BUSCADOR RECOLECTA

ICEPOS-2 Cruise (29HE20050129) carried out on the Research Vessel Hespérides in 2005, Complex interactions in the pelagic ecosystem of the southern ocean. Unraveling the antica paradox (ICEPOS). Subproject: Light and nutrients as resources: microplankton responses and genesis of spatial heterogeneity in the southern ocean. four experiments were conducted encompassing moderately to highly productive waters along the Antarctic Peninsula

ATOS-1 Cruise (29HE20070627) carried out on the Research Vessel Hespérides in 2007, ATOS: Atmospheric inputs of organic carbon and pollutants to the polar ocean: rates, significance and outlook. The ATOS project aims at resolving the increasing role of air-sea exchanges of materials in the polar sea by (1) quantifying the atmospheric inputs of organic carbon and key organic pollutants both in aerosol and gaseous phases; (2) elucidating the role of sea ice cover in controlling these rates and the inputs associated to sea ice melting; (3) evaluating the fate of the materials, by assessing their use by biota and transference up the food webs, and (4) evaluating the effects on microplankton as the entry points of the materials in the food web, through evaluations of cell mortality in relation to pollutant inputs and parallel increases in ultraviolet raditation dosage, and the evaluation of the effect of the materials on planktonic primary production and community respiration. This project will advance current knowledge on the relevance of air-sea interactions for the metabolism, and flow of pollutants, of pelagic polar ecosystems, as well as provide a basis to forecast the effects of future reductions of sea icea in polar seas and oceans on the functioning of the pelagic ecosystems. Moreover, as the atmospheric materials that enter the sea in polar regions are likely to be introduced elsewhere, primarily on land, this research will provide novel insights onto the role of the atmosphere as a vector linking loading of organic carbon and pollutants in temperate and tropical latitudes and the inputs of these materials to polar seas and oceans. Moreover, the process-based examination of the response of microplankton to these inputs will allow formulation of models to forecast responses to future scenarios

ATOS-2 Cruise (29HE20090124) carried out on the Research Vessel Hespérides in 2009, ATOS project: Atmospheric inputs of organic carbon and pollutans to the polar ocean: rates, significance and outlook. "Quantify the atmospheric contributions of organic carbon and pollutants to the polar oceans, both those that occur at present and those that occurred in the last century and that have accumulated in the sea ice, being currently contributed to the ocean due to the melting of the ice in the poles. 1. Quantifying the atmospheric inputs of organic carbon and key organic pollutants both in aerosol and gaseous phases. 3. Evaluating the fate of the materials, by assessing their use by biota and transference up the food webs. 4. Evaluating the effects on microplankton as the entry points of the materials in the food web. 2. Elucidating the role of sea ice cover in controlling these rates and the inputs associated to sea ice melting

