Publicaciones científicas

2021


 
Evaluation of PCDD/Fs, PCBs and PBDEs in two penguin species from Antarctica

Patricia Morales, Jose L.Roscales, Juan Muñoz-Arnanza, Andrés Barbosa, Begoña Jiménez. Chemosphere, Volume 286, Part 3, January 2022, 131871. https://doi.org/10.1016/j.chemosphere.2021.131871


 
Leukocyte counts in blood smears of Antarctic seals and penguins: a new less time‑consuming method

Javier Menendez‑Blazquez, Florencia Soto, Javier Negrete, Roger Colominas‑Ciuro, Andrea Marin‑Sierra, Melina Ricca, Andrés Barbosa (2021). Polar Biology . https://doi.org/10.1007/s00300-021-02950-0


 

Mercury Levels in Feathers of Penguins from the Antarctic Peninsula Area: Geographical and Inter-Specific Differences

Miguel Motas,  Silvia Jerez, Marta Esteban, Francisco Valera, José Javier Cuervo, Andrés Barbosa (2021). International Journal of Environmental Research and Public Health 18, 9918. https://doi.org/10.3390/ijerph18189918



 
Proteorhodopsin phototrophy in Antarctic coastal waters

Cifuentes-Anticevic J, Alcamán-Arias ME, Alarcón-Schumacher T, Tamayo-Leiva J, Pedrós-Alió C, Farías L, Díez B. 2021. mSphere 6:e00525-21. https:// doi.org/10.1128/mSphere.00525-21


 
Chemical control of marine associated microbial communities in sessile Antarctic invertebrates

Angulo-Preckler C, García-López E, Figuerola B, Avila C, Cid C.  Aquatic Microbial Ecology. 2020. https://doi.org/10.3354/ame01948


 
Trace elements in Antarctic penguins and the potential role of guano as source of recycled metals in the Southern Ocean

Erica Sparaventi, Araceli Rodríguez-Romero, Andrés Barbosa, Laura Ramajo, Antonio Tovar-Sánchez. Chemosphere, 2021, 131423 https://doi.org/10.1016/j.chemosphere.2021.131423.


 
Geomicrobiological Heterogeneity of Lithic Habitats in the Extreme Environment of Antarctic Nunataks: A Potential Early Mars Analog

Fernández-Martínez Miguel Ángel, García-Villadangos Miriam, Moreno-Paz Mercedes, Gangloff Valentin, Carrizo Daniel, Blanco Yolanda, González Sergi, Sánchez-García Laura, Prieto-Ballesteros Olga, Altshuler Ianina, Whyte Lyle G., Parro Victor, Fairén Alberto G. Frontiers in Microbiology, 12 1568. https://doi.org/10.3389/fmicb.2021.670982


 
Volcanism in Antarctica: 200 Million Years of Subduction, Rifting and Continental Break-up

Smellie JL, Panter KS, Geyer A, (2021). Geological Society, London, Memoirs Volume 55, 2021. https://mem.lyellcollection.org/content/55/1


 
Formation of Stanley Patch volcanic cone: New insights into the evolution of Deception Island caldera (Antarctica)

Hopfenblatt, J., Geyer, A., Aulinas, M., Álvarez-Valero, A. M., Gisbert, G., Kereszturi, G., et al. (2021). Journal of Volcanology and Geothermal Research, 107249. DOI: https://doi.org/10.1016/j.jvolgeores.2021.107249


 
Open ocean and coastal new particle formation from sulfuric acid and amines around the Antarctic Peninsula

Brean, J., Dall’Osto, M., Simó, R., Shi, Z., Beddows, D. C. S., & Harrison, R. M. (2021).  Nature Geoscience. DOI: https://doi.org/10.1038/s41561-021-00751-y


 
Microplastics and other anthropogenic particles in Antarctica: Using penguins as biological samplers

Joana Fragão, Filipa Bessa, Vanessa Otero, Andrés Barbosa, Paula Sobral, Claire M. Waluda, Hugo R. Guímaro, José C. Xavier, (2021). Science of The Total Environment, 788, 147698. DOI: https://doi.org/10.1016/j.scitotenv.2021.147698.


 
How animals distribute themselves in space: energy landscapes of Antarctic avian predators.

Masello, J.F., Barbosa, A., Kato, A. et al. (2021). Mov Ecol 9, 24 (2021). DOI: https://doi.org/10.1186/s40462-021-00255-9


 
Diet, antioxidants and oxidative status in pygoscelid penguins

Colominas-Ciuró R, Bertellotti M, D’Amico VL, Carabajal E and others (2021). Mar Ecol Prog Ser 665:201-216. DOI: https://doi.org/10.3354/meps13651


 
Phylogenetic diversity and dominant ecological traits of freshwater Antarctic Chrysophyceae

Izaguirre, I., F. Unrein, M.R. Schiaffino, E. Lara, D. Singer, V. Balagué, J.M. Gasol, R. Massana (2021). Polar Biol. 44: 941-957. DOI: https://doi.org/10.1007/s00300-021-02850-3


 
Biogenic matter content in marine sediments in the vicinity of the Antarctic Peninsula: recent sedimentary conditions under a diverse environment of production, transport, selective preservation and accumulation

Isla, E., & DeMaster, D. J. (2021). Geochimica et Cosmochimica Acta. DOI: 10.1016/j.gca.2021.04.021.


 
Movements and diving behaviour of white-chinned petrels: diurnal variation and implications for bycatch mitigation

Caitling F, Manica F, Navarro J, Phillips RA (2021). Aquatic Conservation: Marine and Freshwater Ecosystems, in press


 
Latitudinal changes in the trophic structure of benthic coastal food webs along the Antarctic Peninsula

Cardona L, Lloret-Lloret E, Moles J, Avila C (2021)Marine Environmental Research, 105290.


