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5. List of Contributors

Author

Abbas, B., primary, Abreu, A., additional, Adams, R., additional, Adolfsson-Erici, M., additional, Afonso, A., additional, Afonso-Olivares, C., additional, Agirbas, E., additional, Aguiló, J.M., additional, Airoldi, L., additional, Aksoy, H., additional, Albentosa, M., additional, Alcaro, L., additional, Aliani, S., additional, Al-Maslamani, I., additional, Alomar, C., additional, Altin, D., additional, Álvarez, E., additional, Amaral-Zettler, L.A., additional, Amato, E., additional, Anderson, A., additional, Andrady, A.L., additional, Andrius, G., additional, Angel, D., additional, Ariese, F., additional, Arp, H.P., additional, Asensio, M., additional, Assidqi, K., additional, Avio, C.G., additional, Aytan, U., additional, Bahri, T., additional, Baini, M., additional, Bakir, A., additional, Ball, H., additional, Baranyi, C., additional, Barboza, L.G.A., additional, Barg, U., additional, Bargelloni, L., additional, Barras, H., additional, Barrera, C., additional, Barria, P., additional, Barrows, A., additional, Barth, A., additional, Batel, A., additional, Baztan, J., additional, Baztan, P., additional, Beiras, R., additional, Benedetti, M., additional, Berber, A.A., additional, Berber, N., additional, Bergmann, M., additional, Berlino, M., additional, Berrow, S., additional, Bessa, F., additional, Besseling, E., additional, Beyer, B., additional, Binaglia, M., additional, Bizjak, T., additional, Bjorndal, K.A., additional, Blust, R., additional, Boertien, M., additional, Bolten, A.B., additional, Booth, A.M., additional, Bounoua, B., additional, Bourseau, P., additional, Brahimi, N., additional, Bramini, M., additional, Brennholt, N., additional, Breuninger, E., additional, Bried, J., additional, Broderick, A., additional, Broglio, E., additional, Browne, M.A., additional, Bruzaud, S., additional, Buceta, J., additional, Buchinger, S., additional, Budimir, S., additional, Budzin-ski, H., additional, Butter, E., additional, Cachot, J., additional, Caetano, M., additional, Callaghan, A., additional, Camedda, A., additional, Capella, S., additional, Cardelli, L., additional, Carpentieri, S., additional, Carrasco, A., additional, Carriço, R., additional, Caruso, A., additional, Cassone, A.-L., additional, Castillo, A., additional, Castro, R.O., additional, Catarino, A.I., additional, Cazenave, P.W., additional, Çelik, İ., additional, Cerralbo, P., additional, César, G., additional, Chouinard, O., additional, Chubarenko, I., additional, Chubarenko, I.P., additional, Cicero, A.M., additional, Clarindo, G., additional, Clarke, B., additional, Clérandeau, C., additional, Clüsener-Godt, M., additional, Codina-García, M., additional, Cole, M., additional, Collard, F., additional, Collignon, A., additional, Collins, T., additional, Compa, M., additional, Conan, P., additional, Constant, M., additional, Cordier, M., additional, Courtene-Jones, W., additional, Cousin, X., additional, Covelo, P., additional, Cózar, A., additional, Crichton, E., additional, Crispi, O., additional, Cronin, M., additional, Croot, P.L., additional, Cruz, M.J., additional, d’Errico, G., additional, Dâmaso, C., additional, Das, K., additional, de Alencastro, L.F., additional, de Araujo, F.V., additional, de Boer, J.F., additional, de Lucia, G.A., additional, Debeljak, P., additional, Dehaut, A., additional, Deudero, S., additional, Devrieses, L., additional, Di Vito, S., additional, Díaz, A., additional, Donohue, J., additional, Doumenq, P., additional, Doyle, T.K., additional, Dris, R., additional, Druon, J.-N., additional, Duarte, C.M., additional, Duflos, G., additional, Dumontier, M., additional, Duncan, E., additional, Dussud, C., additional, Eckerlebe, A., additional, Egelkraut-Holtus, M., additional, Eidsvoll, D.P., additional, Ek, C., additional, Elena, S., additional, Elineau, A., additional, Enevoldsen, H., additional, Eppe, G., additional, Eriksen, M., additional, Ernsteins, R., additional, Espino, M., additional, Estévez-Calvar, N., additional, Ewins, C., additional, Fabre, P., additional, Faimali, M., additional, Fattorini, D., additional, Faure, F., additional, Ferrando, S., additional, Ferreira, J.C., additional, Ferreira-da-Costa, M., additional, Fileman, E., additional, Fischer, M., additional, Fortunato, A.B., additional, Fossi, M.C., additional, Foulon, V., additional, Frank, A., additional, Frenzel, M., additional, Frère, L., additional, Frias, J.P.G.L., additional, Frick, H., additional, Froneman, P.W., additional, Gabet, V.M., additional, Gabrielsen, G.W., additional, Gago, J., additional, Gajst, T., additional, Galgani, F., additional, Gallinari, M., additional, Galloway, T.S., additional, Gamarro, E.G., additional, Gambardella, C., additional, Garaventa, F., additional, Garcia, S., additional, Garrabou, J., additional, Garrido, P., additional, Gary, S.F., additional, Gasperi, J., additional, Gaze, W., additional, Geertz, T., additional, Gelado-Caballero, M.D., additional, George, M., additional, Gercken, J., additional, Gerdts, G., additional, Ghiglione, J.