MALASPINA_LEG1 Cruise (29HE20101215) carried out on the Research Vessel Hespérides in 2010, A circumnavigation oceanographic expedition to generate a high resolution inventory of global change impact on the ecosystem of the ocean, researching its biodiversity in the deep. 1) PHYSICAL OCEANOGRAPHY: The main objective of the Physical Oceanography block is to contribute to understanding the oceanic variability by determining the trends of the different properties of the main bodies of water in the oceans, such as temperature, salinity and oxygen concentration, thus will allow us to determine the variation of atmospheric conditions. 2) BIOCHEMISTRY: The MALASPINA 2010 expedition will study on an unprecedented scale the biogeochemical processes in the ocean on a global scale. It will be investigated where the elements that contribute to life near the surface come from, and what is the fate of the organic matter generated by photosynthesis . The breath of the sea will be measured: the exhalation of gases that conditions our atmosphere and climate. 3) ATMOSPHERIC DEPOSITION: The objectives of block : "organic pollutants and atmospheric deposition" focus on the measurements of the levels of several families of organic pollutants in the global ocean and atmosphere and the quantification of air-ocean flows and their impact on food chains planktonics (phytoplankton and zooplankton). In addition, a characterization and quantification of the flows of organic carbon, aerosols, nutrients and organic biogenic compounds, and the role they play in the ocean biogeochemical cycles will also be carried out. 4) OCEAN OPTICS: In the Malaspina expedition we are going to study the optics of the ocean that involves measuring mainly the color of water and its transparency to solar radiation. 5) BIODIVERSITY AND MICROBIAL PROCESSES: Our main objective is to investigate, to know, what microorganisms are found and how they are acting in the different oceans of the planet, placing special emphasis on the vast and practically unknown deep ocean. 6) ZOOPLANKTON: The objective of this thematic block is to assess the diversity and efficiency of the energy transfer of the ocean zooplankton community on a global scale. 7) PHYTOPLANKTON AND BIOLOGICAL PRODUCTION: Quantify how solar radiation is transmitted through the water column. The behavior of the photosynthetically active light band, which includes visible light of wavelengths between 400 and 700, and of bands of light in the ultraviolet zone will be studied separately. Quantify the magnitude of the organic matter (in particulate and dissolved form) synthesized by the photosynthetic phytoplankton (the so-called primary production or PP), Quantify the carbon consumed by the respiration of the pelagic community, from the surface to the deepest levels of the water column) and compare it with the PP of the different areas visited, - Study the structure of sizes and the distribution by groups of the phytoplankton communities, Evaluate how phytoplankton growth rates vary in response to changes in PAR intensity, ultraviolet radiation and temperature, Estimate the losses due to cell death 8) POPULAR SCIENCE: The Malaspina project has among its objectives to inform society about the impact of global change on the ocean and new opportunities to explore marine biodiversity, increase social awareness of the original Malaspina expedition and encourage scientific vocations among young people 9) STUDENT TRAINING: The Malaspina 2010 project aims to promote scientific vocations among our young people by providing a highly visible activity that will combine aspects of frontier research with an adventure component and attractive teamwork as a training framework. Six universities (U. de Barcelona, U. de Granada, U. de Oviedo, U. de Cádiz, U. Las Palmas de Gran Canaria and U. Internacional Menéndez Pelayo and the CSIC) have come together to offer a common module in their postgraduate programs that will offer students the opportunity to participate in the Malaspina Expedition to develop their postgraduate project

MALASPINA_LEG2 Cruise (29HE20110117) carried out on the Research Vessel Hespérides in 2011

MALASPINA_LEG3 Cruise (29HE20110211) carried out on the Research Vessel Hespérides in 2011, A circumnavigation oceanographic expedition to generate a high resolution inventory of global change impact on the ecosystem of the ocean, researching its biodiversity in the deep. 1) PHYSICAL OCEANOGRAPHY: The main objective of the Physical Oceanography block is to contribute to understanding the oceanic variability by determining the trends of the different properties of the main bodies of water in the oceans, such as temperature, salinity and oxygen concentration, thus will allow us to determine the variation of atmospheric conditions. 2) BIOCHEMISTRY: The MALASPINA 2010 expedition will study on an unprecedented scale the biogeochemical processes in the ocean on a global scale. It will be investigated where the elements that contribute to life near the surface come from, and what is the fate of the organic matter generated by photosynthesis . The breath of the sea will be measured: the exhalation of gases that conditions our atmosphere and climate. 3) ATMOSPHERIC DEPOSITION: The objectives of block : "organic pollutants and atmospheric deposition" focus on the measurements of the levels of several families of organic pollutants in the global ocean and atmosphere and the quantification of air-ocean flows and their impact on food chains planktonics (phytoplankton and zooplankton). In addition, a characterization and quantification of the flows of organic carbon, aerosols, nutrients and organic biogenic compounds, and the role they play in the ocean biogeochemical cycles will also be carried out. 4) OCEAN OPTICS: In the Malaspina expedition we are going to study the optics of the ocean that involves measuring mainly the color of water and its transparency to solar radiation. 5) BIODIVERSITY AND MICROBIAL PROCESSES: Our main objective is to investigate, to know, what microorganisms are found and how they are acting in the different oceans of the planet, placing special emphasis on the vast and practically unknown deep ocean. 6) ZOOPLANKTON: The objective of this thematic block is to assess the diversity and efficiency of the energy transfer of the ocean zooplankton community on a global scale. 7) PHYTOPLANKTON AND BIOLOGICAL PRODUCTION: Quantify how solar radiation is transmitted through the water column. The behavior of the photosynthetically active light band, which includes visible light of wavelengths between 400 and 700, and of bands of light in the ultraviolet zone will be studied separately. Quantify the magnitude of the organic matter (in particulate and dissolved form) synthesized by the photosynthetic phytoplankton (the so-called primary production or PP), Quantify the carbon consumed by the respiration of the pelagic community, from the surface to the deepest levels of the water column) and compare it with the PP of the different areas visited, - Study the structure of sizes and the distribution by groups of the phytoplankton communities, Evaluate how phytoplankton growth rates vary in response to changes in PAR intensity, ultraviolet radiation and temperature, Estimate the losses due to cell death 8) POPULAR SCIENCE: The Malaspina project has among its objectives to inform society about the impact of global change on the ocean and new opportunities to explore marine biodiversity, increase social awareness of the original Malaspina expedition and encourage scientific vocations among young people 9) STUDENT TRAINING: The Malaspina 2010 project aims to promote scientific vocations among our young people by providing a highly visible activity that will combine aspects of frontier research with an adventure component and attractive teamwork as a training framework. Six universities (U. de Barcelona, ​​U. de Granada, U. de Oviedo, U. de Cádiz, U. Las Palmas de Gran Canaria and U. Internacional Menéndez Pelayo and the CSIC) have come together to offer a common module in their postgraduate programs that will offer students the opportunity to participate in the Malaspina Expedition to develop their postgraduate project