 
In-situ soil greenhouse gas fluxes under different cryptogamic covers in maritime Antarctica

Durán J., Rodríguez A., Fangueiro D. , De los Ríos A. (2021). Science of The Total Environment, 144557. https://doi.org/10.1016/j.scitotenv.2020.144557


 
Neogene speciation and Pleistocene expansion of the genus Pseudephebe (Parmeliaceae, lichenized fungi) involving multiple colonizations of Antarctica

Garrido-Benavent, I; Pérez-Ortega S., de Los Ríos A., Mayrhofer H, Fernández-Mendoza F.(2021).  Molecular Phylogenetics and Evolution 155, 107020. https://doi.org/10.1016/j.ympev.2020.107020


 
Antarctic ecosystems in transition – life between stresses and opportunities

Gutt, J., Isla, E., Xavier, J.C., Adams, B.J., Ahn, I.‐Y., Cheng, C.‐H.C., Colesie, C., Cummings, V.J., di Prisco, G., Griffiths, H., Hawes, I., Hogg, I., McIntyre, T., Meiners, K.M., Pearce, D.A., Peck, L., Piepenburg, D., Reisinger, R.R., Saba, G.K., Schloss, I.R., Signori, C.N., Smith, C.R., Vacchi, M., Verde, C. and Wall, D.H. (2021), Biological Reviews. https://doi.org/10.1111/brv.12679


Future trajectories of change for an Arctic deep ecosystem connected to coastal kelp forests

Vilas, D., Coll, M., Pedersen, T., Corrales, X., Filbee-Dexter, K., Wernberg, T., 2021.  Restoration Ecology. https://doi.org/10.1111/rec.13327

 



 
The case of a southern European glacier which survived Roman and Medieval warm periods but is disappearing under recent warming

Moreno A, Bartolomé M, López-Moreno JI., et al.  2021. The Cryosphere, 15, 1157–1172, 2021. https://doi.org/10.5194/tc-15-1157-2021


 
The interface of rocks and microorganisms

De los Ríos A., Souza-Egipsy V. (2021) . En: Life at rock surfaces. (Büdel B. & Friedl T. eds) Series: Life in Extreme Environments. Walter de Gruyter GmbH, Berlin, Boston.


 
From Pole to Pole: Contamination of Marine Ecosystems in a Changing World

Corsolini,S., Ademollo, N., Ancora S., Jimenez B. (2021). Frontiers Research Topic – Frontiers in Marine Sciences , Marine Pollution. https://www.frontiersin.org/research-topics/20159/from-pole-to-pole-contamination-of-marine-ecosystems-in-a-changing-world


 
Are recently deglaciated areas at both poles colonised by the same bacteria?

Del Moral A., Garrido-Benavent I., Durán J., Lehmann JR, Rodríguez A., Heiðmarsson S., de los Ríos A. (2021. FEMS Microbiology Letters, fnab011. https://doi.org/10.1093/femsle/fnab011


 
Enhanced Viral Activity in the Surface Microlayer of the Arctic and Antarctic Oceans

Vaqué, D.; Boras, J.A.;Arrieta, J.M.; Agustí, S.; Duarte, C.M.; Sala, M.M. Microorganisms 2021, 9, 317. https://doi.org/ 10.3390/microorganisms9020317


2020


 
Himantormia lugubris, an Antarctic endemic on the edge of the lichen symbiosis

Sancho, LG; de los Ríos, A.;  Pintado,A.;  Colesie, C.; Raggio, J.; Ascaso C.; Green A. (2020). Symbiosis 82 (1), 49-58. https://doi.org/10.1007/s13199-020-00723-7


 
Legacy and novel flame retardants from indoor dust in Antarctica: Sources and human exposure.

Simonetta Corsolini, América Metzdorff, Davide Baroni, Jose L. Roscales, Begoña Jiménez, Elena Cerro-Gálvez, Jordi Dachs, Cristóbal Galbán-Malagón, Ondřej Audy, Jiří Kohoutek, Petra Přibylova, Matias Poblete-Morales, Ruben Avendaño-Herrera, Elisa Bergami, Karla Pozo. Environmental Research, 2020, 110344. ISSN 0013-9351. https://doi.org/10.1016/j.envres.2020.110344


 
Anthropogenic contaminants in freshwater from the northern Antarctic Peninsula region.

Domínguez-Morueco, N., Moreno-Merino, L., Molins-Delgado, D. et al. Ambio (2020). https://doi.org/10.1007/s13280-020-01404-x


 
Large Enrichment of Anthropogenic Organic Matter Degrading Bacteria in the Sea-Surface Microlayer at Coastal Livingston Island (Antarctica).

Martinez-Varela A., Casas G., Piña B., Dachs J., Vila-Costa M. (2020). Frontiers in Microbiology 11, 2153. https://doi.org/10.3389/fmicb.2020.571983


 
Enrichment of perfluoroalkyl substances in the sea-surface microlayer and sea-spray aerosols in the Southern Ocean.

Casas G., Martínez-Varela A., Roscales J.L., Vila-Costa M., Dachs J., Jiménez B. (2020). Environmental Pollution 267, 115512. https://doi.org/10.1016/j.envpol.2020.115512


 
Enrichment of perfluoroalkyl substances in the sea-surface microlayer and sea-spray aerosols in the Southern Ocean.

Casas G., Martínez-Varela A., Roscales J.L., Vila-Costa M., Dachs J., Jiménez B. (2020). Environmental Pollution 267, 115512. https://doi.org/10.1016/j.envpol.2020.115512


 
Modes of climate variability: Synthesis and review of proxy-based reconstructions through the Holocene.