-F., additional, Gies, E., additional, Gilbert, B., additional, Giménez, L., additional, Glassom, D., additional, Glockzin, M., additional, Godley, B., additional, Goede, K., additional, Goksøyr, A., additional, Gómez, M., additional, Gómez-Parra, A., additional, González-Marco, D., additional, González-Solís, J., additional, Gorbi, S., additional, Gorokhova, E., additional, Gorsky, G., additional, Gosch, M., additional, Grose, J., additional, Guebitz, G.M., additional, Guedes-Alonso, R., additional, Guijarro, B., additional, Guilhermino, L., additional, Gundry, T., additional, Gutow, L., additional, Haave, M., additional, Haeckel, M., additional, Haernvall, K., additional, Hajbane, S., additional, Hamann, M., additional, Hämer, J., additional, Hamm, T., additional, Hansen, B.H., additional, Hardesty, B.D., additional, Harth, B., additional, Hartikainen, S., additional, Hassellöv, M., additional, Hatzky, S., additional, Healy, M.G., additional, Hégaret, H., additional, Henry, T.B., additional, Hermabessiere, L., additional, Hernández-Brito, J.J., additional, Hernandez-Gonzalez, A., additional, Hernandez-Milian, G., additional, Hernd, G., additional, Herrera, A., additional, Herring, C., additional, Herzke, D., additional, Heussner, S., additional, Hidalgo-Ruz, V., additional, Himber, C., additional, Holland, M., additional, Hong, N.-H., additional, Horton, A.A., additional, Horvat, P., additional, Huck, T., additional, Huhn, M., additional, Huvet, A., additional, Iglesias, M., additional, Igor, C., additional, Isachenko, I.A., additional, Ivar do Sul, J-A., additional, Jahnke, A., additional, Janis, B., additional, Janis, K., additional, Janis, U., additional, Jemec, A., additional, Jiménez, J.C., additional, Johnsen, H., additional, Jorgensen, B., additional, Jørgensen, J.H., additional, Jörundsdóttir, H., additional, Jung, Y.-J., additional, Kedzierski, M., additional, Keiter, S., additional, Kershaw, P., additional, Kerhervé, P., additional, Kesy, K., additional, Khan, F., additional, Khatmullina, L.I., additional, Kirby, J., additional, Kiriakoulakis, K., additional, Klein, R., additional, Klunderud, T., additional, Knudsen, C.M.H., additional, Knudsen, T.B., additional, Kochleus, C., additional, Koelmans, A.A., additional, Kögel, T., additional, Koistinen, A., additional, Kopke, K., additional, Korez, Š., additional, Kowalski, N., additional, Kreikemeyer, B., additional, Kroon, F., additional, Krumpen, T., additional, Krzan, A., additional, Kržan, A., additional, Labrenz, M., additional, Lacroix, C., additional, Ladirat, L., additional, Laforsch, C., additional, Lagarde, F., additional, Lahive, E., additional, Lambert, C., additional, Lapucci, C., additional, Lattin, G., additional, Law, K.L., additional, Le Roux, F., additional, Le Souef, K., additional, Le Tilly, V., additional, Lebreton, L., additional, Leemans, E., additional, Lehtiniemi, M., additional, Lenz, M., additional, Leskinen, J., additional, Leslie, H., additional, Leslie, H.A., additional, Levasseur, C., additional, Lewis, C., additional, Licandro, P., additional, Lind, K., additional, Lindeque, P., additional, Lindeque, P.K., additional, Lips, I., additional, Liria, A., additional, Liria-Loza, A., additional, Llinás, O., additional, Loiselle, S.A., additional, Long, M., additional, Lorenz, C., additional, Lorenzo, S.M., additional, Loubar, K., additional, Luna-Jorquera, G., additional, Lusher, A.L., additional, Macchia, V., additional, MacGabban, S., additional, Mackay, K., additional, MacLeod, M., additional, Maes, T., additional, Magaletti, E., additional, Maggiore, A., additional, Magnusson, K., additional, Mahon, A.M., additional, Makorič, P., additional, Mallow, O., additional, Marques, J., additional, Marsili, L., additional, Martí, E., additional, Martignac, M., additional, Martin, J., additional, Martínez, I., additional, Martínez, J., additional, Martinez-Gil, M., additional, Martins, H.R., additional, Matiddi, M., additional, Maximenko, N., additional, Mazlum, R., additional, Mcadam, R., additional, Mcknight, L., additional, McNeal, A.W., additional, Measures, J., additional, Mederos, M.S., additional, Mendoza, J., additional, Meyer, M.S., additional, Miguelez, A., additional, Milan, M., additional, Militão, T., additional, Miller, R.Z., additional, Mino-Vercellio-Verollet, M., additional, Mir, G., additional, Miranda-Urbina, D., additional, Misurale, F., additional, Montesdeoca-Esponda, S., additional, Mora, J., additional, Morgana, S., additional, Moriceau, B., additional, Morin, B., additional, Morley, A., additional, Morrison, L., additional, Murphy, F., additional, Naidoo, T., additional, Näkki, P., additional, Napper, I.E., additional, Narayanaswamy, B.E., additional, Nash, R., additional, Negri, A., additional, Nel, H.A., additional, Nerheim, M.S., additional, Nerland, I.L., additional, Neto, J., additional, Neves, V., additional, Nies, H., additional, Noel, M., additional, Nor, N.H.M., additional, Noren, F., additional, O’ Connell, B., additional, O’ Connor, I., additional, Obbard, J.P., additional, Oberbeckmann, S., additional, Obispo, R., additional, Officer, R., additional, Ogonowski, M., additional, Orbea, A., additional, Ortlieb, M., additional, Osborn, A.M., additional, Ostiategui-Francia, P., additional, Packard, T., additional, Pahl, S., additional, Palatinus, A., additional, Palmqvist, A., additional, Pannetier, P., additional, Panti, C., additional, Parmentier, E., additional, Pasanen, P., additional, Patarnello, T., additional, Pattiaratchi, C., additional, Pauletto, M., additional, Paulus, M., additional, Pavlekovsky, K., additional, Pedersen, H.B., additional, Pedrotti, M.