slopes using simulated stability, surface air flow and turbulent kinetic energy.

Published

1995

7. Future extremes of temperature and precipitation in Europe derived from a combination of dynamical and statistical approaches.

Author

Cardell, Maria F., Amengual, Arnau, Romero, Romualdo, and Ramis, Climent

Subjects

ATMOSPHERIC circulation, TEMPERATURE, ATMOSPHERIC models, DROUGHTS, ECONOMIC man, HEAT waves (Meteorology)

Abstract

Most of the nature‐related economic costs and human losses in many regions of Europe are due to extreme weather events such as heat waves, cold spells, persistent droughts, heavy precipitation and intense cyclonic wind‐storms. Extreme precipitation events are projected by climatic models to become more intense over the continent while droughts might last longer by the end of the century. In dry regions as Southern Europe, soils are predicted to dry out as temperatures and evapotranspiration rise and rain‐bearing atmospheric circulations become less frequent. Prospects on the future of climate indices linked to extreme phenomena are herein derived by using observed and model projected daily meteorological data. Specifically, E‐OBS high resolution gridded datasets of observed precipitation and surface minimum and maximum temperatures have been used as the regional observed baseline. For projections, the same meteorological variables have been obtained from a set of regional climate models integrated in the European EURO‐CORDEX project, considering the RCP8.5 future emissions scenario. A quantile–quantile adjustment has been applied to the simulated regional scenarios to reduce biases in modelled extreme regimes. Results suggest that warm days will substantially increase across Europe, consistently with a decrease of cold nights. An increase in heat wave amplitude is expected across the continent, with South Eastern Europe and the Mediterranean as the most affected regions. In contrast, Northern Europe will undergo the largest decrease in cold spell magnitude. An overall rise in the frequency and volume of heavy precipitations is projected in all seasons, even if the number of dry days is also expected to increase, except in the Baltic countries. Regarding abnormally long dry periods (extreme droughts), we find that the occurrence of episodes would reduce over Europe as consequence of projected increases in length. [ABSTRACT FROM AUTHOR]

Published

2020

8. Hydro-meteorological reconstruction and geomorphological impact assessment of the October 2018 catastrophic flash flood at Sant Llorenç, Mallorca (Spain).

Author

Lorenzo-Lacruz, Jorge, Amengual, Arnau, Garcia, Celso, Morán-Tejeda, Enrique, Homar, Víctor, Maimó-Far, Aina, Hermoso, Alejandro, Ramis, Climent, and Romero, Romualdo

Subjects

RAINFALL, NUMERICAL weather forecasting, EMERGENCY management, FLOOD risk, FLOODS, RIVER channels

Abstract

An extraordinary convective rainfall event, unforeseen by most numerical weather prediction models, generated a devastating flash flood (305 m 3 s -1) in the town of Sant Llorenç des Cardassar, Mallorca, on 9 October 2018. Four people died inside this village, while casualties were up to 13 over the entire affected area. This extreme event has been reconstructed by implementing an integrated flash flood modelling approach in the Ses Planes catchment up to Sant Llorenç (23.4 km 2), based on three components: (i) generation of radar-derived precipitation estimates, (ii) modelling of accurate discharge hydrographs yielded by the catchment (using FEST and KLEM models), and (iii) hydraulic simulation of the event and mapping of affected areas (using HEC-RAS). Radar-derived rainfall estimates show very high agreement with rain gauge data (R2=0.98). Modelled flooding extent is in close agreement with the observed extension by the Copernicus Emergency Management Service, based on Sentinel-1 imagery, and both far exceed the extension for a 500-year return period flood. Hydraulic simulation revealed that water reached a depth of 3 m at some points, and modelled water depths highly correlate (R2=0.91) with in situ after-event measurements. The 9 October flash flood eroded and transported woody and abundant sediment debris, changing channel geomorphology. Water velocity greatly increased at bridge locations crossing the river channel, especially at those closer to the Sant Llorenç town centre. This study highlights how the very low predictability of this type of extreme convective rainfall events and the very short hydrological response times typical of small Mediterranean catchments continue to challenge the implementation of early warning systems, which effectively reduce people's exposure to flash flood risk in the region. [ABSTRACT FROM AUTHOR]

Published

2019

9. On the drought in the Balearic Islands during the hydrological year 2015-2016.

Author

Ramis, Climent, Romero, Romualdo, Homar, Víctor, Alonso, Sergio, Jansà, Agustí, and Amengual, Arnau