Hernández, A., Martin-Puertas, C., Moffa-Sánchez, P., Moreno-Chamarro, E., Ortega, P., Blockley, S., Cobb, K. M., Comas-Bru, L., Giralt, S., Goosse, H., Luterbacher, J., Martrat, B., Muscheler, R., Parnell, A., Pla-Rabes, S., Sjolte, J., Scaife, A. A., Swingedouw, D., Wise, E. & Xu, G. (2020) Earth-Science Rev. 103286. https://doi.org/10.1016/j.earscirev.2020.103286


 
Chapter 3 – Holocene environmental changes inferred from Antarctic lake sediments

Giralt, S., Hernández, A., Pla-Rabes, S., Antoniades, D., Toro, M., Granados, I. & Oliva, M. In: Past Antarctica (eds. Oliva, M. & Ruiz-Fernández, J. B. T.-P. A.) 51–66 (Academic Press, 2020). https://doi.org/10.1016/B978-0-12-817925-3.00003-3


 
Cryptic speciation in gentoo penguins is driven by geographic isolation and regional marine conditions: Unforeseen vulnerabilities to global change. 

Pertierra, LR, Segovia, NI, Noll, D, Martinez P.A., Pliscoff P., Barbosa, A., Aragon, P., Raya Rey, A., Pistorius, P., Trathan, P., Polanowski, A., Bonadona, F., Le Bohec, C., Bi, K., Wang‐Claypool, C.Y., Gonzalez-Acuña, D., Dantas, G.P.M., Bowie, R.C.K., Poulin, E., Vianna, J.A. 2020.  Diversity and Distributions 2020; 26: 958– 975. https://doi.org/10.1111/ddi.13072


 
Contribution of water soluble organic matter from multiple marine biogeographic regions to aerosols around Antarctica.

Rinaldi, M., Paglione, M., Decesari, S., Harrison, R., Beddows, D., Ovadnevaite, J., Ceburnis, D., O’Dowd, C., Simó, R., Dall’Osto, M. (2020). Environ. Sci. Technol., https://dx.doi.org/10.1021/acs.est.0c00695.


 
Remote sensing retrieval of isoprene concentrations in the Southern Ocean.

Rodríguez-Ros, P., Galí, M., Cortés, P., Robinson, C.M., Antoine, D., Wohl, C., Yang, M.X., Simó, R. (2020). Res. Lett. 47: e2020GL087888, https://dx.doi.org/10.1029/2020GL087888.


 
On the annual variability of Antarctic aerosol size distributions at Halley Research Station.

Lachlan-Cope, T., Beddows, D. C. S., Brough, N., Jones, A.E., Harrison, R.M., Lupi, A., Yoon, Y.J., Virkkula, A., Dall’Osto, M. (2020). Atm. Chem. Phys., 20 – 7, pp. 4461 – 4476. https://doi.org/10.5194/acp-20-4461-2020


 
Distribution and Drivers of Marine Isoprene Concentration across the Southern Ocean.

Rodríguez-Ros, P., Cortés, P. Robinson, C.M., Nunes, S., Hassler, C., Royer, S-J., Estrada, E., Sala, M.M., Simó, R. (2020). Atmosphere 11, 556. https://dx.doi.org/10.3390/atmos11060556


 
Assessing Viral Abundance and Community Composition in Four Contrasting Regions of the Southern Ocean.

Sotomayor-Garcia, A., Sala, M.M., Ferrera, I., Estrada, M., Vázquez-Domínguez, E., Emelianov, M., Cortés, P., Marrasé, C., Ortega-Retuerta, E., Nunes, E., Castillo, Y.M., Serrano Cuerva, M., Sebastian, M., Dall’Osto, M., Simó, R., Vaqué, D. (2020).  Life, 10, 107; https://www.mdpi.com/2075-1729/10/7/107


 
δD and δ18O variations of the magmatic system beneath Deception Island volcano (Antarctica): implications for magma ascent and eruption forecasting

Álvarez-Valero, A.M., Gisbert, G., et al. (2020). Chemical Geology https://doi.org/10.1016/j.chemgeo.2020.119595


 
The deglaciation of Barton Peninsula (King George Island, South Shetland, Antarctica) based on geomorphic evidence and lacustrine records

Oliva, M., Antoniades, D., Serrano, E., Giralt, S., Liu, E.J., Toro, M., Pla-Rabes, S., Granados, I., Hong, S.G. and Vieira, G. (2019). Polar Record, 55: 177-188  https://doi.org/10.1017/S0032247419000469


 
Spatial and Interspecies Heterogeneity in Concentrations of Perfluoroalkyl Substances (PFASs) in Seabirds of the Southern Ocean

Roscales JL, Vicente A, Ryan PG, González-Solís J, Jiménez B (2020). Environmental Science and Technology 53 (16): 9855-9865 https://doi.org/10.1021/acs.est.9b02677


 
Shipborne measurements of Antarctic submicron organic aerosols: an NMR perspective linking multiple sources and bioregions

Decesari S., M. Paglione, M. Rinaldi, M. Dall’Osto, R. Simó, N. Zanca, F. Volpi, M.C. Facchini, T. Hoffmann, S. Götz, C.J. Kampf, C. O’Dowd, J. Ovadnevaite, D. Ceburnis, E. Tagliavini (2020). Atmospheric Chemistry and Physics 20: 4193–4207 https://doi.org/10.5194/acp-20-4193-2020


 
New Insights into the Nature of Glauconite

López-Quirós, A., Sanchez-Navas, A., Nieto, F., Escutia, C. (2020). American Mineralogist. In press https://doi.org/10.1017/S0954102020000188


 
The influence of Totten Glacier on the Late Cenozoic sedimentary record

Donda, F., Leitchenko, G., Brancolini, G., Romeo, R., De Santis, L., Escutia, C., O’brien, P., Armand, L., Caburlotto, A., and Cotterle, D. (2020). Antarctic Science: 1 of 13 https://doi.org/10.1017/S0954102020000188


 
Geomorphology of Ona Basin, southwestern Scotia Sea (Antarctica): Decoding the spatial variability of bottom current pathways

López-Quirós, A., Lobo, F.J., Escutia, C., García, M., Hernández-Molina, F.J., Pérez, L.F., Bohoyo, F., Evangelinos, D., Salabarnada, A., Maldonado, A., Naveira Garabato, A. (2020). Marine Geology 422, 106113  https://doi.org/10.1016/j.margeo.2020.106113


 
Evidence of pathogen-induced immunogenetic selection across the large geographic range of a wild seabirds

