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1. Hydrological Cycle in the Arabian Sea Region from GRACE/GRACE-FO Missions and ERA5 Data.

Author

Boulahia, Ahmed Kamel, García-García, David, Trottini, Mario, Sayol, Juan-Manuel, and Vigo, M. Isabel

Subjects
HYDROLOGIC cycle, RUNOFF, CLIMATE change, SALINE waters, STRAITS
Abstract

The Arabian Gulf, a semi-enclosed basin in the Middle East, connects to the Indian Ocean through the Strait of Hormuz and is surrounded by seven arid countries. This study examines the water cycle of the Gulf and its surrounding areas using data from the GRACE and GRACE Follow-On missions, along with ERA5 atmospheric reanalysis data, from 05/2002 to 05/2017 and from 07/2018 to 12/2023. Our findings reveal a persistent water deficit due to high evaporation rates, averaging 370 ± 3 km3/year, greatly surpassing precipitation, which accounts for only 15% of the evaporative loss. Continental runoff provides one-fifth of the needed water, while the remaining deficit, approximately 274 ± 10 km3/year, is balanced by net inflow of saltwater from the Indian Ocean. Seasonal variations show the lowest net inflow of 26 ± 49 km3/year in March and the highest of 586 ± 53 km3/year in November, driven by net evaporation, continental input, and changes in the Gulf's water budget. This study highlights the complex hydrological dynamics influenced by climate patterns and provides a baseline for future research in the region, which will be needed to quantify the expected changes in the hydrological cycle due to climate change. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Seasonal and interannual variability of Mediterranean Sea overturning circulation

Author

Generalitat Valenciana, European Commission, CSIC-UIB - Instituto Mediterráneo de Estudios Avanzados (IMEDEA), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Sayol, Juan Manuel [0000-0003-3319-2910], Sayol, Juan Manuel, Marcos, Marta, García-García, D., Vigo, Isabel, Generalitat Valenciana, European Commission, CSIC-UIB - Instituto Mediterráneo de Estudios Avanzados (IMEDEA), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Sayol, Juan Manuel [0000-0003-3319-2910], Sayol, Juan Manuel, Marcos, Marta, García-García, D., and Vigo, Isabel

Abstract

The overturning streamfunction is a widely used metric to monitor ocean circulation changes in the North Atlantic Ocean. Analogously, it is known that an overturning circulation develops in the Mediterranean Sea, although substantially weaker and smaller than in the Atlantic. In this work we use monthly mean fields from a high-resolution ocean reanalysis (1/16°×1/16°) to explore seasonal and interannual variability of Mediterranean Sea overturning circulation in depth and water mass parameter spaces (potential density, potential temperature, salinity) from 1987 to 2018 (both included). Results show a clear single zonal clockwise transport cell in all three spaces that extends from the Strait of Gibraltar to the Levantine Basin, in which water masses tend to densify as they move eastward. This densification is mainly controlled by salinity in the Eastern Mediterranean basin (EMED), while in the Western Mediterranean (WMED) both salinity and potential temperature variations should be taken into account. In contrast, the meridional overturning transport, much more complex, is able to better capture smaller-scale variations since it responds faster to perturbations in the circulation. Seasonal variations in overturning transport are reflected in the size and strength of overturning cells in all spaces, being cells remarkably narrower in winter than in summer. Regarding interannual changes, we show that the meridional overturning transport in density space is significantly correlated with the North Atlantic Oscillation, the Mediterranean Oscillation Index and the Scandinavian pattern during wintertime in the WMED, and with the Eastern Atlantic and the East Atlantic–Western Russian in the EMED. The overturning metric in density space captures well the Eastern Mediterranean Transient, that occurred during years 1992–1996. Finally, we explore the usefulness of overturning metric to detect and track water mass changes associated to shorter scale events, using as example the

Published
2023

3. Seasonal and interannual variability of Mediterranean Sea overturning circulation

Author

Sayol, Juan Manuel, Marcos, Marta, Garcia-Garcia, David, Vigo, Isabel, Universidad de Alicante. Departamento de Matemática Aplicada, and Geodesia por Satélites para la Observación de la Tierra y el Cambio Climático / Satellite Geodesy for Earth Observation and Climate Studies (SG)

Subjects
Interannual variability, Water mass transformation, Overturning circulation, Mediterranean sea, Seasonality, Deep convection
Abstract

The overturning streamfunction is a widely used metric to monitor ocean circulation changes in the North Atlantic Ocean. Analogously, it is known that an overturning circulation develops in the Mediterranean Sea, although substantially weaker and smaller than in the Atlantic. In this work we use monthly mean fields from a high-resolution ocean reanalysis (1/16◦ × 1/16◦) to explore seasonal and interannual variability of Mediterranean Sea overturning circulation in depth and water mass parameter spaces (potential density, potential temperature, salinity) from 1987 to 2018 (both included). Results show a clear single zonal clockwise transport cell in all three spaces that extends from the Strait of Gibraltar to the Levantine Basin, in which water masses tend to densify as they move eastward. This densification is mainly controlled by salinity in the Eastern Mediterranean basin (EMED), while in the Western Mediterranean (WMED) both salinity and potential temperature variations should be taken into account. In contrast, the meridional overturning transport, much more complex, is able to better capture smaller-scale variations since it responds faster to perturbations in the circulation. Seasonal variations in overturning transport are reflected in the size and strength of overturning cells in all spaces, being cells remarkably narrower in winter than in summer. Regarding interannual changes, we show that the meridional overturning transport in density space is significantly correlated with the North Atlantic Oscillation, the Mediterranean Oscillation Index and the Scandinavian pattern during wintertime in the WMED, and with the Eastern Atlantic and the East Atlantic-Western Russian in the EMED. The overturning metric in density space captures well the Eastern Mediterranean Transient, that occurred during years 1992–1996. Finally, we explore the usefulness of overturning metric to detect and track water mass changes associated to shorter scale events, using as example the strong deep convection events of years 2004–2006 in the Gulf of Lion, which marked the beginning of the Western Mediterranean Transition. J.-M. Sayol thanks the financial support by Generalitat Valenciana and the European Social Fund (ESF) through the APOSTD/2020/254 grant. Part of this research was performed during his visit to IMEDEA (UIB-CSIC), also funded by the APOSTD/2020/254 grant. D. García-García and I. Vigo are partially funded by Spanish Ministry of Science, Innovation and Universities grant number PID2021-122142OB-I00, and Generalitat Valenciana grant numbers PROMETEO/2021/030 and GVA-THINKINAZUL/2021/035.

Published
2023

4. Pathways of economically relevant demersal species in the Ibiza Channel from a Lagrangian backtracking approach

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Ecología, Sayol, Juan Manuel, Garcia-Garcia, David, Bordehore, Cesar, Vigo, Isabel, Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Ecología, Sayol, Juan Manuel, Garcia-Garcia, David, Bordehore, Cesar, and Vigo, Isabel

Abstract

This work studies the most probable spatial origin of demersal species that eventually reach the Ibiza Channel after a dispersion stage, a region where water masses with different characteristics choke. Demersal species are assumed to be in a planktonic stage in which they behave as passive particles, being only advected by the dominant ocean currents. To find the origin we have performed a set of backward Lagrangian simulations using a high-resolution model of currents. As a result, we obtain the preferred pathways of dispersion for demersal species. A careful analysis of pathways provides useful information on the spatiotemporal variability of demersal and their origin weeks ago before they reach the Ibiza Channel. This information is very valuable from a conservation standpoint to determine the key regions that should be protected as eggs and larvae exportation areas.

Published
2023

5. Spatio-temporal variability of mean wave energy flux in the Caribbean Sea

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Ministerio de Ciencia, Tecnología e Innovación (Colombia), CSIC-UIB - Instituto Mediterráneo de Estudios Avanzados (IMEDEA), Generalitat Valenciana, Orfila, Alejandro [0000-0002-1016-8726], Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Hernández Carrasco, Ismael, Cáceres-Euse, Alejandro, Restrepo, Juan C., Orfila, Alejandro, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Ministerio de Ciencia, Tecnología e Innovación (Colombia), CSIC-UIB - Instituto Mediterráneo de Estudios Avanzados (IMEDEA), Generalitat Valenciana, Orfila, Alejandro [0000-0002-1016-8726], Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Hernández Carrasco, Ismael, Cáceres-Euse, Alejandro, Restrepo, Juan C., and Orfila, Alejandro

Abstract

Mean wave energy flux (hereinafter WEF) is assessed in the Caribbean Sea from a 60-year (1958–2017) wave hindcast. We use a novel approach, based on neural networks, to identify coherent regions of WEF and their association with different climate patterns. This method allows for a better evaluation of the underlying dynamics behind seasonal and inter-annual WEF variability, including the effect induced by the latitudinal migration of the Intertropical Convergence Zone (ITCZ) and the influence of El Niño-Southern Oscillation (ENSO) events. Results show regional differences in WEF variability likely due to both intensification and migration of the ITCZ. WEF exhibits a strong semi-seasonal signal in areas of the continental shelf, with maxima reached in January and June, in agreement with the known sea surface temperature and sea-level pressure variability patterns. At larger scales, WEF shows a significant correlation with the Oceanic Niño Index (ONI, which is the primary index for tracking the ocean part of ENSO climate pattern), depicting positive values in the central and western sides of the basin and negative ones at the eastern side.