MALASPINA_LEG4 Cruise (29HE20110317) carried out on the Research Vessel Hespérides in 2011, A circumnavigation oceanographic expedition to generate a high resolution inventory of global change impact on the ecosystem of the ocean, researching its biodiversity in the deep. 1) PHYSICAL OCEANOGRAPHY: The main objective of the Physical Oceanography block is to contribute to understanding the oceanic variability by determining the trends of the different properties of the main bodies of water in the oceans, such as temperature, salinity and oxygen concentration, thus will allow us to determine the variation of atmospheric conditions. 2) BIOCHEMISTRY: The MALASPINA 2010 expedition will study on an unprecedented scale the biogeochemical processes in the ocean on a global scale. It will be investigated where the elements that contribute to life near the surface come from, and what is the fate of the organic matter generated by photosynthesis . The breath of the sea will be measured: the exhalation of gases that conditions our atmosphere and climate. 3) ATMOSPHERIC DEPOSITION: The objectives of block : "organic pollutants and atmospheric deposition" focus on the measurements of the levels of several families of organic pollutants in the global ocean and atmosphere and the quantification of air-ocean flows and their impact on food chains planktonics (phytoplankton and zooplankton). In addition, a characterization and quantification of the flows of organic carbon, aerosols, nutrients and organic biogenic compounds, and the role they play in the ocean biogeochemical cycles will also be carried out. 4) OCEAN OPTICS: In the Malaspina expedition we are going to study the optics of the ocean that involves measuring mainly the color of water and its transparency to solar radiation. 5) BIODIVERSITY AND MICROBIAL PROCESSES: Our main objective is to investigate, to know, what microorganisms are found and how they are acting in the different oceans of the planet, placing special emphasis on the vast and practically unknown deep ocean. 6) ZOOPLANKTON: The objective of this thematic block is to assess the diversity and efficiency of the energy transfer of the ocean zooplankton community on a global scale. 7)PHYTOPLANKTON AND BIOLOGICAL PRODUCTION: Quantify how solar radiation is transmitted through the water column. The behavior of the photosynthetically active light band, which includes visible light of wavelengths between 400 and 700, and of bands of light in the ultraviolet zone will be studied separately. Quantify the magnitude of the organic matter (in particulate and dissolved form) synthesized by the photosynthetic phytoplankton (the so-called primary production or PP), Quantify the carbon consumed by the respiration of the pelagic community, from the surface to the deepest levels of the water column) and compare it with the PP of the different areas visited, - Study the structure of sizes and the distribution by groups of the phytoplankton communities, Evaluate how phytoplankton growth rates vary in response to changes in PAR intensity, ultraviolet radiation and temperature, Estimate the losses due to cell death 8) POPULAR SCIENCE: The Malaspina project has among its objectives to inform society about the impact of global change on the ocean and new opportunities to explore marine biodiversity, increase social awareness of the original Malaspina expedition and encourage scientific vocations among young people 9) STUDENT TRAINING: The Malaspina 2010 project aims to promote scientific vocations among our young people by providing a highly visible activity that will combine aspects of frontier research with an adventure component and attractive teamwork as a training framework. Six universities (U. de Barcelona, ​​U. de Granada, U. de Oviedo, U. de Cádiz, U. Las Palmas de Gran Canaria and U. Internacional Menéndez Pelayo and the CSIC) have come together to offer a common module in their postgraduate programs that will offer students the opportunity to participate in the Malaspina Expedition to develop their postgraduate project. PARTICIPANTS: IACT, CSIC-ICM, CSIC-IIM, CSIC-CID, CACYTMAR, IHM, ROA, IEO, UB, UCA, UGR, ULL, UMA, UO, UVIGO, UPV, ULPGC, UIPM