LEVY, H,, FIDDAMAN, S.R., VIANNA, J.A., NOLL, D., CLUCAS, G.V., SIDHU, J.K.H., POLITO, M.J., BOST, C.A., PHILLIPS, R.A., CROFTS, S., MILLER, G.D., PISTORIUS, P., BONNADONNA, F., LE BOHEC, C., BARBOSA, A., TRATHAN, P., RAYA REY, A., FRANTZ, L.A.F., HART, T., SMITH, A.L. (2020). Molecular Biology and Evolution (in press) https://doi.org/10.1093/molbev/msaa040


 
Differential Colonization and Succession of Microbial Communities in Rock and Soil Substrates on a Maritime Antarctic Glacier Forefield

Garrido-Benavent I, Pérez-Ortega S, Durán J, Ascaso C, Pointing SB, Rodríguez-cielos R,  Navarro F, De los Ríos A (2020). Front Microbiol 2020; 11:126 https://doi.org/10.3389/fmicb.2020.00126


 
On the annual variability of Antarctic aerosol size distributions at Halley research station

Lachlan-Cope, T., Beddows, D., Brough, N., Jones, A. E., Harrison, R. M., Lupi, A., Yoon, Y. J., Virkkula, A., and Dall’Osto, M. (2020). Atmos. Chem. Phys. Discuss. https://doi.org/10.5194/acp-2019-847


 
Microbial responses to perfluoroalkyl substances and perfluorooctanesulfonate (PFOS) desulfurization in the Antarctic marine environment

Cerro-Gálvez E, J.L. Roscales, B. Jiménez, M.M. Sala, J. Dachs, Vila-Costa M. (2020). Water Research 171: 115434 https://doi.org/10.1016/j.watres.2019.115434

Kelp-carbon uptake by Arctic deep-sea food webs plays a noticeable role in maintaining ecosystem structural and functional traits

Vilas, D., Coll, M., Pedersen, T., Corrales, X., Filbee-Dexter, K., Pedersen, M.F., Norderhaug, K.M., Fredriksen, S., Wernberg, T., Ramirez Llodra, E., 2020. Journal of Marine Systems 203, 103268.


 
Frequent new particle formation over the high Arctic pack ice by enhanced iodine emissions. 

Baccarini, A., Karlsson, L., Dommen, J., Duplessis, P., Vüllers, J., Brooks, I. M., et al. (2020). Nature Communications, 11(1), 4924. https://doi.org/10.1038/s41467-020-18551-0


 
A 2,000-year Bayesian NAO reconstruction from the Iberian Peninsula.

Hernández, A., Sánchez-López, G., Pla-Rabes, S. et al. (2020). Sci Rep 10, 14961. https://doi.org/10.1038/s41598-020-71372-5


 
A gas-to-particle conversion mechanism helps to explain atmospheric particle formation through clustering of iodine oxides

Gómez Martín J.C., Lewis T.R., Blitz M.A., Plane J.M.C., Kumar M., Francisco J.S., Saiz-Lopez A. (2020). Nature Communications volume 11, Article number: 4521. https://doi.org/10.1038/s41467-020-18252-8


 
Arctic ship-based evidence of new particle formation events in the Chukchi and East Siberian Seas.

Dall’Osto, M., Park, J., Kim, J-H., Kang, S-H., Park, K., Beddows, D. C. S., Harrison, R.M., Yoon, Y. J. (2020). Atm. Environ. 223. https://doi.org/10.1016/j.atmosenv.2019.117232


 
Assessment with Controlled In-Situ Data of the Dependence of L-band Radiometry on Sea-Ice Thickness

Sánchez-Gámez P., Gabarró C., Turiel A., Portabella M. (2020). Remote Sensing, 12(4), 650  https://doi.org/10.3390/rs12040650


 
Regional crustal and lithospheric thickness model for Alaska, the Chukchi shelf, and the inner and outer bering shelves

Torne M, Jiménez–Munt I, Vergés J, et al (2020) . Geophys J Int 220:522–540. https://doi.org/10.1093/gji/ggz424


 
Interseasonal connections between the timing of the stratospheric final warming and Arctic sea ice

Kelleher, M. E., B. Ayarzagüena and J. A. Screen (2020). J. Climate, 33, 3079-3092 https://doi.org/10.1175/JCLI-D-19-0064.1


 
Arctic ship-based evidence of new particle formation events in the Chukchi and East Siberian Seas

Dall’Osto, M.; Park, Jiyeon; Kim, Joo-Hong; et al. (2020). ATMOSPHERIC ENVIRONMENT 223: 117232 https://doi.org/10.1016/j.atmosenv.2019.117232


 
Uncertainty in the response of sudden stratospheric warmings and stratosphere-troposphere coupling to quadrupled CO2 concentrations in CMIP6 models

Ayarzagüena, B. et al. (2020). J. Geophys. Res: Atmos. e2019JD032345 https://doi.org/10.1029/2019JD032345

 


 
Advancing global ecological modelling capabilities to simulate future trajectories of change in marine ecosystems

Coll, M., Steenbeek, J., Pennino, G.M., Buszowski, J., Kaschner, K., Lotze, H.K., Rousseau, Y., Tittensor, D., Walters, C., Watson, R.A., Christensen, V., 2020. Frontiers in Marine Science – Marine Fisheries, Aquaculture and Living Resources 7.


 
Beyond the extremes: Rocks as ultimate refuge for fungi in drylands

Coleine, C.; Stajich, JE; de Los Ríos, A.; Selbmann L. (2020). Mycologia, 1-26. https://doi.org/10.1080/00275514.2020.1816761


 
Amphitropical variation of the algal partners of Pseudephebe (Parmeliaceae, lichenized fungi

Garrido-Benavent I., Pérez-Ortega, S; de los Ríos A., Fernandez-Mendoza F. (2020. Symbiosis 82 (1), 35-48. https://doi.org/10.1007/s13199-020-00709-5


 
Seismic anisotropy of temperate ice in polar ice sheets.