Published
2023

7. The Water Cycle of the Baltic Sea Region From GRACE/GRACE-FO Missions and ERA5 Data

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Boulahia, Ahmed Kamel, Garcia-Garcia, David, Vigo, Isabel, Trottini, Mario, Sayol, Juan Manuel, Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Boulahia, Ahmed Kamel, Garcia-Garcia, David, Vigo, Isabel, Trottini, Mario, and Sayol, Juan Manuel

Abstract

The water cycle of the Baltic Sea has been estimated from the Gravity Recovery and Climate Experiment (GRACE) and the GRACE Follow-On satellite time-variable gravity measurements, and precipitation and evaporation from ERA5 atmospheric reanalysis data for the periods 06/2002 to 06/2017 and 06/2018 to 11/2021. On average, the Baltic Sea evaporates 199 ± 3 km3/year, which is overcompensated with 256 ± 6 km3/year of precipitation and 476 ± 17 km3/year of water from land. This surplus of freshwater inflow produces a salty water net outflow from the Baltic Sea of 515 ± 27 km3/year, which increases to 668 ± 32 km3/year when the Kattegat and Skagerrak straits are included. In general, the balance among the fluxes is not reached instantaneously, and all of them present seasonal variability. The Baltic net outflow reaches an annual minimum of 221 ± 79 km3/year in September and a maximum of 814 ± 94 km3/year in May, mainly driven by the freshwater contribution from land. On the interannual scale, the annual mean of the Baltic net outflow can vary up to 470 km3/year from year to year. This variability is not directly related to the North Atlantic Oscillation during wintertime, although the latter is well correlated with net precipitation in both continental drainage basins and the Baltic Sea.

Published
2022

8. Is Greenhouse Rainwater Harvesting Enough to Satisfy the Water Demand of Indoor Crops? Application to the Bolivian Altiplano

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Sayol, Juan Manuel, Azeñas, Veriozka, Quezada, Carlos E., Vigo, Isabel, Benavides López, Jean-Paul, Universidad de Alicante. Departamento de Matemática Aplicada, Sayol, Juan Manuel, Azeñas, Veriozka, Quezada, Carlos E., Vigo, Isabel, and Benavides López, Jean-Paul

Abstract

As many other regions worldwide, the Bolivian Altiplano has to cope with water scarcity during dry periods, which in turn impacts on crop production as flood irrigation is overwhelmingly extended in the region. Since farming is the main income in the Altiplano for most families, the availability of greenhouses with water harvesting systems may represent a solution to warrant all year round production and food access. We study the daily satisfied water demand from a balance between rainfall collected by a greenhouse roof and water used for indoor crop irrigation assuming a tank is available for water storage. This balance is analyzed for 25 greenhouses spread over Batallas Municipality, close to Titicaca Lake, Bolivia, and for two case studies: (i) using irrigation data collected from farmers in the frame of a regional project; (ii) using theoretical daily water requirements assuming an intense greenhouse farming. Our evaluation includes a sensitivity analysis of relevant parameters, such as the influence of the time window of rainfall used in the simulation, the runoff coefficient, the roof surface area, the irrigation drip system, the irrigation frequency, the crop coefficient, the volume of water used for crop irrigation, and the capacity of the water tank. Overall, we find that the runoff coefficient has little impact on the satisfied demand rate, while all other parameters can play an important role depending on the greenhouse considered. Some greenhouses are able to irrigate crops normally during the wet season, while during the dry season, greenhouses are not able to satisfy more than 50% of the theoretical water requirements, even when large tanks are considered. Based on these results, we recommend the construction of greenhouses with a ground surface of <50 m2 attached to the largest available covered water tank. The information here provided can be used by stakeholders to decide their policies of investment in infrastructures in the Altiplano. Finally, the

Published
2022

9. Extension and application of an observation-based local climate index aimed to anticipate the impact of El Niño–Southern Oscillation events on Colombia

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Sayol, Juan Manuel, Vásquez, Laura M., Valencia, Jorge L., Linero-Cueto, Jean R., Garcia-Garcia, David, Vigo, Isabel, Orfila, Alejandro, Universidad de Alicante. Departamento de Matemática Aplicada, Sayol, Juan Manuel, Vásquez, Laura M., Valencia, Jorge L., Linero-Cueto, Jean R., Garcia-Garcia, David, Vigo, Isabel, and Orfila, Alejandro

Abstract

The Tumaco multivariate index (TMI) is a multidecadal monthly index constructed with unique time series of sea surface temperature, surface air temperature and rain measured at Tumaco bay, in the southern Pacific coast of Colombia, and available since 1961. In this work, this index is re-evaluated after the addition of in situ sea level data, and its properties for different standardization periods are compared against oceanic El Niño–Southern Oscillation (ENSO) and other derived indices. In particular, we propose a modified TMI, hereinafter referred as TMI4, whose potential to identify the expected sign and the amount of future variations of rain induced by ENSO events in Colombia is analysed for selected extreme episodes. Results indicate that after the inclusion of sea level data, TMI4 can anticipate the development of El Niño events before the ENSO 3 and some other sea surface temperature-based regional indices, although its predictability depends on the ENSO type (canonical or Modoki). The explanation is that sea level includes new information into TMI4 on the onset of El Niño events. In particular, the signal of intraseasonal sea level anomalies carried by downwelling Kelvin waves is detected at Tumaco tide-gauge. Moreover, the analysis of the differences, both in magnitude and spatial distribution, of rainfall anomalies induced by positive (El Niño) and negative (La Niña) ENSO events characterized by TMI4 are regionally presented. As a result, we find that TMI4 is especially suited for extensive northern and western areas of mainland Colombia. For completeness, in the appendix we briefly introduce the semi-automated implementation of TMI4, including a visual interface, which is currently being tested by personnel within the operational oceanography area at Centro de Investigaciones Oceanográficas e Hidrográficas del Pacífico (Dimar-CCCP).

Published
2022

10. Hydrological cycle of the Mediterranean-Black Sea system

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Garcia-Garcia, David, Vigo, Isabel, Trottini, Mario, Vargas Alemañy, Juan, Sayol, Juan Manuel, Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Garcia-Garcia, David, Vigo, Isabel, Trottini, Mario, Vargas Alemañy, Juan, and Sayol, Juan Manuel

Abstract

The Mediterranean-Black Sea system consists of two semi-enclosed basins connected by the Turkish Straits. In turn, the Mediterranean Sea is connected to the Atlantic Ocean through the narrow Strait of Gibraltar. The hydrological cycle of the system is driven by fresh water exchanges between the atmosphere, continents and oceans, and by salty water mass exchange among the ocean basins. Monitoring such water fluxes, especially its time evolution, is essential to understand the water cycle in the region, which is very sensitive to global climate changes and influences the variability of the Atlantic Meridional Overturning Circulation (AMOC), which in turn affects the global climate. In this study, we have estimated the hydrological cycle of the Mediterranean-Black Sea system from the time-variable gravity observations performed by the Gravity Recovery and Climate Experiment (GRACE) and GRACE Follow-On satellites, and precipitation and evaporation from ERA5 atmospheric reanalysis data for the period 2002–2020. In the Black Sea, rivers introduce an average water volume of 391 ± 12 km3/year, one third of which escape through the atmosphere and two thirds go to the Mediterranean Sea. In the latter, 1787 ± 23 km3/year are lost via net evaporation. The rivers runoff (502 ± 27 km3/year), and the inflow of Atlantic waters (1020 ± 56 km3/year; 0.0323 ± 0.0018 Sv), finally restore the Mediterranean water budget. The balance is not reached instantaneously, and this delay introduces a seasonal variability in all the fluxes. In particular, the net water flux from the Atlantic Ocean increases up to 2660 ± 111 km3/year in August/September, and reverses to − 407 ± 140 km3/year in April/May. On top of the climatology, the mean annual Atlantic water flux varies significantly between 706 and 1262 km3/year.