MALASPINA_LEG6 Cruise (29HE20110513) carried out on the Research Vessel Hespérides in 2011, A circumnavigation oceanographic expedition to generate a high resolution inventory of global change impact on the ecosystem of the ocean, researching its biodiversity in the deep. 1) PHYSICAL OCEANOGRAPHY: The main objective of the Physical Oceanography block is to contribute to understanding the oceanic variability by determining the trends of the different properties of the main bodies of water in the oceans, such as temperature, salinity and oxygen concentration, thus will allow us to determine the variation of atmospheric conditions. 2) BIOCHEMISTRY: The MALASPINA 2010 expedition will study on an unprecedented scale the biogeochemical processes in the ocean on a global scale. It will be investigated where the elements that contribute to life near the surface come from, and what is the fate of the organic matter generated by photosynthesis . The breath of the sea will be measured: the exhalation of gases that conditions our atmosphere and climate. 3) ATMOSPHERIC DEPOSITION: The objectives of block : "organic pollutants and atmospheric deposition" focus on the measurements of the levels of several families of organic pollutants in the global ocean and atmosphere and the quantification of air-ocean flows and their impact on food chains planktonics (phytoplankton and zooplankton). In addition, a characterization and quantification of the flows of organic carbon, aerosols, nutrients and organic biogenic compounds, and the role they play in the ocean biogeochemical cycles will also be carried out. 4) OCEAN OPTICS: In the Malaspina expedition we are going to study the optics of the ocean that involves measuring mainly the color of water and its transparency to solar radiation. 5) BIODIVERSITY AND MICROBIAL PROCESSES: Our main objective is to investigate, to know, what microorganisms are found and how they are acting in the different oceans of the planet, placing special emphasis on the vast and practically unknown deep ocean. 6) ZOOPLANKTON: The objective of this thematic block is to assess the diversity and efficiency of the energy transfer of the ocean zooplankton community on a global scale. 7)PHYTOPLANKTON AND BIOLOGICAL PRODUCTION: Quantify how solar radiation is transmitted through the water column. The behavior of the photosynthetically active light band, which includes visible light of wavelengths between 400 and 700, and of bands of light in the ultraviolet zone will be studied separately. Quantify the magnitude of the organic matter (in particulate and dissolved form) synthesized by the photosynthetic phytoplankton (the so-called primary production or PP), Quantify the carbon consumed by the respiration of the pelagic community, from the surface to the deepest levels of the water column) and compare it with the PP of the different areas visited, - Study the structure of sizes and the distribution by groups of the phytoplankton communities, Evaluate how phytoplankton growth rates vary in response to changes in PAR intensity, ultraviolet radiation and temperature, Estimate the losses due to cell death 8) POPULAR SCIENCE: The Malaspina project has among its objectives to inform society about the impact of global change on the ocean and new opportunities to explore marine biodiversity, increase social awareness of the original Malaspina expedition and encourage scientific vocations among young people 9) STUDENT TRAINING: The Malaspina 2010 project aims to promote scientific vocations among our young people by providing a highly visible activity that will combine aspects of frontier research with an adventure component and attractive teamwork as a training framework. Six universities (U. de Barcelona, ​​U. de Granada, U. de Oviedo, U. de Cádiz, U. Las Palmas de Gran Canaria and U. Internacional Menéndez Pelayo and the CSIC) have come together to offer a common module in their postgraduate programs that will offer students the opportunity to participate in the Malaspina Expedition to develop their postgraduate project. PARTICIPANTS: IACT, CSIC-ICM, CSIC-IIM, CSIC-CID, CACYTMAR, IHM, ROA, IEO, UB, UCA, UGR, ULL, UMA, UO, UVIGO, UPV, ULPGC, UIPM