Llorens, M.-G., Griera, A., Bons, P.D., Gomez-Rivas, E., Weikusat, I., Prior, D., Kerch, J. and Lebensohn, R.A. (2020). Journal of Geophysical Research: Earth Surface, 125, 11. https://doi.org/10.1029/2020JF005714


 
Cryptogamic cover determines soil attributes and functioning in polar terrestrial ecosystems.

Durán J., Rodríguez A., Heiðmarsson S.,, LehmannJan R.K., del Moral A., Garrido-Benavent I., De los Ríos A. Science of The Total Environment, 2020, 143169. https://doi.org/10.1016/j.scitotenv.2020.143169


 
Variation of Ionospheric Narrowband and Wideband Performance for a 12,760 km Transequatorial Link and Its Dependence on Solar and Ionospheric Activity. 

Sánchez-Gámez P., Gabarró C., Turiel A., Portabella M. (2020). Remote Sens., 2020, 12, 2750. https://doi.org/10.3390/rs12172750


 
Description and validation of the ice-sheet model Yelmo (version 1.0)

Robinson, A., Alvarez-Solas, J., Montoya, M., Goelzer, H., Greve, R., and Ritz, C.: Geosci. Model Dev., 13, 2805–2823, https://doi.org/10.5194/gmd-13-2805-2020


 
Marine carbonyl sulfide (OCS) and carbon disulfide (CS2): a compilation of measurements in seawater and the marine boundary layer.

Lennartz, S.T., Marandino, C.A., von Hobe, M., Andreae, M.O., Aranami, K., Atlas, E., Berkelhammer, M., Bingemer, H., Booge, D., Cutter, G., Cortes, P., Kremser, S., Law, C., Marriner, A., Simó, R., Quack, B., Uher, G., Xie, H., Xu, X. (2020). Earth Syst. Sci. Data, 12, pp. 591–609. https://doi.org/10.5194/essd-12-591-2020


 
Shipborne observations reveal contrasting Arctic marine, Arctic terrestrial and Pacific marine aerosol properties.

Park, J., Dall’Osto, M., Park, K., Gim, Y., Kang, H.J., Jang, E., Park, K-T.,Park, M., Yum, S.S., Jung, J., Lee, B.Y., Yoon, Y.J. (2020). Atm. Chem. Phys. 20 – 9, pp. 5573 – 5590. https://doi.org/10.5194/acp-20-5573-2020


 
Diversity and distribution of marine heterotrophic bacteria from a large culture collection.

Sanz-Sáez, I., Salazar, G., Sánchez, P., Lara, E., Royo-Llonch, M., Sà, E.L., Lucena, T., Pujalte, M.J., Vaqué, D., Duarte, C.M., Gasol, J.M., Pedrós-Alió, C., Sánchez, O., Acinas, S.G. (2020) BMC Microbiology, 20 (1):207 https://dx.doi.org/10.1186/s12866-020-01884-7


3D multi-source model of elastic volcanic ground deformation

Camacho, A. G., Fernández, J., Samsonov, S. V, Tiampo, K. F. & Palano, M. Earth Planet. Sci. Lett. 547, 116445 (2020). https://doi.org/10.1016/j.epsl.2020.116445


 
Marine carbonyl sulfide (OCS) and carbon disulfide (CS2): a compilation of measurements in seawater and the marine boundary layer

Lennartz S.T., C.A. Marandino, M. von Hobe, M.O. Andreae, K. Aranami, E. Atlas, M. Berkelhammer, H. Bingemer, D. Booge, G. Cutter, P. Cortes, S. Kremser, C. Law, A. Marriner, R. Simó, B. Quack, G. Uher, H. Xie, X. Xu (2020). Earth System Science Data 12: 591–609 https://doi.org/10.5194/essd-12-591-2020


 
Geomagnetic solar flare effects: a review
Curto JJ. (2020). J. Space Weather Space Clim. 10, 27, https://doi.org/10.1051/swsc/2020027

 
International Geomagnetic Reference Field: the thirteenth generation

Patrick Alken; Erwan Thebault; Ciaran Beggan; Hagay Amit; Julien Aubert; Julien Baerenzung; T. Bondar; William Brown; Sam Califf; Aude Chambodut; Arnaud Chulliat; Grace Cox; Chris Finlay; Alexandre Fournier; Nicolas Gillet; Alexander Grayver; Magnus Hammer; Matthias Holschneider; Loic Huder; Gauthier Hulot; Thomas Jager; Clemens Kloss; Monika Korte; Weijia Kuang; Alexey Kuvshinov; Benoit Langlais; Jean-Michel Leger; Vincent Lesur; Phil Livermore; Frank Lowes; Susan Macmillan; Werner Magnes; Mioara Mandea; S Marsal; Jurgen Matzka; Maurits Metman; T. Minami; Achim Morschhauser; Jonathan Mound; Manoj Nair; S. Nakano; Nils Olsen; F. J. Pavon-Carrasco; Valeriy Petrov; Guillaume Ropp; Martin Rother; Terence Sabaka; Sabrina Sanchez; Diana Saturnino; Neesha Schnepf; X. Shen; Claudia Stolle; Andrew Tangborn; Lars Toffner-Clausen; Hiroaki Toh; J.M. Torta; Jesse Varner; Foteini Vervelidou; Pierre Vigneron; Ingo Wardinski; Johannes Wicht; Adam Woods; Yanyan Yang; Z. Zeren; B. Zhou (2020). Earth, Planets and Space, EPSP-D-20-00133R1


 
Including the Temporal Dimension in the SECS Technique.

Marsal, S., Torta, J. M., Pavón‐Carrasco, F. J., Blake, S. P., & Piersanti, M. ( 2020). Space Weather, 18, e2020SW002491. https://doi.org/10.1029/2020SW002491


 
Bootstrapping Swarm and observatory data to generate candidates for the DGRF and IGRF-13

F. Javier Pavón-Carrasco, Santiago Marsal, J. Miquel Torta, Manuel Catalán, Fátima Martín-Hernández, J. Manuel Tordesillas (2020). Earth, Planets and Space, EPSP-D-20-00021R3


 
Modelling by Spherical Cap Harmonic Analysis: A Literature Review.