Published
2022

12. Mesoscale eddy variability in the Caribbean Sea

Author

Conferencia de Rectores de las Universidades Españolas, Consejo Superior de Investigaciones Científicas (España), Generalitat Valenciana, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Fundación Iberostar, Université de Toulon, Corporación Centro de Excelencia en Ciencias Marinas (Colombia), López Alzate, Margarita, Sayol, Juan Manuel, Hernández Carrasco, Ismael, Osorio, Andrés F., Mason, Evan, Orfila, Alejandro, Conferencia de Rectores de las Universidades Españolas, Consejo Superior de Investigaciones Científicas (España), Generalitat Valenciana, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Fundación Iberostar, Université de Toulon, Corporación Centro de Excelencia en Ciencias Marinas (Colombia), López Alzate, Margarita, Sayol, Juan Manuel, Hernández Carrasco, Ismael, Osorio, Andrés F., Mason, Evan, and Orfila, Alejandro

Abstract

The spatial distribution, and the monthly and seasonal variability of mesoscale eddy observations derived from the AVISO eddy atlas are assessed in the Caribbean Sea during 1993–2019. The average lifetime for the whole set of eddies is 62 ± 37 days, mean amplitude of 7 ± 4 cm for cyclonic and 7 ± 4 cm for anticyclonic and mean radius of 100 ± 31 km for cyclonic and 108 ± 32 km for anticyclonic. Cyclonic eddies are on average more nonlinear than anticyclonic ones. The spatio-temporal variability in the number of eddy observations is evaluated against the Mean Eddy Kinetic Energy (MEKE) derived from geostrophic currents as well as from seasonal winds. Spatial distribution of eddy observations is correlated with MEKE while the migration of the intertropical convergence zone explains the advection of eddies towards the southern part of the basin.

Published
2022

13. Extension and application of an observation-based local climate index aimed to anticipate the impact of El Niño-Southern Oscillation events on Colombia

Author

Centro de Investigaciones Oceanográficas e Hidrográficas del Pacífico (Colombia), Generalitat Valenciana, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Sayol, Juan Manuel, Vásquez, Laura M., Valencia, Jorge L., Linero, Jean L., García, David, Vigo, Isabel, Orfila, Alejandro, Centro de Investigaciones Oceanográficas e Hidrográficas del Pacífico (Colombia), Generalitat Valenciana, European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Sayol, Juan Manuel, Vásquez, Laura M., Valencia, Jorge L., Linero, Jean L., García, David, Vigo, Isabel, and Orfila, Alejandro

Abstract

The Tumaco multivariate index (TMI) is a multidecadal monthly index constructed with unique time series of sea surface temperature, surface air temperature and rain measured at Tumaco bay, in the southern Pacific coast of Colombia, and available since 1961. In this work, this index is re-evaluated after the addition of in situ sea level data, and its properties for different standardization periods are compared against oceanic El Niño–Southern Oscillation (ENSO) and other derived indices. In particular, we propose a modified TMI, hereinafter referred as TMI4, whose potential to identify the expected sign and the amount of future variations of rain induced by ENSO events in Colombia is analysed for selected extreme episodes. Results indicate that after the inclusion of sea level data, TMI4 can anticipate the development of El Niño events before the ENSO 3 and some other sea surface temperature-based regional indices, although its predictability depends on the ENSO type (canonical or Modoki). The explanation is that sea level includes new information into TMI4 on the onset of El Niño events. In particular, the signal of intraseasonal sea level anomalies carried by downwelling Kelvin waves is detected at Tumaco tide-gauge. Moreover, the analysis of the differences, both in magnitude and spatial distribution, of rainfall anomalies induced by positive (El Niño) and negative (La Niña) ENSO events characterized by TMI4 are regionally presented. As a result, we find that TMI4 is especially suited for extensive northern and western areas of mainland Colombia. For completeness, in the appendix we briefly introduce the semi-automated implementation of TMI4, including a visual interface, which is currently being tested by personnel within the operational oceanography area at Centro de Investigaciones Oceanográficas e Hidrográficas del Pacífico (Dimar-CCCP).

Published
2022

14. Mesoscale eddy variability in the Caribbean Sea

Author

Universidad de Alicante. Departamento de Matemática Aplicada, López-Álzate, Margarita E., Sayol, Juan Manuel, Hernández-Carrasco, Ismael, Osorio, Andrés F., Mason, Evan, Orfila, Alejandro, Universidad de Alicante. Departamento de Matemática Aplicada, López-Álzate, Margarita E., Sayol, Juan Manuel, Hernández-Carrasco, Ismael, Osorio, Andrés F., Mason, Evan, and Orfila, Alejandro

Abstract

The spatial distribution, and the monthly and seasonal variability of mesoscale eddy observations derived from the AVISO eddy atlas are assessed in the Caribbean Sea during 1993–2019. The average lifetime for the whole set of eddies is 62 ± 37 days, mean amplitude of 7 ± 4 cm for cyclonic and 7 ± 4 cm for anticyclonic and mean radius of 100 ± 31 km for cyclonic and 108 ± 32 km for anticyclonic. Cyclonic eddies are on average more nonlinear than anticyclonic ones. The spatio-temporal variability in the number of eddy observations is evaluated against the Mean Eddy Kinetic Energy (MEKE) derived from geostrophic currents as well as from seasonal winds. Spatial distribution of eddy observations is correlated with MEKE while the migration of the intertropical convergence zone explains the advection of eddies towards the southern part of the basin.

Published
2022

15. Spatio-temporal variability of mean wave energy flux in the Caribbean Sea

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Hernández-Carrasco, Ismael, Caceres-Euse, Alejandro, Restrepo, Juan C., Orfila, Alejandro, Universidad de Alicante. Departamento de Matemática Aplicada, Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Hernández-Carrasco, Ismael, Caceres-Euse, Alejandro, Restrepo, Juan C., and Orfila, Alejandro

Abstract

Mean wave energy flux (hereinafter WEF) is assessed in the Caribbean Sea from a 60-year (1958–2017) wave hindcast. We use a novel approach, based on neural networks, to identify coherent regions of WEF and their association with different climate patterns. This method allows for a better evaluation of the underlying dynamics behind seasonal and inter-annual WEF variability, including the effect induced by the latitudinal migration of the Intertropical Convergence Zone (ITCZ) and the influence of El Niño-Southern Oscillation (ENSO) events. Results show regional differences in WEF variability likely due to both intensification and migration of the ITCZ. WEF exhibits a strong semi-seasonal signal in areas of the continental shelf, with maxima reached in January and June, in agreement with the known sea surface temperature and sea-level pressure variability patterns. At larger scales, WEF shows a significant correlation with the Oceanic Niño Index (ONI, which is the primary index for tracking the ocean part of ENSO climate pattern), depicting positive values in the central and western sides of the basin and negative ones at the eastern side.

Published
2022

17. Seasonal and regional variations of sinking in the subpolar North Atlantic from a high-resolution ocean model

Author

Sayol, Juan Manuel, Dijkstra, Henk, Katsman, Caroline, Sub Physical Oceanography, Sub Dynamics Meteorology, Marine and Atmospheric Research, Sub Physical Oceanography, Sub Dynamics Meteorology, and Marine and Atmospheric Research

Subjects
lcsh:GE1-350, 010504 meteorology & atmospheric sciences, 010505 oceanography, Palaeontology, Equator, lcsh:Geography. Anthropology. Recreation, Magnitude (mathematics), Oceanography, Spatial distribution, 01 natural sciences, Boundary current, Eddy, lcsh:G, Spatial variability, Bathymetry, Submarine pipeline, Geology, lcsh:Environmental sciences, 0105 earth and related environmental sciences
Abstract

Previous studies have indicated that most of the net sinking associated with the downward branch of the Atlantic Meridional Overturning Circulation (AMOC) must occur near the subpolar North Atlantic boundaries. In this work we have used monthly mean fields of a high-resolution ocean model (0.1∘ at the Equator) to quantify this sinking. To this end we have calculated the Eulerian net vertical transport (W∑) from the modeled vertical velocities, its seasonal variability, and its spatial distribution under repeated climatological atmospheric forcing conditions. Based on this simulation, we find that for the whole subpolar North Atlantic W∑ peaks at about −14 Sv at a depth of 1139 m, matching both the mean depth and the magnitude of the meridional transport of the AMOC at 45∘ N. It displays a seasonal variability of around 10 Sv. Three sinking regimes are identified according to the characteristics of the accumulated W∑ with respect to the distance to the shelf: one within the first 90 km and onto the bathymetric slope at around the peak of the boundary current speed (regime I), the second between 90 and 250 km covering the remainder of the shelf where mesoscale eddies exchange properties (momentum, heat, mass) between the interior and the boundary (regime II), and the third at larger distances from the shelf where W∑ is mostly driven by the ocean's interior eddies (regime III). Regimes I and II accumulate ∼90 % of the total sinking and display smaller seasonal changes and spatial variability than regime III. We find that such a distinction in regimes is also useful to describe the characteristics of W∑ in marginal seas located far from the overflow areas, although the regime boundaries can shift a few tens of kilometers inshore or offshore depending on the bathymetric slope and shelf width of each marginal sea. The largest contributions to the sinking come from the Labrador Sea, the Newfoundland region, and the overflow regions. The magnitude, seasonal variability, and depth at which W∑ peaks vary for each region, thus revealing a complex picture of sinking in the subpolar North Atlantic.

