Your search keyword '"Emilio García-Ladona"' showing total 16 results

1. Evolution of marine heatwaves in warming seas: the Mediterranean Sea case study

Author

Justino Martínez, Francesca Elisa Leonelli, Emilio García-Ladona, Joaquim Garrabou, Diego K. Kersting, Nathaniel Bensoussan, and Andrea Pisano

Subjects

marine heatwaves, Mediterranean Sea, sea surface temperature, extreme events, climate change, warming seas, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Anomalous warming of the upper ocean is increasingly being observed in the Mediterranean Sea. Extreme events, known as marine heatwaves (MHWs), can have a profound impact on marine ecosystems, and their correct detection and characterization are crucial to define future impact scenarios. Here, we analyze MHWs observed over the last 41 years (1982–2022) in the Mediterranean sea surface temperatures (SSTs). We show that the intensification in frequency, intensity, and duration of Mediterranean MHWs in recent years is mainly due to a shift in SST mean that occurred in the last two decades and largely reduced when analyzing detrended SST data. Detrending thus allows the use of a fixed climatology without overestimating MHW properties over time and distinguishes long-term warming (i.e., trend) from transient and abrupt SST changes. Analogous results are also found over a shorter temporal period, by analyzing 13 years (2007–2020) of in situ data collected at different depths (5 to 40 m) at Columbretes Islands. Additionally, the in situ analysis reveals that atmospheric summer heatwaves could affect a layer of 10 m in depth. Lastly, a catalogue of the major Mediterranean MHWs that have occurred since 1982 is presented. This catalogue evidences an exceptionally long-lasting and intense MHW, starting in May 2022 and persisting, at least, until the end of the year, resulting in the event with the highest cumulative intensity just after the well-known 2003 MHW event.

Published

2023

2. High-Resolution Ocean Currents from Sea Surface Temperature Observations: The Catalan Sea (Western Mediterranean)

Author

Jordi Isern-Fontanet, Emilio García-Ladona, Cristina González-Haro, Antonio Turiel, Miquel Rosell-Fieschi, Joan B. Company, and Antonio Padial

Subjects

sea surface temperature, quasi-geostrophic equations, mesoscale and submesoscale dynamics, ocean velocity determination, mediterranean sea, Science

Abstract

Current observations of ocean currents are mainly based on altimetric measurements of Sea Surface Heights (SSH), however the characteristics of the present-day constellation of altimeters are only capable to retrieve surface currents at scales larger than 50–70 km. By contrast, infrared and visible radiometers reach spatial resolutions thirty times higher than altimeters under cloud-free conditions. During the last years, it has been shown how the Surface Quasi-Geostrophic (SQG) approximation is able to reconstruct surface currents from measured Sea Surface Temperature (SST), but it has not been yet used to retrieve velocities at scales shorter than those provided by altimeters. In this study, the velocity field of ocean structures with characteristic lengths between 10 and 20 km has been derived from infrared SST using the SQG approach and compared to the velocities derived from the trajectories of Lagrangian drifters. Results show that the SQG approach is able to reconstruct the direction of the velocity field with observed RMS errors between 8 and 15 degrees and linear correlations between 0.85 and 0.99. The reconstruction of the modulus of the velocity is more problematic due to two limitations of the SQG approach: the need to calibrate the level of energy and the ageostrophic contributions. If drifter trajectories are used to calibrate velocities and the analysis is restricted to small Rossby numbers, the RMS error in the range of 10 to 16 cm/s and linear correlations can be as high as 0.97.

Published

2021

3. Parameter constraints of grazing response functions. Implications for phytoplankton bloom initiation

Author

Jordi Solé, Emilio García-Ladona, Jaume Piera, and Marta Estrada

Subjects

algal blooms, plankton, prey selection, grazing functions, multispecies model, mathematical constraints, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Phytoplankton blooms are events of production and accumulation of phytoplankton biomass that influence ecosystem dynamics and may also have effects on socio-economic activities. Among the biological factors that affect bloom dynamics, prey selection by zooplankton may play an important role. Here we consider the initial state of development of an algal bloom and analyse how a reduced grazing pressure can allow an algal species with a lower intrinsic growth rate than a competitor to become dominant. We use a simple model with two microalgal species and one zooplankton grazer to derive general relationships between phytoplankton growth and zooplankton grazing. These relationships are applied to two common grazing response functions in order to deduce the mathematical constraints that the parameters of these functions must obey to allow the dominance of the lower growth rate competitor. To assess the usefulness of the deduced relationships in a more general framework, the results are applied in the context of a multispecies ecosystem model (ERSEM).