Subjects

ISLANDS, WATER supply, WATER consumption, WATER balance (Hydrology), AQUIFERS

Abstract

During the hydrological year 2015-2016 (September to August) a severe drought affected the Balearic Islands, with substantial consequences (alleviated partially by desalination plants) on water availability for consumption from reservoirs and aquifers and also on the vegetation cover. In particular, a plague of Xylella fastidiosa reached an alarming level for almond and olive trees. The expansion of this infestation could be attributed to, or at least favored by, the extreme drought. In this paper we analyze this anomalous episode in terms of the corresponding water balance in comparison with the balance obtained from long-term climatological data. It is shown that the drought was the result of a lack of winter precipitation, the lowest in 43 years, which led to a shortage of water storage in the soil. In several meteorological stations analyzed, evaporation was greater than precipitation during all the months of the year. In terms of attribution, it is found that during the 2015-2016 winter the atmospheric circulation over the North Atlantic was largely westerly and intense, with high values of the NAO index that were reflected in high pressures over the Iberian Peninsula and the western Mediterranean. [ABSTRACT FROM AUTHOR]

Published

2017

10. Perturbing the potential vorticity field in mesoscale forecasts of two Mediterranean heavy precipitation events.

Author

Vich, Maria-Del-Mar, Romero, Romualdo, Richard, Evelyne, Arbogast, Philippe, and Maynard, Karine

Subjects

*WEATHER forecasting, *METEOROLOGICAL precipitation, *PERTURBATION theory, *ENVIRONMENTAL impact analysis, *CYCLONES, *ATMOSPHERIC temperature

Abstract

In order to improve the quality of the Mediterranean high-impact weather (HIW) numerical predictions, this study proposes to modify the potential vorticity (PV) field of the model initial state, taking advantage of information provided by the water vapour (WV) channel of the METEOSAT-7 satellite. The implemented PV field modifications aim to reduce the mismatch between the upper-level PV features and the WV brightness temperatures guided by the known relation between these two fields (PV-WV technique). The PV-WV technique effectiveness is evaluated on two HIW events, and is also compared with two additional PV modification techniques from an earlier study. The chosen episodes occurred on 9-10 June 2000 and 9-10 October 2002 and produced heavy precipitation over both Spain and France. The main difference between these two episodes is found in the driving mechanism, a mesoscale cyclone for the June 2000 event and a larger low-pressure centre for the October 2002 case. The two additional PV modification techniques introduce perturbations along the zones highlighted by the MM5 adjoint model calculated sensitivity zones (PV-adjoint) and along the three-dimensional PV structure presenting the locally most intense values and gradients of the field (PV-gradient). A close examination of both case studies of the forecast rainfall fields and several objective verification indices show that the PV-WV technique performance exceeds the control (or non-perturbed) forecast skill while remaining inside the distribution obtained by both PV-gradient and PV-adjoint techniques. This PV-WV technique could be used to increase the ensemble spread introducing higher amplitude modifications. Thus, a more skilled ensemble prediction system could be built by taking advantage of the subjectivity inherent to this method (manual perturbations) and also of the uncertainty present in the initial state. [ABSTRACT FROM AUTHOR]

Published

2012

11. Anomalous rainfall and associated atmospheric circulation in the northeast Spanish Mediterranean area and its relationship to sediment fluidization events in a lake.

Author

Soler, Marianna, Serra, Teresa, Colomer, Jordi, and Romero, Romualdo

Abstract

Changes in the dynamics of sediment transport in a Mediterranean lake (sediment fluidization events) are linked to atmospheric circulations patterns (trough monthly precipitation). In the basins of Lake Banyoles, located in the northeast of Spain, water enters mainly through subterranean springs, and associated fluctuations in the vertical migration of sediment distribution (fluidization events) present episodic behavior as a result of episodic rainfall in the area. The initiation of the fluidization events takes place when the monthly rainfall is ∼2.7 times greater than the mean monthly rainfall of the rainiest months in the area, especially in spring (April and May), October, and December. The duration of these events is found to be well correlated with the accumulated rainfall of the preceding 10 months before the process initiation. The rainfall, in turn, is mainly associated with six atmospheric circulation patterns among the 19 fundamental circulations that emerged in an earlier study focused on significant rainfall days in Mediterranean Spain. Among them, accentuated surface lows over the northeast of Spain, general northeasterly winds by low pressure centered to the east of Balearic Islands and short baroclinic waves over the Iberian Peninsula, with easterly flows over the northeastern coast of Spain, are found the most relevant atmospheric circulations that drive heavy rainfall events. [ABSTRACT FROM AUTHOR]