-L., additional, Peeken, I., additional, Peeters, D., additional, Peeters, E., additional, Pellegrini, D., additional, Perales, J.A., additional, Perez, E., additional, Perz, V., additional, Petit, S., additional, Pflieger, M., additional, Pham, C.K., additional, Piazza, V., additional, Pinto, M., additional, Planells, O., additional, Plaza, M., additional, Pompini, O., additional, Potthoff, A., additional, Prades, L., additional, Primpke, S., additional, Proietti, M., additional, Proskurowski, G., additional, Puig, C., additional, Pujo-Pay, M., additional, Pullerits, K., additional, Queirós, A.M., additional, Quinn, B., additional, Raimonds, E., additional, Ramis-Pujol, J., additional, Rascher-Friesenhausen, R., additional, Reardon, E., additional, Regoli, F., additional, Reichardt, A.M., additional, Reifferscheid, G., additional, Reilly, K., additional, Reisser, J., additional, Riba, I., additional, Ribitsch, D., additional, Rinnert, E., additional, Rios, N., additional, Rist, S.E., additional, Rivadeneira, M.M., additional, Rivière, G., additional, Robbens, J., additional, Robertson, C.J.R., additional, Rocher, V., additional, Rochman, C.M., additional, Rodrigues, M., additional, Rodriguez, Y., additional, Rodríguez, A., additional, Rodríguez, G., additional, Rodríguez, J.R.B., additional, Rodríguez, S., additional, Rodríguez, Y., additional, Rogan, E., additional, Rojo-Nieto, E., additional, Romeo, T., additional, Ross, P.S., additional, Roveta, A., additional, Rowland, S.J., additional, Ruckstuhl, N.A., additional, Ruiz-Fernández, A-C., additional, Ruiz-Orejón, L.F., additional, Runge, J., additional, Russell, M., additional, Saavedra, C., additional, Saborowski, R., additional, Sahin, B.E., additional, Sailley, S., additional, Sakaguchi-Söder, K., additional, Salaverria, I., additional, Sánchez-Arcilla, A., additional, Sánchez-Nieva, J., additional, Sanderson, W., additional, Santana-Rodríguez, J.J., additional, Santana-Viera, S., additional, Santos, M.B., additional, Santos, M.R., additional, Sanz, M.R., additional, Sardá, R., additional, Savelli, H., additional, Schoeneich-Argent, R., additional, Scholz-Böttcher, B.M., additional, Sciacca, F., additional, Scofield, R.P., additional, Setälä, O., additional, Selenius, M., additional, Sempere, R., additional, Senturk, Y., additional, Shashoua, Y., additional, Sherman, P., additional, Sick, C., additional, Siegel, D., additional, Sierra, J.P., additional, Silva, F., additional, Silvestri, C., additional, Sintija, G., additional, Sire, O., additional, Slat, B., additional, Smit, A., additional, Sobral, P., additional, Sorvari, J., additional, Sosa-Ferrera, Z., additional, Sotillo, M.G., additional, Soudant, P., additional, Speidel, L., additional, Spurgeon, D.J., additional, Steer, M.K., additional, Steindal, C.C., additional, Stifanese, R., additional, Štindlová, A., additional, Stuurman, L., additional, Suaria, G., additional, Suazo, C.G., additional, Sureda, A., additional, Surette, C., additional, Svendsen, C., additional, Syberg, K., additional, Tairova, Z., additional, Talvitie, J., additional, Tassin, B., additional, Tazerout, M., additional, Tekman, M.B., additional, ter Halle, A., additional, Thiel, M., additional, Thomas, K.V., additional, Thompson, R.C., additional, Tinkara, T., additional, Tirelli, V., additional, Tomassetti, P., additional, Toorman, E., additional, Toppe, J., additional, Tornambè, A., additional, Torres, R., additional, Torres-Padrón, M.E., additional, Underwood, A.J., additional, Urbina, M., additional, Usategui-Martín, A., additional, Usta, R., additional, Valdés, L., additional, Valente, A., additional, Valentina, T., additional, van Arkel, K., additional, Van Colen, C., additional, Van Der Hal, N., additional, van Franeker, J.A., additional, Van Herwerden, L., additional, Van Loosdrecht, M., additional, van Oyen, A., additional, Vandeperre, F., additional, Vanderlinden, J-P., additional, Vani, D., additional, Vasconcelos, L., additional, Vega-Moreno, D., additional, Ventero, A., additional, Vethaak, A.D., additional, Vianello, A., additional, Vicioso, M., additional, Vieira, L.R., additional, Viršek, M.K., additional, Vos, M., additional, Wahl, M., additional, Wallace, N., additional, Walton, A., additional, Waniek, J.J., additional, Watts, A., additional, Webster, L., additional, Wesch, C., additional, Whitfield, E., additional, Wichels, A., additional, Wieczorek, A.M., additional, Wilcox, C., additional, Williams, R.J., additional, Wong-Wah-Chung, P., additional, Wright, S., additional, Wyles, K.J., additional, Young, R., additional, Yurtsever, M., additional, Yurtsever, U., additional, Zada, L., additional, Zamani, N.P., additional, and Zampetti, G., additional