Published

2016

4. Fine-scale water mass variability inside a narrow submarine canyon (the Besòs Canyon) in the NW Mediterranean Sea

Author

Jordi Solé, Mikhail Emelianov, Alexander Ostrovskii, Pere Puig, and Emilio García-Ladona

Subjects

fine-scale variability, submarine canyon, yo-yo like profiler, thermohaline structure, aw, wiw, liw, Aquaculture. Fisheries. Angling, SH1-691

Abstract

In this work we report short-term measurements of the thermohaline structure and velocity field inside a narrow submarine canyon by means of a yo-yo–like profiler. An Aqualog profiler was deployed inside the Besòs Canyon in the northwestern Mediterranean continental margin, providing a unique data set on the vertical evolution of water column characteristics with unprecedented fine-scale spatial and temporal resolution. The observations reported here show a very dynamic transient short-term response with a complex vertical structure not observed previously in any submarine canyon of this region. The vertical distribution of water masses was characteristic of the western Mediterranean basin with Atlantic waters (AW) at the surface, Western Intermediate waters (WIW) in the middle and Levantine Intermediate (LIW) waters below. Turner angle and empirical orthogonal functions show that double-diffusive and isopycnal mixing are the main dominant processes at small scales. The interfaces of the three layers exhibit highly vertical excursions in relatively short times. At the surface, deepening of AW was observed, associated with flow intensification events. Deeper in the water column, within the submarine canyon confinement, the WIW-LIW interface uplifts about 100-150 m. These motions are associated with relatively up- and down-canyon–enhanced current events (up to 15-20 cm s-1 at 500 and 800 m depths) along the canyon axis. The time scales of the vertical variability were concentrated in a broad band around the semi-diurnal and local inertial frequencies within the WIW and LIW layers.

Published

2016

5. Thirty years of research and development of Lagrangian buoys at the Institute of Marine Sciences

Author

Emilio García-Ladona, Joaquim Salvador, Pere Fernandez, Josep L. Pelegrí, Pedro Elósegui, Oriol Sánchez, Jose Antonio Jiménez Madrid, Fernando Pérez, Joaquim Ballabrera, Jordi Isern-Fontanet, Jordi Salat, and Jordi Font

Subjects

lagrangian drifters, sea surface measurements, salinity measurements, oil spills drifters, smos, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Since the mid-1980s, physical oceanographers at the Institute of Marine Sciences have been involved in the use of Lagrangian drifters as a complementary technology for their oceanographic research. As Lagrangian observations became more feasible, these researchers continued developing their own drifters in what was to be the seed of current technological activities at the Physical and Technological Oceanography Department. In this paper we overview the work done during the last 30 years with special focus on Lagrangian developments from the initial activities to the latest developments. In addition to basic oceanography research applications, Lagrangian technological developments include prototypes for measuring surface and subsurface ocean properties, for tracking purposes in search and rescue operations and pollution events, and for monitoring ice motion and thickness in the Arctic. The paper emphasizes original and unpublished technical aspects related to the latest developments.

Published

2016

6. Real-time Reconstruction of Surface Velocities from Satellite Observations in the Alboran Sea

Author

Jordi Isern-Fontanet, Emilio García-Ladona, José Antonio Jiménez-Madrid, Estrella Olmedo, Marcos García-Sotillo, Alejandro Orfila, and Antonio Turiel

Subjects

sea surface temperature, altimetry, surface quasi-geostrophic equations, surface currents, Science

Abstract

Surface currents in the Alboran Sea are characterized by a very fast evolution that is not well captured by altimetric maps due to sampling limitations. On the contrary, satellite infrared measurements provide high resolution synoptic images of the ocean at high temporal rate, allowing to capture the evolution of the flow. The capability of Surface Quasi-Geostrophic (SQG) dynamics to retrieve surface currents from thermal images was evaluated by comparing resulting velocities with in situ observations provided by surface drifters. A difficulty encountered comes from the lack of information about ocean salinity. We propose to exploit the strong relationship between salinity and temperature to identify water masses with distinctive salinity in satellite images and use this information to correct buoyancy. Once corrected, our results show that the SQG approach can retrieve ocean currents slightly better to that of near-real-time currents derived from altimetry in general, but much better in areas badly sampled by altimeters such as the area to the east of the Strait of Gibraltar. Although this area is far from the geostrophic equilibrium, the results show that the good sampling of infrared radiometers allows at least retrieving the direction of ocean currents in this area. The proposed approach can be used in other areas of the ocean for which water masses with distinctive salinity can be identified from satellite observations.