Published

2007

12. Synoptic Regulation of the 3 May 1999 Tornado Outbreak.

Author

Roebber, Paul J., Schultz, David M., and Romero, Romualdo

Subjects

TORNADOES, NATURAL disasters, EMERGENCY management

Abstract

Despite the relatively successful long-lead-time forecasts of the storms during the 3 May 1999 tornadic outbreak in Oklahoma and Kansas, forecasters were unable to predict with confidence details concerning convective initiation and convective mode. The forecasters identified three synoptic processes they were monitoring for clues as to how the event would unfold. These elements were (a) the absence of strong surface convergence along a dryline in western Oklahoma and the Texas Panhandle, (b) the presence of a cirrus shield that was hypothesized to limit surface heating, and (c) the arrival into Oklahoma of an upper-level wind speed maximum [associated with the so-called southern potential vorticity (PV) anomaly] that was responsible for favorable synoptic-scale ascent and the cirrus shield. The Pennsylvania State University-National Center for Atmospheric Research Fifth-Generation Mesoscale Model (MM5), nested down to 2-km horizontal grid spacing, is used in forecast mode [using the data from the National Centers for Environmental Prediction Aviation (AVN) run of the Global Spectral Model to provide initial and lateral boundary conditions] to explore the sensitivity of the outbreak to these features. A 30-h control simulation is compared with the available observations and captures important qualitative characteristics of the event, including convective initiation east of the dryline and organization of mesoscale convective systems into long-lived, long-track supercells. Additional simulations in which the initial strength of the southern PV anomaly is altered suggest that synoptic regulation of the 3 May 1999 event was imposed by the effects of the southern PV anomaly. The model results indicate that 1) convective initiation in the weakly forced environment was achieved through modification of the existing cap through both surface heating and synoptic-scale ascent associated with the southern PV anomaly; 2) supercellular organization was supported regardless... [ABSTRACT FROM AUTHOR]

Published

2002

13. Mesoscale Model Simulations of Three Heavy Precipitation Events in the Western Mediterranean Region.

Author

Romero, Romualdo, Ramis, Clemente, Alonso, Sergio, Doswell III, Charles A., and Stensrud, David J.

Subjects

*METEOROLOGICAL precipitation, *CONVECTION (Meteorology), *PRECIPITATION forecasting

Abstract

A mesoscale numerical model with parameterized moist convection is applied to three cases involving heavy rainfall in the western Mediterranean region. Forecast precipitation fields, although not perfect when compared to the observations of rainfall, appear to have sufficient information to be considered useful forecasting guidance. The results illustrate that a good simulation for this type of event in a region with complex topography is strongly dependent on a good initialization and prediction of the low-level flow and water vapor distribution. For two of the cases that have a marked synoptic-scale contribution, the simulations give reasonably accurate predictions of the precipitation distribution, although the amounts are generally underestimated. The third case exhibits relatively subtle synoptic-scale forcing and is dominated by isolated convective storms (mostly over the sea) that also produced severe thunderstorms (including tornadoes), and the prediction of precipitation is not as promising. Overall, the results are encouraging in terms of potential application of mesoscale models operationally in the western Mediterranean region. Additional experiments beyond the 'control' simulations have been performed to isolate the influence of orography and water vapor flux from the Mediterranean Sea on the model simulations. This factor separation indicates that both effects can be important contributors to a successful forecast. Suggestions are offered for future efforts in pursuing the application of mesoscale models to this forecast problem. [ABSTRACT FROM AUTHOR]

Published

1998

14. Numerical simulation of an extreme rainfall event in Catalonia: Role of orography and evaporation from the sea.

Author

Romero, Romualdo, Ramis, Clemente, and Alonso, Sergio

Published

1997

15. A Diagnostic Study of Three Heavy Precipitation Episodes in the Western Mediterranean Region

Author

DOSWELL III, CHARLES A., RAMIS, CLEMENTE, ROMERO, ROMUALDO, and ALONSO, SERGIO

Subjects

METEOROLOGICAL precipitation, CYCLONES, HELICITY of nuclear particles, MOUNTAINS, FORECASTING

Abstract

A diagnostic evaluation of three project ANOMALIA case studies involving heavy precipitation in the western Mediterranean region has been carried out. The evaluation shows the unique characteristics of each event, as well as some limited similarities. Heavy precipitation events in the western Mediterranean region typically occur downstream of a significant cyclone aloft (often, but not always, exhibiting "cutoff" cyclone characteristics), but important structural and evolutionary differences are found among these cases. At low levels, a long fetch of flow over the Mediterranean Sea frequently interacts with terrain features to produce persistent heavy precipitation. Although most heavy precipitation events occur during the fall season, they can develop at other times. In the first case, the synoptic-scale environment produced low static stability and substantial storm-relative environmental helicity, thereby supporting both heavy rain in the vicinity of Valencia on mainland Spain and on Ibiza in the Balearic Islands, as well as a tornado at Menorca in the Balearic Islands on 7-9 October 1992. The second case involved a slow-moving cyclone that destabilized the stratification and produced several days of heavy precipitation over the period 31 January-6 February 1993. In the third case, in the Italian Piedmont region on 5-6 November 1994, the heavy precipitation included a nonconvective component, with moist but relatively stable air impinging on steep terrain gradients. A set of basic diagnostic tools is applied to the cases, and it is shown that anything but a superficial diagnosis of each case requires flexibility in selecting diagnostic tools. The ways by which heavy precipitation is created can vary substantially from case to case and in different parts of the world; however, there is a common thread. Heavy precipitation is the result of moist, low-level air ascending rapidly, so any diagnosis aimed at forecasting heavy precipitation needs to address the... [ABSTRACT FROM AUTHOR]