Published
2017
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8. Behaviour of a self-reinforced polylactic acid (SRPLA) in seawater

Author

Le Gall, Maelenn, Niu, Z., Curto, M., Catarino, A.i., Demeyer, E., Jiang, C., Dhakal, H., Everaert, G., Davies, Peter, Le Gall, Maelenn, Niu, Z., Curto, M., Catarino, A.i., Demeyer, E., Jiang, C., Dhakal, H., Everaert, G., and Davies, Peter

Abstract

The goal of this study was to determine whether a bio-based self-reinforced polylactic acid (SRPLA) is suitable for use in structures deployed in the marine environment. The material was produced from co-mingled fibres with different melting points. Two key criteria, durability during service and microplastic formation, were examined. To assess durability, mechanical properties, tension and transverse impact, were used to quantify the influence of seawater ageing for up to 24 months. After seawater ageing at 40 °C for 12 months, composite strength was completely degraded. To assess microplastic formation, specimens of SRPLA were exposed in seawater to accelerated ultraviolet (UV) radiation simulating natural exposure for up to 18 months. Fluorescence microscopy and infrared technology were used to quantify and characterise the microplastics formed. Their number was independent of UV exposure, suggesting short-term UV radiation does not accelerate SRPLA microplastic formation. We discuss the potential for SRPLA to be considered a promising material for sustainable marine applications.

Published
2022
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10. Properties, morphogenesis, and effect of acidification on spines of the cidaroid sea urchin Phyllacanthus imperialis

Author

Dery, A., Guibourt, V., Catarino, A.I., Compère, P., and Dubois, P.