Published
2019

18. Adaptación de las prácticas de Cálculo Numérico II al modelo de docencia semipresencial

Author

Vigo, Isabel, Vargas Alemañy, Juan, Ferrandiz, Jose M., Garcia-Garcia, David, Sayol, Juan Manuel, Martínez-Belda, María del Carmen, García-Castaño, Fernando, Trottini, Mario, Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Geodesia por Satélites para la Observación de la Tierra y el Cambio Climático / Satellite Geodesy for Earth Observation and Climate Studies (SG), Geodesia Espacial y Dinámica Espacial, Sistémica, Cibernética y Optimización (SCO), and Grupo de Investigación en Ciencias de la Actividad Física y el Deporte (GICAFD)

Subjects
Docencia semipresencial, Cálculo numérico, Estadística e Investigación Operativa, Software libre, Matemática Aplicada, Evaluación continua
Abstract

Con la implantación del modelo de docencia semipresencial debido a la pandemia COVID-19, en esta red se abordan dos cuestiones fundamentales para facilitar el aprendizaje en la asignatura de Cálculo Numérico II del grado de Matemáticas: i) la migración a un software libre y la adaptación a éste de los contenidos de prácticas de la asignatura; ii) el diseño de prácticas que faciliten el aprendizaje semipresencial y autónomo por parte del alumno. La asignatura trata sobre Métodos Numéricos para la resolución de Ecuaciones Diferenciales, es de carácter eminentemente práctico, y para que el alumno adquiera las competencias y capacidades necesarias es requisito que maneje software científico adecuado para la resolución de problemas y la programación de numerosos algoritmos. En cursos anteriores se ha venido utilizando, de forma exclusiva al principio y mixta los últimos años, un software comercial (Maple V) para el desarrollo de los contenidos prácticos, a través de la licencia de campus de la Universidad de Alicante. Basándonos en la experiencia y conocimientos previos del equipo se analizaron distintos programas de libre distribución, en particular Octave, Máxima y Python, resultando este último Python el más conveniente para cubrir los contenidos de las prácticas de la asignatura.

Published
2021

20. Adaptación de las prácticas de Cálculo Numérico II al modelo de docencia semipresencial

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Vigo, Isabel, Vargas Alemañy, Juan, Ferrandiz, Jose M., Garcia-Garcia, David, Sayol, Juan Manuel, Martínez-Belda, María del Carmen, García-Castaño, Fernando, Trottini, Mario, Universidad de Alicante. Departamento de Matemática Aplicada, Universidad de Alicante. Departamento de Matemáticas, Vigo, Isabel, Vargas Alemañy, Juan, Ferrandiz, Jose M., Garcia-Garcia, David, Sayol, Juan Manuel, Martínez-Belda, María del Carmen, García-Castaño, Fernando, and Trottini, Mario

Abstract

Con la implantación del modelo de docencia semipresencial debido a la pandemia COVID-19, en esta red se abordan dos cuestiones fundamentales para facilitar el aprendizaje en la asignatura de Cálculo Numérico II del grado de Matemáticas: i) la migración a un software libre y la adaptación a éste de los contenidos de prácticas de la asignatura; ii) el diseño de prácticas que faciliten el aprendizaje semipresencial y autónomo por parte del alumno. La asignatura trata sobre Métodos Numéricos para la resolución de Ecuaciones Diferenciales, es de carácter eminentemente práctico, y para que el alumno adquiera las competencias y capacidades necesarias es requisito que maneje software científico adecuado para la resolución de problemas y la programación de numerosos algoritmos. En cursos anteriores se ha venido utilizando, de forma exclusiva al principio y mixta los últimos años, un software comercial (Maple V) para el desarrollo de los contenidos prácticos, a través de la licencia de campus de la Universidad de Alicante. Basándonos en la experiencia y conocimientos previos del equipo se analizaron distintos programas de libre distribución, en particular Octave, Máxima y Python, resultando este último Python el más conveniente para cubrir los contenidos de las prácticas de la asignatura.

Published
2021

21. On the Impact of the Caribbean Counter Current in the Guajira Upwelling System

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Orfila, Alejandro, Urbano-Latorre, Claudia P., Sayol, Juan Manuel, Gonzalez-Montes, Stephanie, Caceres-Euse, Alejandro, Hernández-Carrasco, Ismael, Muñoz, Ángel G., Universidad de Alicante. Departamento de Matemática Aplicada, Orfila, Alejandro, Urbano-Latorre, Claudia P., Sayol, Juan Manuel, Gonzalez-Montes, Stephanie, Caceres-Euse, Alejandro, Hernández-Carrasco, Ismael, and Muñoz, Ángel G.

Abstract

The variability of La Guajira upwelling system, in the south-central Caribbean Sea, is strongly influenced by the intensity and location of the atmospheric Caribbean Low-Level Jet (CLLJ), a near-surface branch of the easterlies, as well as by the regional ocean circulation. During favorable conditions (i.e., strong easterlies blowing almost parallel to the coast), upwelling is enhanced and a large amount of primary productivity occurs in La Guajira area. In contrast, during relatively mild wind conditions, the CLLJ is misaligned to the coast and the Caribbean Counter Current (CCC, locally also known as the Darien Current), which forms as a branch from the Panama-Colombia Gyre, flows northeastward over the continental shelf advecting waters from the southwestern Caribbean basin toward La Guajira. The CCC has a clear signature at the surface layer that extends from the Darien Gulf toward La Guajira peninsula during mild wind periods, while disappears during the months of strong winds. The direction and the magnitude of the easterlies, and more specifically of the CLLJ, control the position and pathway of the CCC, which extends more than 900 km in the southern Caribbean Sea during May, June, August, September, and October. The high concentration of chlorophyll-a at the sea surface evidenced by satellite-based color images is semi-seasonally modulated by the CLLJ, which during its relaxation phase allows the irruption of the CCC toward the east up to La Guajira.

Published
2021

22. Direct and Indirect Pathways of Convected Water Masses and Their impacts on the Overturning Dynamics of the Labrador Sea

Author

Universidad de Alicante. Departamento de Matemática Aplicada, Georgiou, Sotiria, Ypma, Stefanie L., Brüggemann, Nils, Sayol, Juan Manuel, van der Boog, Carine G., Spence, Paul, Pietrzak, Julie D., Katsman, Caroline A., Universidad de Alicante. Departamento de Matemática Aplicada, Georgiou, Sotiria, Ypma, Stefanie L., Brüggemann, Nils, Sayol, Juan Manuel, van der Boog, Carine G., Spence, Paul, Pietrzak, Julie D., and Katsman, Caroline A.

Abstract

The dense waters formed by wintertime convection in the Labrador Sea play a key role in setting the properties of the deep Atlantic Ocean. To understand how variability in their production might affect the Atlantic Meridional Overturning Circulation (AMOC) variability, it is essential to determine pathways and associated timescales of their export. In this study, we analyze the trajectories of Argo floats and of Lagrangian particles launched at 53°N in the boundary current and traced backward in time in a high‐resolution model, to identify and quantify the importance of upstream pathways. We find that 85% of the transport carried by the particles at 53°N originates from Cape Farewell, and it is split between a direct route that follows the boundary current and an indirect route involving boundary‐interior exchanges. Although both routes contribute roughly equally to the maximum overturning, the indirect route governs its signal in denser layers. This indirect route has two branches: part of the convected water is exported rapidly on the Labrador side of the basin and part follows a longer route toward Greenland and is then carried with the boundary current. Export timescales of these two branches typically differ by 2.5 years. This study thus shows that boundary‐interior exchanges are important for the pathways and the properties of water masses arriving at 53°N. It reveals a complex three‐dimensional view of the convected water export, with implications for the arrival time of signals of variability therein at 53°N and thus for our understanding of the AMOC.