Published

1998

16. Validation of the AROME, ALADIN and WRF Meteorological Models for Flood Forecasting in Morocco.

Author

El Khalki, El Mahdi, Tramblay, Yves, Amengual, Arnau, Homar, Victor, Romero, Romualdo, Saidi, Mohamed El Mehdi, and Alaouri, Meriem

Subjects

FLOOD forecasting, ATMOSPHERIC models, METEOROLOGICAL research, WEATHER forecasting, SOIL moisture, MOISTURE measurement, OPERATIONS research

Abstract

Flash floods are common in small Mediterranean watersheds and the alerts provided by real-time monitoring systems provide too short anticipation times to warn the population. In this context, there is a strong need to develop flood forecasting systems in particular for developing countries such as Morocco where floods have severe socio-economic impacts. In this study, the AROME (Application of Research to Operations at Mesoscale), ALADIN (Aire Limited Dynamic Adaptation International Development) and WRF (Weather Research and Forecasting) meteorological models are evaluated to forecast flood events in the Rheraya and Ourika basin located in the High-Atlas Mountains of Morocco. The model evaluation is performed by comparing for a set of flood events the observed and simulated probabilities of exceedances for different precipitation thresholds. In addition, two different flood forecasting approaches are compared: the first one relies on the coupling of meteorological forecasts with a hydrological model and the second one is a based on a linear relationship between event rainfall, antecedent soil moisture and runoff. Three different soil moisture products (in-situ measurements, European Space Agency's Climate Change Initiative ESA-CCI remote sensing data and ERA5 reanalysis) are compared to estimate the initial soil moisture conditions before flood events for both methods. Results showed that the WRF and AROME models better simulate precipitation amounts compared to ALADIN, indicating the added value of convection-permitting models. The regression-based flood forecasting method outperforms the hydrological model-based approach, and the maximum discharge is better reproduced when using the WRF forecasts in combination with ERA5. These results provide insights to implement robust flood forecasting approaches in the context of data scarcity that could be valuable for developing countries such as Morocco and other North African countries. [ABSTRACT FROM AUTHOR]

Published

2020

17. Maritime Continent rainfall features in a convection-permitting model.

Author

Argüeso, Daniel, Luca, Alejandro Di, and Romero, Romualdo

Published

2019

18. Reviews and perspectives of high impact atmospheric processes in the Mediterranean.

Author

Michaelides, Silas, Karacostas, Theodore, Sánchez, Jose Luis, Retalis, Adrianos, Pytharoulis, Ioannis, Homar, Víctor, Romero, Romualdo, Zanis, Prodromos, Giannakopoulos, Christos, Bühl, Johannes, Ansmann, Albert, Merino, Andrés, Melcón, Pablo, Lagouvardos, Konstantinos, Kotroni, Vassiliki, Bruggeman, Adriana, López-Moreno, Juan Ignacio, Berthet, Claude, Katragkou, Eleni, and Tymvios, Filippos

Subjects

*MEDITERRANEAN climate, *DROUGHTS, *ATMOSPHERIC chemistry, *CYCLONES, *METEOROLOGICAL precipitation

Abstract

The Mediterranean region is a unique area characterized by a large spectrum of atmospheric phenomena, some of which have a high impact on many aspects of human activities, safety and wellbeing. The area is long considered as a hot spot of such atmospheric phenomena deserving multidisciplinary scientific attention. The scientific research that has been carried out on these high impact atmospheric processes that occur in the Mediterranean area is indeed widespread and the available international literature is very extensive. The paper touches initially the temperature and precipitation regimes, followed by a discussion of floods and droughts. The exciting cyclogenetic patterns of explosive cyclones and medicanes are presented in separate sections. The lightning activity and the presence of dust and other pollutants are also presented herein. The atmospheric chemistry of the region which is increasingly becoming of utmost importance for the area under study is distinctly discussed. Attempts to modify the weather (the precipitation, in particular) are outlined too. The effects of climatic change on various atmospheric processes are considered throughout this paper, in addition to a dedicated section on temperature and precipitation. [ABSTRACT FROM AUTHOR]

Published

2018