Published

2020

7. Atlas of surface currents in the Mediterranean and Canary-Iberian-Biscay waters

Author

Justino Martínez, Emilio García-Ladona, Joaquim Ballabrera-Poy, Jordi Isern-Fontanet, Sergio González-Motos, José Manuel Allegue, Cristina González-Haro, Ministerio de Economía y Competitividad (España), and Agencia Estatal de Investigación (España)

Subjects

Climatology, Currents, Atlantic, Canary, Atlas, Mediterranean, Oceanography, Biscay, Iberian

Abstract

24 pages, 10 figures, 3 tables, Sea surface currents probably are the most relevant essential ocean variable affecting diverse societal challenges concerning the marine environmental (as, for example, safe and efficient navigation, marine pollution and ecological connectivity). This work introduces a climatological Atlas (monthly resolution) of currents in the Mediterranean and Canary–Iberian–Biscay basins, based on today's state of the art reanalyses of the ocean circulation. The focus is on surface and subsurface reanalyses (here understood as z∼0.5 and z∼15 m, respectively) provided by the Copernicus Marine Environment Monitoring Service (CMEMS). The climatological values are computed from the median of the empirical probability density functions and the Atlas also includes the variance matrix and a bimodality index to have quantitative information on their variability. For both domains, the subsurface climatological fields are reasonably consistent with circulation schemes proposed in the previous literature but clearly improving the time and space resolution of the emerging patterns. For the Canary–Iberian–Biscay domain, the monthly climatological surface currents capture accurately the characteristic seasonal signal and its transition between a favourable and non-favourable upwelling regime. In the Mediterranean basin, differences between the near-surface and the 15 m velocity fields suggest a non-negligible role of winds over the variability of the uppermost ocean layer, specially in the Eastern Mediterranean basin. This is, up to our knowledge, the first time that such near-surface climatological patterns are computed. It has been found that, in general, the resulting patterns agree with surface drifter trajectories. In several regions, interannual variability foster bimodal and multimodal probability distributions. The Atlas has been conceived with the purpose of providing a first quantitative assessment on the surface circulation, thus being a complementary tool of real-time ocean forecasting systems. The Atlas is distributed following the FAIR principles and is accompanied with a digital version, with enhanced visualization capabilities for both research and assessment, This is a contribution made with support of COSMO project funded by the Spanish Ministry of Economy, Industry and Competitiveness (Code: CTM2016-79474-R) and MEDOSMOSIS (Code: 6MED20_4.1_SP_005) funded by the INTERREG-MED program. S. González-Motos was under contract of COSMO project. The support of MEDOSMOSIS has been crucial to extend the work to the whole Mediterranean basin., The authors would like to thank the institutional support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S)

Published

2022

8. Modelling the Renewable Transition: scenarios and pathways for a decarbonised future using pymedeas, a new open-source energy systems model

Author

Christian Kerschner, D. Álvarez, M. Theofilidi, Davide Natalini, Emilio García-Ladona, C. De Castro, J.M. Enríquez, Christian Kimmich, Lukas Eggler, Óscar Carpintero, Kuishuang Feng, R. Kaclíková, Martin Baumann, Jaime Nieto, Iñigo Capellán-Pérez, G. Parrado, K. Buchmann, Angel Nikolaev, Sara Falsini, P. Rodrigo, Fernando Frechoso, J.-D. De Lathouwer, N. Ferreras, Antonio García-Olivares, Ugo Bardi, Pedro L. Lomas, Laixiang Sun, Martin Černý, C. Ploiner, Joaquim Ballabrera-Poy, Ilaria Perissi, Roger Samsó, S. Papagianni, Jordi Solé, Margarita Mediavilla, Klaus Hubacek, Gianluca Martelloni, Luis Fernando Lobejón, Luis J. de Miguel, Aled Jones, L. Radulov, T. Madurell, Oleg Osychenko, Antonio Turiel, Carmen Duce, I. De Blas, European Commission, and Agencia Estatal de Investigación (España)