Published
2021

23. Direct and indirect pathways of convected water masses and their impacts on the overturning dynamics of the Labrador Sea

Author

Sub Physical Oceanography, Sub Dynamics Meteorology, Marine and Atmospheric Research, Georgiou, Sotiria, Ypma, Stefanie L., Brüggemann, Nils, Sayol, Juan-Manuel, Boog, Carine G. van der, Spence, Paul, Pietrzak, Julie D., Katsman, Caroline A., Sub Physical Oceanography, Sub Dynamics Meteorology, Marine and Atmospheric Research, Georgiou, Sotiria, Ypma, Stefanie L., Brüggemann, Nils, Sayol, Juan-Manuel, Boog, Carine G. van der, Spence, Paul, Pietrzak, Julie D., and Katsman, Caroline A.

Published
2021

24. On the Impact of the Caribbean Counter Current in the Guajira Upwelling System

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, European Commission, Govern de les Illes Balears, Université de Toulon, National Oceanic and Atmospheric Administration (US), Orfila, Alejandro, Urbano-Latorre, Claudia P., Sayol, Juan Manuel, Gonzalez-Montes, Stephanie, Cáceres-Euse, Alejandro, Hernández Carrasco, Ismael, Muñoz, Ángel G., Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat Valenciana, European Commission, Govern de les Illes Balears, Université de Toulon, National Oceanic and Atmospheric Administration (US), Orfila, Alejandro, Urbano-Latorre, Claudia P., Sayol, Juan Manuel, Gonzalez-Montes, Stephanie, Cáceres-Euse, Alejandro, Hernández Carrasco, Ismael, and Muñoz, Ángel G.

Abstract

The variability of La Guajira upwelling system, in the south-central Caribbean Sea, is strongly influenced by the intensity and location of the atmospheric Caribbean Low-Level Jet (CLLJ), a near-surface branch of the easterlies, as well as by the regional ocean circulation. During favorable conditions (i.e., strong easterlies blowing almost parallel to the coast), upwelling is enhanced and a large amount of primary productivity occurs in La Guajira area. In contrast, during relatively mild wind conditions, the CLLJ is misaligned to the coast and the Caribbean Counter Current (CCC, locally also known as the Darien Current), which forms as a branch from the Panama-Colombia Gyre, flows northeastward over the continental shelf advecting waters from the southwestern Caribbean basin toward La Guajira. The CCC has a clear signature at the surface layer that extends from the Darien Gulf toward La Guajira peninsula during mild wind periods, while disappears during the months of strong winds. The direction and the magnitude of the easterlies, and more specifically of the CLLJ, control the position and pathway of the CCC, which extends more than 900 km in the southern Caribbean Sea during May, June, August, September, and October. The high concentration of chlorophyll-a at the sea surface evidenced by satellite-based color images is semi-seasonally modulated by the CLLJ, which during its relaxation phase allows the irruption of the CCC toward the east up to La Guajira.

Published
2021

25. Seasonal & inter-annual variability of observed mesoscale eddies in the Caribben Sea

Author

Sayol, Juan Manuel, Orfila, Alejandro, López Alzate, Margarita, Sayol, Juan Manuel, Orfila, Alejandro, and López Alzate, Margarita

Abstract

Mesoscale eddies are ubiquitous features in the ocean that typically exhibit different prop-erties respect to their surroundings transporting passive tracers such as heat, salt andcarbon, and being relevant structures for the redistribution of energy and mass around allthe oceans. Eddies also play an important role in supplying nutrients to the shelf-slopeand to the upper layers where phytoplankton blooms may result. More than one half of thekinetic energy of the ocean dynamics is contained in the mesoscale, in which eddies arethe major player. In this Thesis the main statistical characteristics of mesoscale eddiesin the Caribbean Sea as well as the seasonal and inter-annual variability in the numberof eddy observations are studied. Since the Caribbean Sea is a semi enclosed basin, alarge part of the transport of nutrients and heat both in the vertical and in the horizontalare to a large extent the result of these structures. Key descriptors of mesoscale eddiesfrom satellite-based sea level anomalies (SLA) such as their lifetime, size and amplitudeare assessed for the period between 1993 and 2016. Moreover, the spatio-temporalvariability in the number of eddy observations is evaluated against the Sea Surface Tem-perature (SST), the surface wind curl and the main climatic index of variability in the area,El Niño Southern Oscillation (ENSO). The ENSO appears to have certain influence atthe inter-annual scale in the number of eddy observations. The above analysis is per-formed by combining a suite of statistical techniques such as the power spectral density,the coupled Singular Value Decomposition, Self-Organizing Maps and the wavelet trans-form. The more accurate knowledge of the main eddy properties, and the spatio-temporalvariability of the number of eddy observations provided in this thesis, contributes to under-stand better their formation and dissipation mechanisms and their preferred trajectories,who have crucial implications on the biogeochemical cycles as well

Published
2020

27. A modelling-based assessment of the imprint of storms on wind waves in the western Mediterranean Sea

Author

European Commission, Ministerio de Economía y Competitividad (España), Région Bretagne, Netherlands Organization for Scientific Research, Govern de les Illes Balears, Toomey, Tim, Sayol, Juan Manuel, Marcos, Marta, Jordá, Gabriel, Campins, Joan, European Commission, Ministerio de Economía y Competitividad (España), Région Bretagne, Netherlands Organization for Scientific Research, Govern de les Illes Balears, Toomey, Tim, Sayol, Juan Manuel, Marcos, Marta, Jordá, Gabriel, and Campins, Joan

Abstract

This study analyses the distribution of ocean wind waves in response to extratropical cyclones over the western Mediterranean Sea. To this end we use an ERA40-based database of atmospheric cyclones and a 3-hourly wind wave hindcast with high horizontal resolution (1/6°) based on an ERA40 downscaled forcing for the region of study. The imprint of winds on surface waves is evaluated through composites of modelled significant wave height, surface wind and wave peak period collocated under the storms. Results highlight an asymmetric pattern that depends on the translational speed and size of the cyclonic perturbations. Uncertainties of the composites are at most 10% at 95% confidence interval, with an average maximum perturbation of significant wave height near 2 m for those cyclones moving faster than 10 m/s.

Published
2019

28. Coastal impacts driven by sea-level rise in Cartagena de Indias

Author

Colciencias (Colombia), European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Netherlands Organization for Scientific Research, Govern de les Illes Balears, Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Marcos, Marta, Otero, Luis, Restrepo, Juan C., Hernández Carrasco, Ismael, Orfila, Alejandro, Colciencias (Colombia), European Commission, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Netherlands Organization for Scientific Research, Govern de les Illes Balears, Orejarena-Rondón, Andrés F., Sayol, Juan Manuel, Marcos, Marta, Otero, Luis, Restrepo, Juan C., Hernández Carrasco, Ismael, and Orfila, Alejandro

Abstract

This work analyzes the coastal impacts of the combined effect of extreme waves and sea level extremes, including surges and projected mean sea level rise in Bocagrande, Cartagena (Colombia). Extreme waves are assessed from a wave reanalysis that are propagated from deep waters to the beach considering the hydrodynamic processes and taking into account the interaction between waves and the coastal elevation within the study area. First, we consider present sea level, storm surges and waves affecting the area. Next, we analyze the effect of sea level rise according to a moderate (RCP4.5) climate change scenario for the 21st century (years 2025, 2050, 2075, and 2100). The most pessimistic scenario (year 2100) yields a percentage of flooded area of 97.2%, thus revealing the major threat that represents sea level rise for coastal areas in the Caribbean Sea.