Torta, J.M. (2020). Surv Geophys 41, 201–247. https://doi.org/10.1007/s10712-019-09576-2



2019

 
Geometric morphometrics reveal interspecific and sexual differences in bill morphology in four sympatric planktivorous petrels

Trallero L, Farré M, Phillips RA, Navarro J (2019). Journal of Zoology, 307, 167–177


 

Additive traits lead to feeding advantage and reproductive isolation, promoting homoploid hybrid speciation

Masello JF, Quillfeldt P, Sandoval-Castellanos E, Alderman R, Calderón L, Cherel Y, Cole TL, Cuthbert RJ, Marin M, Massaro M, Navarro J, Phillips RA, Ryan PG, Shepherd LD, Suazo CG, Weimerskirch H, Moodley Y (2019.  Molecular Biology and Evolution 39, 1671–1685


 
The deglaciation of Barton Peninsula (King George Island, South Shetland, Antarctica) based on geomorphic evidence and lacustrine records

Oliva, M., Antoniades, D., Serrano, E., Giralt, S., Liu, E.J., Toro, M., Pla-Rabes, S., Granados, I., Hong, S.G. and Vieira, G. (2019). Polar Record, 55: 177-188  https://doi.org/10.1017/S0032247419000469


 
Simultaneous detection of alkylamines in the surface ocean and atmosphere of the Antarctic sympagic environment

Dall’Osto M., R. Airs, R. Beale, C. Cree, M. Fitzsimons, D. Beddows, R. Harrison, D. Ceburnis, C. O’Dowd, M. Rinaldi, M. Paglione, A. Nenes, S. Decesari, R. Simó (2019). ACS Earth and Space Chemistry 3 : 854-862 https://doi.org/10.1021/acsearthspacechem.9b00028


 
Phytoplankton community structure in contrasting ecosystems of the Southern Ocean: South Georgia, South Orkneys and Western Antarctic Peninsula

Nunes S., M. Latasa, M. Delgado, M. Emelianov, R. Simó, M. Estrada (2019). Deep-Sea Research I 151: 103059 https://doi.org/10.1016/j.dsr.2019.06.005


 
Distribution of transparent exopolymer particles (TEP) in distinct regions of the Southern Ocean

Zamanillo M., E. Ortega-Retuerta, S. Nunes, M. Estrada, M.M. Sala, S.-J. Royer, D.C. López-Sandoval, M. Emelianov, D. Vaqué, C. Marrasé, R. Simó (2019). Science of the Total Environment 691: 736-748 https://doi.org/10.1016/j.scitotenv.2019.06.524


 
Late Pleistocene oceanographic and depositional variations along the Wilkes Land margin (East Antarctica) reconstructed with geochemical proxies in deep-sea sediments

Jimenez-Espejo, F.J., Presti, M., Kuhn, G., Mckay, R., Crosta, X., Escutia, C., Lucchi, R.G., Tolotti, R., Yoshimura, T., Ortega Huertas, M., Macrì, P., Caburlotto, A., De Santis, L. (2019). Global and Planetary Change 184 https://doi.org/10.1016/j.gloplacha.2019.103045


 
Keeping an eye on Antarctic ice sheet stability

Escutia, C., DeConto, R., Dunbar, R., De Santis, L., Shevenell, A., Naish, T. (2019).  Oceanography 32(1):32–46  https://doi.org/10.5670/oceanog.2019.117


 
Glaucony authigenesis, maturity and alteration in the Weddell Sea: An indicator of paleoenvironmental conditions before the onset of Antarctic glaciation

López-Quirós, A., Escutia, C., Sánchez-Navas, A., Nieto, F., García-Casco, A., Martín-Algarra, A. Evangelinos, D., and Salabarnada, A. (2019). Scientific Reports 9 (1) 13580 https://doi.org/10.1038/s41598-019-50107-1


 
Ocean temperature impact on ice shelf extent in the eastern Antarctic Peninsula

Etourneau J., Sgubin, G., Crosta, L., Swingedouw, D., Willmott, V., Barbara, L., Houssais, M.-N., Schouten, S., Sinninghe Damsté, J., Goose, H., Escutia, C., Crespin, J., Massé, G and Kim, J.-H. (2019). Nature Commnunications 10: 1-8 https://doi.org/10.1038/s41467-018-08195-6


 
Using Fixed-Wing UAV for detecting and mapping the distribution and abundance of penguins on the South Shetlands Islands, Antarctica

PFEIFER, C., BARBOSA, A., MUSTAFA, O., PETER, H-U., RÜMMLER, M-C., BRENNING, A. (2019).  Drones 3: 39 https://doi.org/10.3390/drones3020039


 
Oxidative status and stress during highly energetic life-history stages of Chinstrap Penguins: breeding versus molting

COLOMINAS-CIURÓ, R., MASERO, J.A., BENZAL, J., BERTELLOTTI, M., BARBOSA, A. (2019).  Journal of Field Ornithology 90: 190-199 https://doi.org/10.1111/jofo.12297


 
Happy Feet in a Hostile World? The Future of Penguins Depends on Proactive Management of Current and Expected Threats

S., KATO, A., MCINTOSH, R.R., LEWIS, P., RAMIREZ, F., RUOPPOLO, V., RYAN, P.G., SEDDON, P.J., SHERLEY, R.B., VANSTREELS, R.E.T., WALLER, L.J., WOEHLER, E.J., TRATHAN, P.N. (2019). Frontiers in Marine Science https://doi.org/10.3389/fmars.2019.00248


 
Benthic communities of the Filchner Region (Weddell Sea, Antarctica)

Pineda-Metz S, Isla E, Gerdes D (2019)  Mar Ecol Prog Ser 628:37–54. DOI: 10.3354/meps13093


 
Ongoing ocean warming threatens the rich and diverse macrobenthic communities of the Antarctic continental shelf

Isla E, Gerdes D (2019) Prog Oceanogr 178. DOI: 10.1016/j.pocean.2019.102180


 
Symbiosis at its limits: ecophysiological consequences of lichenization in the genus Prasiolain Antarctica

Fernández-Marín B., López-Pozo M., Perera-Castro AV, Arzac MI, Sáenz-Ceniceros A, Colesie C., De Los Ríos A., Sancho LG, Pintado A., Laza JM, Pérez-Ortega S., García-Plazaola JI (2019).  Annals of Botany DOI: 1093/aob/mcz149 .