Subjects

DYNAMICS, Energy industries, Indústries energètiques, Computer science, 020209 energy, Climate change, 02 engineering and technology, Energy transition, 7. Clean energy, Energy costs, Combustibles fòssils, Biophysical constraints, Climate damage, Energy efficiency, GHG emissions, Raw materials, WORLD, BENEFITS, 0202 electrical engineering, electronic engineering, information engineering, EMPLOYMENT, EARTH, Canvi climàtic, Vulnerability (computing), VULNERABILITY, DAMAGE, Primeres matèries, CLIMATE-CHANGE, ECONOMICS, Renewable Energy, Sustainability and the Environment, business.industry, Fossil fuels, Fossil fuel, Environmental economics, Renewable energy, Climatic change, Work (electrical), 13. Climate action, Greenhouse gas, business, Efficient energy use

Abstract

13 pages, 7 figures, 4 tables, 3 appendixes, supplementary data https://doi.org/10.1016/j.rser.2020.110105, This paper reviews different approaches to modelling the energy transition towards a zero carbon economy. It identifies a number of limitations in current approaches such as a lack of consideration of out-of-equilibrium situations (like an energy transition) and non-linear feedbacks. To tackle those issues, the new open source integrated assessment model pymedeas is introduced, which allows the exploration of the design and planning of appropriate strategies and policies for decarbonizing the energy sector at World and EU level. The main novelty of the new open-source model is that it addresses the energy transition by considering biophysical limits, availability of raw materials, and climate change impacts. This paper showcases the model capabilities through several simulation experiments to explore alternative pathways for the renewable transition. In the selected scenarios of this work, future shortage of fossil fuels is found to be the most influential factor of the simulations system evolution. Changes in efficiency and climate change damages are also important determinants influencing model outcomes, This work was supported by the European Union through the funding of the MEDEAS project under the Horizon 2020 research and innovation programme [grant agreement No 69128], With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020

9. Limitaciones de los parámetros de las funciones de predación. Implicaciones para la iniciación de las proliferaciones de fitoplancton

Author

Marta Estrada, Jaume Piera, Jordi Solé, Emilio García-Ladona, Consejo Superior de Investigaciones Científicas (España), and European Commission

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Prey selection, Modelo multiespecie, SH1-691, Grazing functions, Aquatic Science, Biology, Oceanography, 01 natural sciences, Zooplankton, Algal bloom, lcsh:Aquaculture. Fisheries. Angling, Grazing pressure, mathematical constraints, Predation, Multispecies model, Plancton, Ecosystem model, Phytoplankton, Grazing, Aquaculture. Fisheries. Angling, Dominance (ecology), 0105 earth and related environmental sciences, lcsh:SH1-691, Proliferaciones algales, prey selection, Ecology, grazing functions, Limitaciones matemáticas, 010604 marine biology & hydrobiology, plankton, Funciones de predación, Plankton, algal blooms, Selección de la presa, Mathematical constraints, multispecies model, Algal blooms

Abstract

Special volume: Planet Ocean. Scientia Marina 80(Suppl.1) 2016.-- 9 pages, 2 figures, 4 tables, [EN] Phytoplankton blooms are events of production and accumulation of phytoplankton biomass that influence ecosystem dynamics and may also have effects on socio-economic activities. Among the biological factors that affect bloom dynamics, prey selection by zooplankton may play an important role. Here we consider the initial state of development of an algal bloom and analyse how a reduced grazing pressure can allow an algal species with a lower intrinsic growth rate than a competitor to become dominant. We use a simple model with two microalgal species and one zooplankton grazer to derive general relationships between phytoplankton growth and zooplankton grazing. These relationships are applied to two common grazing response functions in order to deduce the mathematical constraints that the parameters of these functions must obey to allow the dominance of the lower growth rate competitor. To assess the usefulness of the deduced relationships in a more general framework, the results are applied in the context of a multispecies ecosystem model (ERSEM), [ES] Las proliferaciones de fitoplancton son eventos de producción y acumulación de biomasa de fitoplancton que tienen una fuerte influencia tanto en la dinámica del ecosistema como en actividades socioeconómicas. Entre los factores biológicos que afectan la dinámica de las proliferaciones fitoplanctónicas, la selección de presas por el zooplancton puede jugar un papel importante. En este trabajo consideramos el estado inicial de desarrollo de una proliferación algal considerando que la presión de la predación puede permitir a una especie de algas con una menor tasa de crecimiento intrínseco que un competidor, ser dominante. Utilizamos un modelo sencillo con dos especies de microalgas y un herbívoro (zooplancton) para deducir relaciones generales entre el crecimiento del fitoplancton y la predación. Estas relaciones se aplican a dos funciones de respuesta de predación para deducir las limitaciones matemáticas que los parámetros de estas funciones deben obedecer. Para evaluar la utilidad de las relaciones deducidas en un marco más general, los resultados se aplican a un modelo de múltiples especies del ecosistema marino (ERSEM), We acknowledge the support from the BIOHAB (Biological Control of Harmful Algal Blooms in European Coastal waters) project funded by the European Commission Programme on Environment and Sustainable Development of Marine Ecosystems (ESD, FP-V, Key Action 3) under contract EVK3-CT-1999-00015. JS acknowledges a CSIC JAE-Doc contract co-funded by the FSE