Published
2019

32. Assessment of operational models in the Balearic Sea during a MEDESS-4MS experiment

Author

Govern de les Illes Balears, Consejo Superior de Investigaciones Científicas (España), European Commission, Escuela Naval de Cadetes Almirante Padilla, Capó, Esther, Orfila, Alejandro, Sayol, Juan Manuel, Juzà, Melanie, Sotillo, Marcos G., Conti, Daniel, Simarro, Gonzalo, Mourre, Baptiste, Gómez-Pujol, Lluís, Tintoré, Joaquín, Govern de les Illes Balears, Consejo Superior de Investigaciones Científicas (España), European Commission, Escuela Naval de Cadetes Almirante Padilla, Capó, Esther, Orfila, Alejandro, Sayol, Juan Manuel, Juzà, Melanie, Sotillo, Marcos G., Conti, Daniel, Simarro, Gonzalo, Mourre, Baptiste, Gómez-Pujol, Lluís, and Tintoré, Joaquín

Abstract

We study the capabilities of four existing Operational Forecasting Systems to forecast the trajectories of a hypothetical surface oil spill in a region of the Western Mediterranean Sea, the Balearic sub-basin. Two of the systems operate at basin scale (MyO-GLOBAL and MED-MFC) and the other two at regional scale (IBI-MFC and WMOP). The model assessment is first studied using synoptic fields of models and observations from ship in two different areas. The behavior of all systems shows similarities and differences with the real observations especially within the thermocline. Secondly, a Lagrangian assessment points out the large differences obtained between the different models in the different areas. Results indicate the importance of reproducing the sub-mesoscalar structures in the Balearic Sea in order to develop accurate and reliable tracking systems, a question that today is far from being achieved

Published
2016

33. An eddy tracking algorithm based on dynamical systems theory

Author

Govern de les Illes Balears, European Commission, Consejo Superior de Investigaciones Científicas (España), Conti, Daniel, Orfila, Alejandro, Mason, Evan, Sayol, Juan Manuel, Simarro, Gonzalo, Balle, Salvador, Govern de les Illes Balears, European Commission, Consejo Superior de Investigaciones Científicas (España), Conti, Daniel, Orfila, Alejandro, Mason, Evan, Sayol, Juan Manuel, Simarro, Gonzalo, and Balle, Salvador

Abstract

This work introduces a new method for ocean eddy detection that applies concepts from stationary dynamical systems theory. The method is composed of three steps: first, the centers of eddies are obtained from fixed points and their linear stability analysis; second, the size of the eddies is estimated from the vorticity between the eddy center and its neighboring fixed points, and, third, a tracking algorithm connects the different time frames. The tracking algorithm has been designed to avoid mismatching connections between eddies at different frames. Eddies are detected for the period between 1992 and 2012 using geostrophic velocities derived from AVISO altimetry and a new database is provided for the global ocean

Published
2016

34. The MEDESS-GIB database: tracking the Atlantic water inflow

Author

Consejo Superior de Investigaciones Científicas (España), Govern de les Illes Balears, European Commission, Sotillo, Marcos G., García-Ladona, Emilio, Orfila, Alejandro, Conti, Daniel, Jiménez Madrid, J. A., Capó, Esther, Pérez López, Fernando, Sayol, Juan Manuel, Tintoré, Joaquín, Álvarez-Fanjul, Enrique, Consejo Superior de Investigaciones Científicas (España), Govern de les Illes Balears, European Commission, Sotillo, Marcos G., García-Ladona, Emilio, Orfila, Alejandro, Conti, Daniel, Jiménez Madrid, J. A., Capó, Esther, Pérez López, Fernando, Sayol, Juan Manuel, Tintoré, Joaquín, and Álvarez-Fanjul, Enrique

Abstract

On 9 September 2014, an intensive drifter deployment was carried out in the Strait of Gibraltar. In the frame of the MEDESS-4MS Project (EU MED Program), the MEDESS-GIB experiment consisted of the deployment of 35 satellite tracked drifters, mostly of CODE-type, equipped with temperature sensor sampling at a rate of 30 min. Drifters were distributed along and on both sides of the Strait of Gibraltar. The MEDESS-GIB deployment plan was designed as to ensure quasi-synoptic spatial coverage. To this end, four boats covering an area of about 680NM2 in 6 h were coordinated. As far as these authors know, this experiment is the most important exercise in the area in terms of number of drifters released. Collected satellite-tracked data along drifter trajectories have been quality controlled and processed to build the presented MEDESS-GIB database. This paper reports the MEDESS-GIB data set that comprises drifter trajectories, derived surface currents and in situ SST measurements collected along the buoys tracks. This series of data is available through the PANGAEA (Data Publisher for Earth and Environmental Science) repository, with the following doi:10.1594/PANGAEA.853701. Likewise, the MEDESS-GIB data will be incorporated as part of the Copernicus Marine historical products. The MEDESS-GIB data set provides a complete Lagrangian view of the surface inflow of Atlantic waters through the Strait of Gibraltar and thus, very useful data for further studies on the surface circulation patterns in the Alboran Sea, and their links with one of the most energetic Mediterranean Sea flows: the Algerian Current

Published
2016

35. Wind induced energy-momentum distribution along the Ekman-Stokes layer. Application to the Western Mediterranean Sea climate

Author

Consejo Superior de Investigaciones Científicas (España), European Commission, Sayol, Juan Manuel, Orfila, Alejandro, Oey, Lie Yauw, Consejo Superior de Investigaciones Científicas (España), European Commission, Sayol, Juan Manuel, Orfila, Alejandro, and Oey, Lie Yauw

Abstract

Wind-wave interaction in the Western Mediterranean Sea is analyzed using 16 years of model data. The mass transport and energy distribution due to wind and waves are integrated through the Ekman-Stokes layer and then spatially and seasonally analyzed. The Stokes drift is estimated from an empirical parameterization accounting for local surface wind and the significant wave height. The impact of the Stokes drift depends on wind variability at the ocean surface and also on the geographical configuration of the basin. The Western Mediterranean Sea has on average a wind energy input two times higher in winter than in summer, and the Stokes-Ekman mass transport interaction term contributes approximately 10-15% of the total wind induced transport, but at some locations the contribution is as much as 40% or more.

Published
2016

36. Sea surface transport in the Western Mediterranean Sea : A Lagrangian perspective

Author

Sayol, Juan Manuel, Orfila, Alejandro, Simarro, Gonzalo, López, Cristóbal, Renault, Lionel, Galán, Álvaro, Conti, Daniel, European Commission, Consejo Superior de Investigaciones Científicas (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), and Govern de les Illes Balears

Subjects
Physics::Atmospheric and Oceanic Physics
Abstract

We study the sea surface transport in the Western Mediterranean Sea from a Lagrangian point of view, in particular the Alboran and the North-Western subbasins. The study is carried out through the analysis of 3 years of surface velocity model data through Finite Size Lyapunov Exponents, Residence Time, and virtual particle trajectories complementing the classical Eulerian approach. The spatiotemporal variability of the main transport processes is inferred from the Empirical Orthogonal Function modes of the Lyapunov Exponents, being the most relevant modes discussed and physically interpreted. Results indicate that some of the variability in the surface transport patterns in the Western Mediterranean can be explained by specific modes which provide an indication of connectivity among subbasins, like the inflow of Atlantic waters through the Ibiza Channel (JGR), J.M.S. is supported by the PhD CSIC-JAE program cofunded by the European Social Fund (ESF). G.S. is supported by the Spanish government through the “Ramón y Cajal” program. Authors would like to thank financial support from MED Projects TOSCA (G-MED09-425) and MEDESS-4MS funded by FEDER Funds. The authors also thank financial support from MICINN through Project 289 445 CGL2011-22964. Authors strongly thank the Government of the Balearic Islands and FEDER through the “Grups Competitius” program. C.L. acknowledges Spanish MINECO and FEDER through project ESCOLA (CTM2012-39025-C02-01).

Published
2013

37. The MEDESS-GIB database: tracking the Atlantic water inflow

Author

Sotillo, Marcos García, primary, Garcia-Ladona, Emilio, additional, Orfila, Alejandro, additional, Rodríguez-Rubio, Pablo, additional, Maraver, José Cristobal, additional, Conti, Daniel, additional, Padorno, Elena, additional, Jiménez, José Antonio, additional, Capó, Este, additional, Pérez, Fernando, additional, Sayol, Juan Manuel, additional, de los Santos, Francisco Javier, additional, Amo, Arancha, additional, Rietz, Ana, additional, Troupin, Charles, additional, Tintore, Joaquín, additional, and Álvarez-Fanjul, Enrique, additional

Published
2016
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38. Empirical forecasting of HF-radar velocity using genetic algorithms

Author

Orfila, Alejandro, Molcard, Anne, Sayol, Juan Manuel, Marmain, Julien, Bellomo, Lucio, Quentin, Celine, Barbin, Yves, Orfila, Alejandro, Molcard, Anne, Sayol, Juan Manuel, Marmain, Julien, Bellomo, Lucio, Quentin, Celine, and Barbin, Yves

Abstract

© 1980-2012 IEEE. We present a coastal ocean current forecasting system using exclusively past observations of a high-frequency radar (HF-Radar). The forecast is made by developing a new approach based on physical and mathematical results of the nonlinear dynamical systems theory that allows to obtain a predictive equation for the currents. Using radial velocities from two HF-Radar stations, the spatiotemporal variability of the fields is first decomposed using the empirical orthogonal functions. The amplitudes of the most relevant modes representing their temporal evolution are then approximated with functions obtained through a genetic algorithm. These functions will be then combined to obtain the hourly currents at the area for the next 36 h. The results indicate that after 4 h and for a horizon of 24 h, the computed predictions provide more accurate current fields than the latest available field (i.e., persistent field).