MALASPINA_LEG7 Cruise (29HE20110619) carried out on the Research Vessel Hespérides in 2011, A circumnavigation oceanographic expedition to generate a high resolution inventory of global change impact on the ecosystem of the ocean, researching its biodiversity in the deep. 1) PHYSICAL OCEANOGRAPHY: The main objective of the Physical Oceanography block is to contribute to understanding the oceanic variability by determining the trends of the different properties of the main bodies of water in the oceans, such as temperature, salinity and oxygen concentration, thus will allow us to determine the variation of atmospheric conditions. 2) BIOCHEMISTRY: The MALASPINA 2010 expedition will study on an unprecedented scale the biogeochemical processes in the ocean on a global scale. It will be investigated where the elements that contribute to life near the surface come from, and what is the fate of the organic matter generated by photosynthesis . The breath of the sea will be measured: the exhalation of gases that conditions our atmosphere and climate. 3) ATMOSPHERIC DEPOSITION: The objectives of block : "organic pollutants and atmospheric deposition" focus on the measurements of the levels of several families of organic pollutants in the global ocean and atmosphere and the quantification of air-ocean flows and their impact on food chains planktonics (phytoplankton and zooplankton). In addition, a characterization and quantification of the flows of organic carbon, aerosols, nutrients and organic biogenic compounds, and the role they play in the ocean biogeochemical cycles will also be carried out. 4) OCEAN OPTICS: In the Malaspina expedition we are going to study the optics of the ocean that involves measuring mainly the color of water and its transparency to solar radiation. 5) BIODIVERSITY AND MICROBIAL PROCESSES: Our main objective is to investigate, to know, what microorganisms are found and how they are acting in the different oceans of the planet, placing special emphasis on the vast and practically unknown deep ocean. 6) ZOOPLANKTON: The objective of this thematic block is to assess the diversity and efficiency of the energy transfer of the ocean zooplankton community on a global scale. 7) PHYTOPLANKTON AND BIOLOGICAL PRODUCTION: Quantify how solar radiation is transmitted through the water column. The behavior of the photosynthetically active light band, which includes visible light of wavelengths between 400 and 700, and of bands of light in the ultraviolet zone will be studied separately. Quantify the magnitude of the organic matter (in particulate and dissolved form) synthesized by the photosynthetic phytoplankton (the so-called primary production or PP), Quantify the carbon consumed by the respiration of the pelagic community, from the surface to the deepest levels of the water column) and compare it with the PP of the different areas visited, - Study the structure of sizes and the distribution by groups of the phytoplankton communities, Evaluate how phytoplankton growth rates vary in response to changes in PAR intensity, ultraviolet radiation and temperature, Estimate the losses due to cell death 8) POPULAR SCIENCE: The Malaspina project has among its objectives to inform society about the impact of global change on the ocean and new opportunities to explore marine biodiversity, increase social awareness of the original Malaspina expedition and encourage scientific vocations among young people 9) STUDENT TRAINING: The Malaspina 2010 project aims to promote scientific vocations among our young people by providing a highly visible activity that will combine aspects of frontier research with an adventure component and attractive teamwork as a training framework. Six universities (U. de Barcelona, ​​U. de Granada, U. de Oviedo, U. de Cádiz, U. Las Palmas de Gran Canaria and U. Internacional Menéndez Pelayo and the CSIC) have come together to offer a common module in their postgraduate programs that will offer students the opportunity to participate in the Malaspina Expedition to develop their postgraduate project

Data on biogeochemical characteristics (210Pb geochronologies, density, organic matter, organic carbon concentration, stable carbon isotopes, carbon stocks and carbon burial rates) and on the detection of Halophila stipulacea with eDNA in seagrass sediments cores from H. stipulacea, Cymodocea nodosa and Posidonia oceanica meadows collected in the Eastern Mediterranean (Greece and Cyprus)., This work was funded by the Spanish Ministry of Economy and Competiveness (Project MEDSHIFT, CGL2015-71809-P), the Spanish Ministry of Science, Innovation and Universities (SUMAECO, RTI2018-095441-B-C21) and King Abdullah University for Science and Technology (3834 KAUST-CSIC Research Collaboration and base line funding to CMD)., Peer reviewed