Published

2016

10. Retrieval of eddy dynamics from SMOS sea surface salinity measurements in the Algerian Basin (Mediterranean Sea)

Author

Estrella Olmedo, Jordi Isern-Fontanet, Joaquim Ballabrera-Poy, Antonio Turiel, and Emilio García-Ladona

Subjects

010504 meteorology & atmospheric sciences, 010505 oceanography, Vorticity, Structural basin, 01 natural sciences, Salinity, Geophysics, Oceanography, Mediterranean sea, Eddy, Climatology, General Earth and Planetary Sciences, Satellite, Sea surface salinity, Geology, 0105 earth and related environmental sciences

Abstract

The circulation in the Algerian Basin is characterized by the presence of fresh-core eddies that propagate along the coast or at distances between 100 and 200 km from the coast. Enhancements in the processing of the Soil Moisture and Ocean Salinity (SMOS) data have allowed to produce, for the first time, satellite sea surface salinity (SSS) maps in the Mediterranean Sea that capture the signature of Algerian eddies. SMOS data can be used to track them for long periods of time, especially during winter. SMOS SSS maps are well correlated with in situ measurements although the former has a smaller dynamical range. Despite this limitation, SMOS SSS maps capture the key dynamics of Algerian eddies allowing to retrieve velocities from SSS with the correct sign of vorticity.

Published

2016

11. Retrieval and assimilation of velocities at the ocean surface

Author

Jordi Isern-Fontanet, Emilio García-Ladona, Joaquim Ballabrera-Poy, and Antonio Turiel

Subjects

Sea surface temperature, Geography, Meteorology, law, Climatology, Ocean current, Forecast skill, Assimilation (biology), Thermohaline circulation, Sea-surface height, Numerical models, Radar, law.invention

Abstract

Ocean currents play a key role in Earth’s climate, they are of major importance for navigation and human activities at sea, and impact almost all processes that take place in the ocean. Nevertheless, their observation and forecasting are still difficult. First, direct measurements of ocean currents are difficult to obtain synoptically at global scale. Consequently, it has been necessary to use Sea Surface Height and Sea Surface Temperature measurements and refer to dynamical frameworks to derive the velocity field. Second, the assimilation of the velocity field into numerical models of ocean circulation is difficult mainly due to lack of data. Recent experiments assimilating coastal-based radar data have shown that ocean currents will contribute to increase the forecast skill of surface currents, but require to be applied in multi-data assimilation approaches to allow better identification of the thermohaline structure of the ocean. In this paper we review the current knowledge on these fields and provide global and systematic view on the technologies to retrieve ocean velocities in the upper ocean and the available approaches to assimilate this information into ocean model.

Published

2017

12. How is the surface Atlantic water inflow through the Gibraltar Strait forecasted? A lagrangian validation of operational oceanographic services in the Alboran Sea and the Western Mediterranean

Author

J. A. Jiménez Madrid, Arancha Amo-Baladrón, Pablo Rodríguez-Rubio, Daniel Conti, E. Alvarez Fanjul, Emilio García-Ladona, Elena Padorno, Alejandro Orfila, Marcos García Sotillo, F.J. de los Santos, European Commission, and Govern de les Illes Balears

Subjects

0106 biological sciences, MEDESS4MS, 010504 meteorology & atmospheric sciences, Meteorology, Forecast skill, Inflow, Oceanography, 01 natural sciences, Ocean gyre, Operational oceanography, SAMPA, Ocean forecast products, 0105 earth and related environmental sciences, geography, Copernicus marine IBI MFC, geography.geographical_feature_category, Buoy, 010604 marine biology & hydrobiology, Model validation, Gibraltar Strait, Alboran Sea, Current (stream), Drifter, Climatology, Satellite, Geology, Downscaling