Published
2015

39. Toward an integrated HF radar network in the Mediterranean sea to improve search and rescue and oil spill response: The TOSCA project experience

Author

European Commission, Bellomo, Lucio, Lana, Arancha, Sayol, Juan Manuel, Orfila, Alejandro, Tintoré, Joaquín, Zervakis, Vassilis, European Commission, Bellomo, Lucio, Lana, Arancha, Sayol, Juan Manuel, Orfila, Alejandro, Tintoré, Joaquín, and Zervakis, Vassilis

Abstract

High-frequency (HF) coastal radars measure current velocity at the ocean surface with a 30-100 km range and 1-3 km resolution, every 0.25-1 h. HF radars are well suited to many applications, such as search and rescue (SaR), oil-spill mitigation and ecosystem management. Here we present a first organized core of 12 HF radars installed in five sites in four countries (Greece, Italy, France and Spain) within the European MED project, the Tracking Oil Spill and Coastal Awareness (TOSCA) network. Dedicated experiments tested radar capabilities to estimate transport driven by currents, which is the key feature for all the above applications. Experiments involved the deployment of drifters, i.e., floating buoys, acting as proxies for substances passively advected by currents. Using HF radars the search range is reduced by a factor of 1.6 to 5.3 after 24 h. The paper also underlines the importance of sharing common tools for HF radar data processing and the need to mitigate radio frequency interference. The effort can be regarded as an initial step toward the creation of a Mediterranean or European HF radar network, crucial for any European integrated ocean observing system (IOOS).

Published
2015

41. Las grandes infraestructuras de investigación, motor de conocimiento, de transferencia de productos tecnológicos y de tecnologías de gestión para el sector público y privado

Author

Tintoré, Joaquín, Vizoso, Guillermo, Casas, Benjamín, Renault, Lionel, Garau, Bartolomé, Ruiz, Simón, Heslop, Emma, Torner, Marc, Cusí, Simó, Martínez-Ledesma, Miquel, Pascual, Ananda, Escudier, Romain, Orfila, Alejandro, Sayol, Juan Manuel, Gómez-Pujol, Lluís, Álvarez-Díaz, Alberto, Diedrich, Amy, Balaguer, Pau, Espejo, Sandra, Gómara, Sonia, Sebastian, Kristian, Brunet, Jeroni, LLodrà, Josep, Lora, Sebastián, Lizarán, Irene, Vidal, E., Cañelles, B., Ponce-de-León, Sonia, and Castilla, Carlos

Abstract

Trabajo presentado en ForoTec2011, III Foro Tecnológico de las Islas Baleares, celebrado el 24 y 25 de noviembre de 2011 en Palma de Mallorca (España), y organizado por la Dirección General de Universidades, Investigación y Transferencia del Conocimiento del Govern de las Illes Balears, la Universitat de les Illes Balears y el Instituto de Innovación Empresarial de les Illes Balears

Published
2011

42. High resolution altimeter gridded fields for coastal and regional studies: applications in the Western Mediterranean

Author

Escudier, Romain, Pascual, Ananda, Bouffard, Jérôme, Sayol, Juan Manuel, and Orfila, Alejandro

Abstract

Previousstudies(Pascualetal.2006)haveshownthatthemergingofmultiplealtimetermissionsprovideimproveddescriptionofthemesoscalevariabilitybuttheyhavealsopointedouttatthepresentconfigurationstilllacksofenoughresolutionforcorrectlysamplingregionalandcoastalfeatures.Inthiscontext,wedevelopandtestalternativemethodstogeneratehighresolutionaltimetermapsbyusingatwostepmethodinwhichsmallerscalesareaddedclosetohealtimetertracks.

Published
2011

43. Marine and Coastal Research Infrastructures: drive knowledge increase, transfer of technological products and managementtechnologies for the public and private sector

Author

Tintoré, Joaquín, Vizoso, Guillermo, Casas, Benjamín, Garau, Bartolomé, Ruiz, Simón, Heslop, Emma, Martínez-Ledesma, Miquel, Pascual, Ananda, Orfila, Alejandro, Sayol, Juan Manuel, Gómez-Pujol, Lluís, Balaguer, Pau, LLodrà, Josep, Castilla, Juan Carlos, Lizarán, Irene, Vidal-Vijande, Enrique, Cañellas, Bartomeu, and Ponce-de-León, Sonia

Abstract

Autores: Tintoré, Joaquín ... [et al.]

Published
2011

44. SOCIB: the impact of new marine infrastructures in understanding and forecasting the coastal oceans: some examples from the Balearic Islands in the Mediterranean Sea

Author

Tintoré, Joaquín, Vizoso, Guillermo, Casas, Benjamín, Renault, Lionel, Garau, Bartolomé, Ruiz, Simón, Heslop, Emma, Torner, Marc, Cusí, Simó, Martínez-Ledesma, Miquel, Pascual, Ananda, Escudier, Romain, Orfila, Alejandro, Sayol, Juan Manuel, Gómez-Pujol, Lluís, Álvarez-Ellacuria, Amaya, Diedrich, Amy, Espejo, Sandra, Gómara, Sonia, Sebastian, Kristian, Brunet, Jeroni, LLodrà, Josep, Lora, Sebastián, Castilla, Juan Carlos, Lizarán, Irene, Vidal-Vijande, Enrique, Cañellas, Bartomeu, and Ponce-de-León, Sonia

Abstract

New monitoring technologies are being progressively implemented in coastal ocean observatories. As an example, gliders allow high resolution sampling, showing the existence of new features, such as submesoscale eddies with intense vertical motions that significantly affect upper ocean biogeochemical exchanges, an issue of worldwide relevance in a climate change context. SOCIB, is one of such systems, a new facility of facilities (covering from the coast to the open sea, and including among others a nearshore beach monitoring facility, HF radar, gliders and AUV’s, moorings, satellite, drifters and ARGO profilers, modelling), a scientific and technological infrastructure which is providing free, open, quality controlled and timely streams of oceanographic and coastal data and also modelling services. SOCIB takes profit of the strategic position of the Balearic Island at the Atlantic/Mediterranean transition area, one of the ‘hot spots’ of biodiversity in the world’s oceans. As an example of on-going SOCIB operations, since January 2011 sustained glider operations are in place in the Ibiza and Mallorca channels. The data centre is the core of SOCIB. The data management system created for gliders is an example of the new informatics capabilities for real time definition of mission planning, including adaptive sampling and real time monitoring using a Web tool that allows quick visualization and download. This type of new infrastructures, combined with new technologies and careful scientific analysis will allow new ways of international cooperation leading to major science breakthroughs in the very near future and new ways of science based coastal and ocean management.

Published
2011

45. A Lagrangian model for tracking surface spills and SaR operations in the ocean

Author

Sayol, Juan Manuel, Orfila, Alejandro, Simarro, Gonzalo, Conti, Daniel, Renault, Lionel, Molcard, Anne, Sayol, Juan Manuel, Orfila, Alejandro, Simarro, Gonzalo, Conti, Daniel, Renault, Lionel, and Molcard, Anne

Abstract

An operational model for tracking surface objects in the ocean is presented. Contrary to most of traditional Lagrangian Particle Tracking Algorithms, the presented approach computes the probability density function from the final position of a set of neutrally buoyant particles deployed in the flow providing the area of accumulated probability. The model departs from daily predictions of ocean surface currents, winds and waves provided by an Operational Forecasting System, and integrates the Eulerian velocities to obtain the trajectory of each particle forward in time. A random walk term is added to simulate numerical diffusivity. Several tests are performed in order to determine the optimal numerical scheme as well as the computational time step. To show the performance of the model we simulate the trajectories of a set of SVP-drifters deployed in the Balearic Sea. For these experiments, the final position of the drifters laid within the modeled contour of 50% of accumulated probability for the first 24h forecast. © 2013 Elsevier Ltd.

Published
2014

46. Recent improvements in mesoscale characterization of the western mediterranean sea: Synergy between satellite altimetry and other observational approaches

Author

Pascual, Ananda, Bouffard, Jérôme, Ruiz, Simón, Buongiorno Nardelli, Bruno, Vidal-Vijande, Enrique, Escudier, Romain, Sayol, Juan Manuel, Orfila, Alejandro, Pascual, Ananda, Bouffard, Jérôme, Ruiz, Simón, Buongiorno Nardelli, Bruno, Vidal-Vijande, Enrique, Escudier, Romain, Sayol, Juan Manuel, and Orfila, Alejandro

Abstract

Satellite altimetry is a key component of the global observing system and plays a major role in the study of the mesoscale processes that drive most of the ocean circulation variability at middle and high latitudes. However, satellite altimetry alone provides only surface information at a limited spatio-temporal resolution. To address these limitations and to better describe the mesoscale three-dimensional variability, it is necessary to complement altimetry data with additional remote and in situ measurements. This study provides an update of the recent advances in the study of the mesoscale variability using a combination of altimetry and other independent observations, with an emphasis on the results obtained for the western Mediterranean Sea. The circulation in this area is complex because of the presence of multiple interacting scales, including basin-scale, sub-basin-scale and mesoscale structures. Thus, characterizing these processes requires high-resolution observations and multi-sensor approaches. Accordingly, multi-platform experiments and analyses have been designed and undertaken in the different sub-basins of the western Mediterranean Sea. These studies have demonstrated the advantages of synergetic approaches that use a combination of observation techniques and are able to resolve different spatio-temporal scales with the aim of better understanding mesoscale dynamics.