 
Snow Amplification of Persistent Organic Pollutants at Coastal Antarctica
Paulo Casal, Gemma Casas, Maria Vila-Costa, Ana Cabrerizo, Mariana Pizarro, Begoña Jiménez, and Jordi Dachs. Environmental Science & Technology 53 (15), 8872-8882

DOI: 10.1021/acs.est.9b03006

 

Relationships between isotopic ratios, body condition and breeding success in a High Arctic seabird community

J. Hovinen, A. Tarroux, F. Ramírez, M.G. Forero, S. Descamps (2019). Marine Ecology Progress Series, 613:183-195. https://doi.org/10.3354/meps12886


 

Diverging phenological responses of Arctic seabirds to an earlier spring

S. Descamps, F. Ramírez, S. Benjaminsen, T. Anker-Nilssen, R.T Barrett, Z. Burr, S. Christensen-Dalsgaard, K.E. Erikstad, D.B. Irons, S.-H. Lorentsen, M.L. Mallory, G. Robertson, H. Strøm, Ø. Varpe and S. Lavergne (2019). Global Change Biology, 25(12): 4081-4091. https://doi.org/10.1111/gcb.14780


 
On the retrieval of sea ice thickness using SMOS polarization differences

M. Gupta, C. Gabarró, A. Turiel, M. Portabella, J. Martinez. (2019). Journal of Glaciology, Vol. 65, Issue 251 https://doi.org/10.1017/jog.2019.26


 
The European 2016/17 drought

García-Herrera R, Garrido-Perez JM, Barriopedro D, et al (2019)  J Clim 32:3169–3187. DOI: 10.1175/JCLI-D-18-0331.1


 
Role of the position of the North Atlantic jet in the variability and odds of extreme PM10 in Europe

Ordóñez C, Barriopedro D, García-Herrera R (2019) . Atmos Environ 210:35–46. DOI: 10.1016/j.atmosenv.2019.04.045


 
Examining the North Atlantic oscillation, East Atlantic pattern, and jet variability since 1685

Mellado-Cano J, Barriopedro D, García-Herrera R, et al (2019) J Clim 32:6285–6298. DOI: 10.1175/JCLI-D-19-0135.1


 
Fluid flow and pore pressure development throughout the evolution of a trough mouth fan, western Barents Sea

Llopart, J., Urgeles, R., Forsberg, C.F., Camerlenghi, A., Vanneste, M., Rebesco, M., Lucchi, R.G., Rüther, D.C., Lantzsch, H. (2019).Basin Research, 31: 487-513. DOI: 10.1111/bre.12331


 
Lagrangian transport across the upper Arctic waters in the Canadian Basin
F. Balibrea-Iniesta, J. Xie, V. J. García-Garrido, L. Bertino, A. M. Mancho, S. Wiggins. Q. J. R. Meteorol. Soc. 145, 76-91, (2019). DOI: 10.1002/qj.3404
 

 
Fostering multidisciplinary research on interactions between chemistry, biology, and physics within the coupled cryosphere-atmosphere system

Thomas, JL, et al. 2019.  Elem Sci Anth, 7: 58. DOI: 10.1525/elementa.396


 
Holocene atmospheric iodine evolution over the North Atlantic

Corella, J. P., Maffezzoli, N., Cuevas, C. A., Vallelonga, P., Spolaor, A., Cozzi, G., … Saiz-Lopez, A. (2019).  Climate of the Past, 15(6), 2019–2030. DOI: 10.5194/cp-15-2019-2019


 
A 120,000-year record of sea ice in the North Atlantic?

Maffezzoli, N., Vallelonga, P., Edwards, R., Saiz-Lopez, A., Turetta, C., Kjær, H. A., … Spolaor, A. (2019).  Climate of the Past, 15(6), 2031–2051. DOI: 10.5194/cp-15-2031-2019


 
Arctic primary aerosol production strongly influenced by riverine organic matter

Park J., M. Dall’Osto, K. Park, J.-H. Kim, J. Park, K.-T. Park, C.Y. Hwang, G. Jang, Y. Gim, S. Kang, S. Park, Y.K. Jin, S.S. Yum, R. Simó, Y.J. Yoon (2019). Environmental Science and Technology 53: 8621-8630 https://doi.org/10.1021/acs.est.9b03399


 
Simultaneous measurements of aerosol size distributions at three sites in the European high Arctic

Dall’Osto M., D.C.S. Beddows, P. Tunved, R.M. Harrison, A. Lupi, V. Vitale, S. Becagli, R. Traversi, K.-T. Park, Y.J. Yoon, A. Massling, H. Skov, R. Lange, J. Strom, R. Krejci (2019). Atmos. Chem. Phys., 19, 7377–7395 https://doi.org/10.5194/acp-19-7377-2019


 
Large summer contribution of organic biogenic aerosols to Arctic cloudcondensation nuclei

Lange R., M. Dall’Osto, H. Wex, H. Skov, A. Massling (2019). Geophysical Research Letters, 46 https://doi.org/10.1029/2019GL084142


 
Biogenic and anthropogenic sources of aerosols at the High Arctic site Villum Research Station

Nielsen IE, H. Skov, A. Massling, A.C. Eriksson, M. Dall’Osto, H. Junninen, N. Sarnela, R. Lange, S. Collier, Q. Zhang, C.D. Cappa, J.K. Nøjgaard (2019). Atmos. Chem. Phys., 19, 10239–10256 https://doi.org/10.5194/acp-19-10239-2019