Abstract

Special issue Physical, chemical and biological observations and modelling of oil spills in the Mediterranean Sea.-- 18 pages, 15 figures, 3 tables, An exhaustive validation of some of the operational ocean forecast products available in the Gibraltar Strait and the Alboran Sea is here presented. The skill of two ocean model solutions (derived from the Eulerian ocean forecast systems, such as the regional CMEMS IBI and the high resolution PdE SAMPA) in reproducing the complex surface dynamics in the above areas is evaluated. To this aim, in-situ measurements from the MEDESS-GIB drifter buoy database (comprising the Lagrangian positions, derived velocities and SST values) are used as the observational reference and the temporal coverage for the validation is 3 months (September to December 2014). Two metrics, a Lagrangian separation distance and a skill score, have been applied to evaluate the performance of the modelling systems in reproducing the observed trajectories. Furthermore, the SST validation with in-situ data is carried out by means of validating the model solutions with L3 satellite SST products. The Copernicus regional IBI products are evaluated in an extended domain, beyond the Alboran Sea, and covering western Mediterranean waters. This analysis reveals some strengths of the presented regional solution (i.e. realistic values of the Atlantic Jet in the Strait of Gibraltar area, realistic simulation of the Algerian Current). However, some shortcomings are also identified, with the major one being related to the simulated geographical position and intensity of the Alboran Gyres, particularly the western one. This performance limitation affects the IBI-modelled surface circulation in the entire Alboran Sea. On the other hand, the SAMPA system shows a more accurate model performance and it realistically reproduces the observed surface circulation in the area. The results reflect the effectiveness of the dynamical downscaling performed through the SAMPA system with respect to the regional IBI solution (in which SAMPA is nested), providing an objective measure of the potential added values introduced by the SAMPA downscaling solution in the Alboran Sea, As the MEDESS-GIB experiment the model validation exercise presented here was performed as part of the MEDESS4MS Project activities (Project ref. 2S-MED11-01), supported by the European Regional Development Fund in the framework of the MED Programme. [...] D. Conti is currently receiving a PhD fellowship (FPI/1543/2013) granted by the Conselleria d׳Educació, Cultura i Universitats from the Government of the Balearic Islands co-financed by the European Social Fund (Grant no. FPI/1543/2013)

Published

2016

13. Currents in the Western Mediterranean Basin

Author

Emilio García-Ladona and Ministerio de Economía y Competitividad (España)

Subjects

Western Mediterranean, Mediterranean climate, Water circulation, Ocean current, Mooring, Mediterranean Basin, Circulation patterns, Deep water, Ocean currents, Oceanography, Circulation (fluid dynamics), Climatology, Geology

Abstract

7 pages, 1 figure, The main circulation patterns in the western Mediterranean are revisited and updated. The schemes are based on the previous literature, adapted and reviewed. The update concerns in particular the circulation at intermediate depths, exemplified by the Levantine Intermediate Water circulation, and includes deep water cascading and recent observations from drifting floats and mooring recordings, This is a contribution of FORMED projec (CGL2012-33989) funded by the Spanish Ministry of Economy and Competitiveness (MINECO)

Published

2016

14. Thirty years of research and development of Lagrangian buoys at the Institute of Marine Sciences

Author

Oriol Sánchez, Emilio García-Ladona, Pedro Elosegui, Josep Lluís Pelegrí, J. Ballabrera, Jordi Font, Joaquim Salvador, Jordi Isern-Fontanet, Pere Fernandez, José A. Jiménez Madrid, Fernando Rull Pérez, Jordi Salat, and Fundación General CSIC

Subjects

0106 biological sciences, flotadores Lagrangianos, Engineering, Flotadores lagrangianos, Salinity measurements, 010504 meteorology & atmospheric sciences, salinity measurements, Oil spills drifters, flotadores de vertidos de petróleo, Medidas de salinidad, SH1-691, medidas de la superficie del océano, Aquatic Science, Oceanography, 01 natural sciences, lcsh:Aquaculture. Fisheries. Angling, symbols.namesake, Medidas de la superficie del océano, Lagrangian drifters, Aquaculture. Fisheries. Angling, oil spills drifters, Search and rescue, 0105 earth and related environmental sciences, lcsh:SH1-691, business.industry, 010604 marine biology & hydrobiology, Sea surface measurements, The arctic, Drifter, symbols, sea surface measurements, business, medidas de salinidad, Lagrangian, SMOS, Flotadores de vertidos de petróleo