Published
2013

47. The Impact of New Multi-platform Observing Systems in Science, Technology Development and Response to Society Needs; from Small to Large Scales

Author

Tintoré, Joaquín, Casas, Benjamín, Heslop, Emma, Vizoso, Guillermo, Pascual, Ananda, Orfila, Alejandro, Ruiz, Simón, Escudier, Romain, Martínez-Ledesma, Miquel, Lana, Arancha, Conti, Daniel, Sayol, Juan Manuel, Mason, Evan, Barceló-Llull, Bàrbara, Ruiz Segura, Javier, Ansorena, Luis, Manríquez, Mario, Tintoré, Joaquín, Casas, Benjamín, Heslop, Emma, Vizoso, Guillermo, Pascual, Ananda, Orfila, Alejandro, Ruiz, Simón, Escudier, Romain, Martínez-Ledesma, Miquel, Lana, Arancha, Conti, Daniel, Sayol, Juan Manuel, Mason, Evan, Barceló-Llull, Bàrbara, Ruiz Segura, Javier, Ansorena, Luis, and Manríquez, Mario

Abstract

New monitoring technologies are key components of ocean observatories, also called marine research infrastructures being implemented in the worlds oceans. As a result, new capabilities to characterise, in quasi-real time, the ocean state and its variability at small scales exist today. The challenge is the integration of theses multiplatform observing and forecasting systems to (a) monitor the variability at small scales (e.g. mesoscale/weeks) in order to (b) resolve the sub-basin/seasonal and inter-annual variability and by this (c) establish the decadal variability, understand the associated biases and correct them. The challenge is also to change focus and now monitor from small to large scales. SOCIB is leading this new small to large-scale multi-platform approach in ocean observation. Some examples are presented and discussed together with initial ideas on the optimal design of an observational network in the world oceans, responding to science priorities, technology development and response to strategic society needs

Published
2013

48. Sea surface transport in the Western Mediterranean Sea : A Lagrangian perspective

Author

European Commission, Consejo Superior de Investigaciones Científicas (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Govern de les Illes Balears, Sayol, Juan Manuel, Orfila, Alejandro, Simarro, Gonzalo, López, Cristóbal, Renault, Lionel, Galán, Álvaro, Conti, Daniel, European Commission, Consejo Superior de Investigaciones Científicas (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Govern de les Illes Balears, Sayol, Juan Manuel, Orfila, Alejandro, Simarro, Gonzalo, López, Cristóbal, Renault, Lionel, Galán, Álvaro, and Conti, Daniel

Abstract

We study the sea surface transport in the Western Mediterranean Sea from a Lagrangian point of view, in particular the Alboran and the North-Western subbasins. The study is carried out through the analysis of 3 years of surface velocity model data through Finite Size Lyapunov Exponents, Residence Time, and virtual particle trajectories complementing the classical Eulerian approach. The spatiotemporal variability of the main transport processes is inferred from the Empirical Orthogonal Function modes of the Lyapunov Exponents, being the most relevant modes discussed and physically interpreted. Results indicate that some of the variability in the surface transport patterns in the Western Mediterranean can be explained by specific modes which provide an indication of connectivity among subbasins, like the inflow of Atlantic waters through the Ibiza Channel (JGR)

Published
2013

49. SOCIB: The Balearic Islands Coastal Ocean Observing and Forecasting System Responding to Science, Technology and Society Needs

Author

Tintoré, Joaquín, Vizoso, Guillermo, Casas, Benjamín, Heslop, Emma, Pascual, Ananda, Orfila, Alejandro, Ruiz, Simón, Martínez-Ledesma, Miquel, Torner, Marc, Cusí, Simó, Diedrich, Amy, Balaguer, Pau, Gómez-Pujol, Lluís, Álvarez-Ellacuria, Amaya, Gómara, Sonia, Sebastian, Kristian, Lora, Sebastián, Beltrán, Joan Pau, Renault, Lionel, Juzà, Melanie, Álvarez-Berastegui, Diego, March, David, Garau, Bartolomé, Castilla, Carlos, Cañellas, Tomeu, Roque, David, Lizarán, Irene, Pitarch, Saul, Carrasco, Maria Antonia, Lana, Arancha, Mason, Evan, Escudier, Romain, Conti, Daniel, Sayol, Juan Manuel, Barceló-Llull, Bàrbara, Alemany, Francesc, Reglero, Patricia, Massutí, Enric, Vélez-Belchí, Pedro, Ruiz Segura, Javier, Oguz, Temel, Gómez, Marta, Álvarez-Fanjul, Enrique, Ansorena, Luis, Manríquez, Mario, Tintoré, Joaquín, Vizoso, Guillermo, Casas, Benjamín, Heslop, Emma, Pascual, Ananda, Orfila, Alejandro, Ruiz, Simón, Martínez-Ledesma, Miquel, Torner, Marc, Cusí, Simó, Diedrich, Amy, Balaguer, Pau, Gómez-Pujol, Lluís, Álvarez-Ellacuria, Amaya, Gómara, Sonia, Sebastian, Kristian, Lora, Sebastián, Beltrán, Joan Pau, Renault, Lionel, Juzà, Melanie, Álvarez-Berastegui, Diego, March, David, Garau, Bartolomé, Castilla, Carlos, Cañellas, Tomeu, Roque, David, Lizarán, Irene, Pitarch, Saul, Carrasco, Maria Antonia, Lana, Arancha, Mason, Evan, Escudier, Romain, Conti, Daniel, Sayol, Juan Manuel, Barceló-Llull, Bàrbara, Alemany, Francesc, Reglero, Patricia, Massutí, Enric, Vélez-Belchí, Pedro, Ruiz Segura, Javier, Oguz, Temel, Gómez, Marta, Álvarez-Fanjul, Enrique, Ansorena, Luis, and Manríquez, Mario

Abstract

New monitoring technologies are being progressively implemented in open-ocean and coastal observatories. The Mediterranean Sea is a well-known, reduced-scale ocean, an ideal natural laboratory to study global ocean processes, in particular those associated with meso- and submesoscale variability, interactions with mean flows and associated ecosystem response. SOCIB, the Balearic Islands Coastal Ocean Observing and Forecasting System, is one of such observatories, a multiplatform distributed and integrated system, a facility of facilities that extends from the nearshore to the open sea. SOCIB profits from the strategic position of the Balearic Islands at the Atlantic/Mediterranean transition area, one of the “hot spots” of biodiversity in the world’s oceans, and also of societal needs in islands where preservation of the environment is essential to assure both residents’ welfare and the competitiveness of the tourist sector. SOCIB is unique in that, from peer-reviewed excellence, its mission and objectives are science-, technology-, and society-driven. These types of new marine infrastructures, because of their critical mass and sustained funding, are presently establishing new ways of international cooperation, leading to major science breakthroughs, innovations in oceanographic instrumentation, and new ways of more efficient and science-based coastal and ocean management. We describe the major elements and structure of SOCIB and present some recent scientific, technological, and society-related results that are of relevance at a global ocean scale.

Published
2013

50. Mixing in coastal areas inferred from Lyapunov exponents: implications for transport

Author

Orfila, Alejandro, Galán, Álvaro, Simarro, Gonzalo, Sayol, Juan Manuel, Orfila, Alejandro, Galán, Álvaro, Simarro, Gonzalo, and Sayol, Juan Manuel

Abstract

We study the horizontal surface mixing and the transport induced by waves, using local Lyapunov exponents and high resolution data from numerical simulations of waves and currents. By choosing the proper spatial (temporal) parameters we compute the Finite Size and Finite Time Lyapunov exponents (FSLE and FTLE) focussing on the local stirring and diffusion inferred from the Lagrangian Coherent Structures (LCS). The methodology is tested by deploying a set of eight lagrangian drifters and studying the path followed against LCS derived under current field and waves and currents

Published
2012

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