 
Biogenic sources of ice nucleation particles at the High Arctic Site Villum Research Station

Santl-Temkiv T., R. Lange, D. Beddows, R. Rauter, S. Pilgaard, M. Dall’Osto, N. Gunde-Cimerman, A. Massling, H. Wex (2019). Environ. Sci. Technol. 53 (18): 10580–10590.  https://doi.org/10.1021/acs.est.9b00991


 
Warming and CO2 Enhance Arctic Heterotrophic Microbial Activity

Vaqué D., E. Lara, J.M. Arrieta, J. Holding, E.L. Sà, I.E. Hendriks, A. Coello-Camba, M. Alvarez, S. Agustí, P.F. Wassmann, C.M. Duarte (2019). Frontiers Microbiology, 10: 494 https://doi.org/10.3389/fmicb.2019.00494


 
Organic coating on sulfate and soot particles during late summer in the Svalbard Archipelago.

Yu H., W. Li, Y. Zhang, P. Tunved, M. Dall’Osto, X. Shen, J. Sun, X. Zhang, J. Zhang, Z. Shi (2019). Atmos. Chem. Phys., 19, 10433–10446 https://doi.org/10.5194/acp-19-10433-2019



 
State-of-the-art global models underestimate impacts from climate extremes

Schewe, J., Elliott, J., Francois, L., Gosling, S.N., Huber, V., Lotze, H.K., Reyer, C., Seneviratne, S.I., van Vliet, M.T.H., Vautard, R., Wada, Y., Zhao, F., Breuer, L., Büchner, M., Carozza, D.A., Chang, J., Ciais, P., Coll, M., Deryng, D., de Wit, A., Eddy, T.D., Folberth, C., Frieler, K., Friend, A., Gerten, D., Gudmundsson, L., Hanasaki, N., Ito, A., Khabarov, N., Kim, H., Lawrence, P., Morfopoulos, C., Müller, C., Schmied, H.M., René, Ostberg, S., Pokhrel, Y., Pugh, T.A.M., Sakurai, G., Satoh, Y., Schmid, E., Stacke, T., Steenbeek, J., Steinkamp, J., Tang, Q., Tian, H., Tittensor, D., Volkholz, J., Wang, X., Warszawski, L., 2019. Nature Communications 10, 1005.


 
Global ensemble projections reveal trophic amplification of ocean biomass declines with climate change

Lotze, H.K., Tittensor, D.P., Bryndum-Buchholz, A., Eddy, T.D., Cheung, W.L., Galbraith, E.D., Barange, M., Barrier, N., Bianchi, D., Blanchard, J.L., Bopp, L., Büchner, M., Bulman, C., Carozza, D.A., Christensen, V., Coll, M., Dunne, J., Fulton, E.A., Jennings, S., Jones, M., Mackinson, S., Maury, O., Niiranen, S., Oliveros-Ramos, R., Roy, T., Fernandes, J.A., Schewe, J., Shin, Y.J., Silva, T.A.M., Steenbeek, J., Stock, C.A., Verley, P., Volkholz, J., Walker, N.D., Worm, B., 2019. Proceedings of the National Academy of Science of the United States of America 116, 12907-12912.


 
21st century climate change impacts on marine animal biomass and ecosystem structure across ocean basins

Bryndum-Buchholz, A., Tittensor, D., Blanchard, J., Cheung, W., Coll, M., Galbraith, E.D., Jennings, S., Maury, O., Lotze, H.K., 2019. Global Change Biology 25, 459-472.


 
Geomagnetic Sfe by means of a Solar Flare Detector based on GNSS

Curto, J.J., Juan, J.M., Timoté, C. “Confirming “. Journal of Space Weather and Space Climate, doi: 10.1051/swsc/2019040


 
Version 2 of the EUMETSAT OSI SAF and ESA CCI Sea Ice Concentration Climate Data Records.

T. Lavergne, A. Sørensen, S. Kern, R. Tonboe, D. Notz, S. Aaboe, L. Bell, G. Dybkjær, S. Eastwood, G. Heygster, C. Gabarró. (2019). The Cryosphere. 13 – 1, 2019 https://doi.org/10.5194/tc-13-49-2019


 
Fostering multidisciplinary research on interactions between chemistry, biology, and physics within the coupled cryosphere-atmosphere system

Thomas, JL, et al. 2019.  Elem Sci Anth, 7: 58. DOI: 10.1525/elementa.396


 
Biodegradation as an important sink of aromatic hydrocarbons in the oceans

González-Gaya, B., Martínez-Varela, A., Vila-Costa, M. et al. Nature Geosci 12, 119–125 (2019) DOI: 10.1038/s41561-018-0285-3


 
Microbial responses to anthropogenic dissolved organic carbon in the Arctic and Antarctic coastal seawaters

Cerro‐Gálvez, E. , Casal, P. , Lundin, D. , Piña, B. , Pinhassi, J. , Dachs, J. and Vila‐Costa, M. (2019),  Environ Microbiol, 21: 1466-1481. doi:10.1111/1462-2920.14580


 
Quo Vadis: Look to the future

Koppers, C., Escutia, C., Inagaki, F., Paelike, H., Saffer, D.M., and Thomas, D. (2019). Oceanography 32(1): 218-219  https://doi.org/10.5670/oceanog.2019.150


 
Introduction to the special issue on scientific ocean drilling: Looking to the future

Koppers, C., Escutia, C., Inagaki, F., Paelike, H., Saffer, D.M., and Thomas, D. (2019). Oceanography 32(1):14-15 https://doi.org/10.5670/oceanog.2019.108


 
Modeling 3D free-geometry volumetric sources associated to geological and anthropogenic hazards from space and terrestrial geodetic data

Camacho, A.G., Fernández, J., (2019). Remote Sens., 11(17), 2042 https://doi.org/10.3390/rs11172042



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