Abstract

Special volume: Planet Ocean. Scientia Marina 80(Suppl.1) 2016.-- 18 pages, 22 figures, 1 table, [EN] Since the mid-1980s, physical oceanographers at the Institute of Marine Sciences have been involved in the use of Lagrangian drifters as a complementary technology for their oceanographic research. As Lagrangian observations became more feasible, these researchers continued developing their own drifters in what was to be the seed of current technological activities at the Physical and Technological Oceanography Department. In this paper we overview the work done during the last 30 years with special focus on Lagrangian developments from the initial activities to the latest developments. In addition to basic oceanography research applications, Lagrangian technological developments include prototypes for measuring surface and subsurface ocean properties, for tracking purposes in search and rescue operations and pollution events, and for monitoring ice motion and thickness in the Arctic. The paper emphasizes original and unpublished technical aspects related to the latest development, [ES] Desde mediados de la década de los 80, los oceanógrafos físicos en el Instituto de Ciencias del Mar se involucraron en el uso de boyas Lagrangianas como una tecnología complementaria para su investigación oceanográfica. A medida que las observaciones Lagrangianas se volvieron más factibles, los investigadores continuaron desarrollando sus propios flotadores en lo que se convirtió en la semilla de las actuales actividades tecnológicas llevadas a cabo en el Departamento de Oceanografía Física y Tecnológica. En este artículo se presenta una visión general del trabajo realizado durante los últimos 30 años, con especial énfasis en el uso de flotadores a la deriva y desarrollos propios desde su inicio hasta las aplicaciones más recientes. Además de estudios básicos de investigación oceanográfica, los desarrollos tecnológicos llevados a cabo incluyen prototipos para medir las propiedades superficiales y sub-superficiales, para tareas de seguimiento en operaciones de búsqueda y rescate y eventos de contaminación marina o para monitorizar el grosor de la capa de hielo y su movimiento en el Ártico. En este trabajo se hace hincapié en aspectos técnicos originales e inéditos relacionados con los últimos desarrollos, These include MIDAS-4 (ESP2005-06823-C05-1), MIDAS-5 (ESP2007-65667-C04-1), MIDAS-6 (AYA2010-22062-C05-01), CANOA (CTM2005-00444/MAR), MOC-2 (CTM2008-06438-C02-01), TIC-MOC (CTM2011- 28867), the Malaspina project (CSD2008-00077) and project ACI2009-0977 of the Spanish National Programme of Internationalization of R+D. E. García-Ladona, J. Salvador, P. Fernández and J.A. Jiménez wish to thank the TOSCA (G-MED09-425) and MEDESS-4MS (MED 2S-MED11-01) projects (INTERREG-IV MED programme) for funding many activities related to the ICM-PK1 drifter development; J. A. Jiménez was under contract by both projects. Financial support from the Fundación General CSIC (Programa ComFuturo) is acknowledged

Published

2016

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

Author

José Cristobal Maraver, Juan Manuel Sayol, José Antonio Jiménez, Enrique Álvarez-Fanjul, Marcos García Sotillo, Francisco De los Santos, Joaquín Tintoré, Daniel Conti, Arancha Amo, Ana Rietz, Fernando Rull Pérez, Alejandro Orfila, Elena Padorno, Charles Troupin, Pablo Rodríguez-Rubio, Emilio García-Ladona, Este Capó, Consejo Superior de Investigaciones Científicas (España), Govern de les Illes Balears, and European Commission

Subjects

lcsh:GE1-350, Global Drifter Program, 010504 meteorology & atmospheric sciences, Database, Meteorology, 010505 oceanography, lcsh:QE1-996.5, Ocean current, Sampling (statistics), Inflow, computer.software_genre, 01 natural sciences, lcsh:Geology, Current (stream), Drifter, Oceanography, Mediterranean sea, General Earth and Planetary Sciences, Satellite, computer, lcsh:Environmental sciences, Geology, 0105 earth and related environmental sciences

Abstract

García Sotillo, Marcos ... et al.-- 9 pages, 5 figures, 2 tables, 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, The MEDESS-GIB experiment was performed as part of the MEDESS-4MS Project activities (Project ref. 2S-MED11-01), supported by the European Regional Development Fund in the framework of the MED Programme. D. Conti is currently a PhD fellowship (FPI/1543/2013) granted by the Conselleria d’Educació, Cultura i Universitats from the Government of the Balearic Islands co-financed by the European Social Fund. J. M. Sayol is thankful for the financial support of CSIC and FSE with the JAE-pre PhD scholarship program

Published

2016

16. Variabilidad de las masas de agua a pequeña escala en un cañón submarino (cañón del Besòs) en el NO del mar Mediterráneo

Author

Pere Puig, Emilio García-Ladona, Jordi Solé, Alexander G. Ostrovskii, and Mikhail Emelianov

Subjects

Water mass, 010504 meteorology & atmospheric sciences, SH1-691, Submarine canyon, Aquatic Science, Oceanography, 01 natural sciences, lcsh:Aquaculture. Fisheries. Angling, Water column, Mediterranean sea, thermohaline structure, Continental margin, liw, Aquaculture. Fisheries. Angling, estructura termohalina, wiw, 14. Life underwater, Geomorphology, 0105 earth and related environmental sciences, Canyon, lcsh:SH1-691, geography, yo-yo like profiler, geography.geographical_feature_category, Isopycnal, 010505 oceanography, cañón submarino, perfilador tipo yo-yo, fine-scale variability, submarine canyon, LIW, WIW, Thermohaline circulation, aw, AW, variabilidad de pequeña escala, Geology

Abstract

In this work we report short-term measurements of the thermohaline structure and velocity field inside a narrow submarine canyon by means of a yo-yo–like profiler. An Aqualog profiler was deployed inside the Besòs Canyon in the northwestern Mediterranean continental margin, providing a unique data set on the vertical evolution of water column characteristics with unprecedented fine-scale spatial and temporal resolution. The observations reported here show a very dynamic transient short-term response with a complex vertical structure not observed previously in any submarine canyon of this region. The vertical distribution of water masses was characteristic of the western Mediterranean basin with Atlantic waters (AW) at the surface, Western Intermediate waters (WIW) in the middle and Levantine Intermediate (LIW) waters below. Turner angle and empirical orthogonal functions show that double-diffusive and isopycnal mixing are the main dominant processes at small scales. The interfaces of the three layers exhibit highly vertical excursions in relatively short times. At the surface, deepening of AW was observed, associated with flow intensification events. Deeper in the water column, within the submarine canyon confinement, the WIW-LIW interface uplifts about 100-150 m. These motions are associated with relatively up- and down-canyon–enhanced current events (up to 15-20 cm s-1 at 500 and 800 m depths) along the canyon axis. The time scales of the vertical variability were concentrated in a broad band around the semi-diurnal and local inertial frequencies within the WIW and LIW layers. En este trabajo se muestran medidas a corto plazo de la estructura termohalina y del campo de velocidad dentro de un estrecho cañón submarino a través de un perfilador tipo yo-yo. Este perfilador Aqualog se desplegó dentro del cañón del Besòs en el noroeste del margen continental del Mediterráneo, proporcionando un conjunto de datos único sobre la evolución vertical de las características de la columna de agua, con una resolución espacial y temporal a escala fina sin precedentes. Las observaciones aportadas aquí muestran una respuesta de un periodo transitorio muy dinámico con una estructura vertical compleja no observada anteriormente en ningún cañón submarino de esta región. La distribución vertical de las masas de agua es característica de la cuenca mediterránea occidental con aguas del Atlántico (AW) en la superficie, aguas occidentales Intermedias (WIW) debajo de estas y aguas de Levante Intermedio (LIW) por debajo. Los ángulos de Turner calculados y sus EOFs muestran que la estabilidad a la difusión y mezcla isopicna son los principales procesos dominantes a escalas pequeñas. Las interfaces de las tres capas exhiben excursiones notablemente verticales en tiempos relativamente cortos. En la superficie, la profundización de AW se observó asociada a eventos de intensificación del flujo. A más profundidad en la columna de agua, dentro del régimen de cañón submarino, la interfase WIW-LIW se eleva unos 100-150 m. Tales movimientos se asocian al flujo de agua hacia arriba y hacia abajo del cañón (hasta 15-20 cm s-1 a 500 y 800 m de profundidad) a lo largo del eje del cañón. Las escalas de tiempo de variabilidad vertical aparecen concentradas en una amplia banda de frecuencias alrededor de los periodos inerciales semidiurnos y locales dentro de las capas WIW y LIW.

Published

2016