Subjects
Echinodermata [Echinoderms], Phyllacanthus imperialis
Abstract

Cidaroid sea urchins are the sister clade to all other extant echinoids and have numerous unique features, including unusual primary spines. These lack an epidermis when mature, exposing their high-magnesium calcite skeleton to seawater and allowing the settlement of numerous epibionts. Cidaroid spines are made of an inner core of classical monocrystalline skeleton and an outer layer of polycrystalline magnesium calcite. Interestingly, cidaroids survived the Permian-Triassic crisis, which was characterized by severe acidification of the ocean. Currently, numerous members of this group inhabit the deep ocean, below the saturation horizon for their magnesium calcite skeleton. This suggests that members of this taxon may have characteristics that may allow them to resist ongoing ocean acidification linked to global change. We compared the effect of acidified seawater (pH 7.2, 7.6, or 8.2) on mature spines with a fully developed cortex to that on young, growing spines, in which only the stereom core was developed. The cortex of mature spines was much more resistant to etching than the stereom of young spines. We then examined the properties of the cortex that might be responsible for its resistance compared to the underlying stereomic layers, namely morphology, intramineral organic material, magnesium concentration, intrinsic solubility of the mineral, and density. Our results indicate that the acidification resistance of the cortex is probably due to its lower magnesium concentration and higher density, the latter reducing the amount of surface area in contact with acidified seawater. The biofilm and epibionts covering the cortex of mature spines may also reduce its exposure to seawater.

Published
2014

11. Effects of CO2-induced ocean acidification on physiological and mechanical properties of the starfish Asterias rubens

Author

Collard, M., Catarino, A.I., Bonnet, S., Flammang, P., and Dubois, P.

Subjects
Echinodermata [Echinoderms], Asterias rubens [Common starfish]
Abstract

The increase in atmospheric CO2 due to anthropogenic activity results in an acidification of the surface waters of the oceans. Its impact will depend on the considered organisms and ecosystems. The intertidal may harbor organisms pre-adapted to the upcoming changes as they face tidal pH and temperature fluctuations. However, these environments will be more affected as shallow waters will face the highest decrease in seawater pH. In this context, the effects of reduced environmental pH on the physiology and tube feet mechanical properties of the intertidal starfish Asterias rubens, a top predator, were investigated during 15 and 27 days. A. rubens showed a respiratory acidosis with its coelomic fluid pH always lower than that of seawater. This acidosis was most pronounced at pH 7.4. Notwithstanding, the starfish showed no significant variations in RNA/DNA ratio of different tissues and in tube feet strength. However, respiration rates were significantly lower for individuals maintained at reduced seawater pH. Within the ocean acidification context, the present results suggest that A. rubens withstands the effects of reduced seawater pH, at least for medium term exposures.

Published
2013

12. Antarctic urchin Ctenocidaris speciosa spines: lessons from the deep

Author

Catarino, A.I., Guibourt, V., Moureaux, C., De Ridder, C., Compère, P., and Dubois, P.

Subjects
Ctenocidaris speciosa
Abstract

Ocean acidification is leading to changes in the oceanic carbonate system. As a result, calcium carbonate saturation horizon is shallowing, especially at high latitudes. Biogenic high magnesium-calcites could be particularly vulnerable, since their solubility is either similar or greater than that of aragonite. Cidaroid urchins have magnesium-calcite spines covered by a polycrystalline cortex which becomes exposed to seawater when mature (not covered by an epidermis). However, deep species live at low calcium carbonate saturation states, especially at high latitudes. We describe here the morphology and the magnesium content of Ctenocidaris speciosa spines collected at different depths from the Weddell Sea (Antarctica) and relate the features with seawater calcium carbonate saturation. We observed that the spines cortex of C. speciosa presented a thicker inner cortex layer and a lower [Mg2+] below the aragonite saturation horizon. We suggest that the cortex of cidaroid spines is able to resist to low calcium carbonate saturation state.

Published
2013

13. Acid-base balance and metabolic response of the sea urchin Paracentrotus lividus to different seawater pH and temperatures

Author

Catarino, A.I., Bauwens, M., and Dubois, P.

Subjects
Paracentrotus lividus
Abstract

Purpose In order to better understand if the metabolic responses of echinoids could be related to their acid–base status in an ocean acidification context, we studied the response of an intertidal sea urchin species, Paracentrotus lividus, submitted to low pH at two different temperatures. Methods Individuals were submitted to control (8.0) and low pH (7.7 and 7.4) at 10°C and 16°C (19 days). The relation between the coelomic fluid acid–base status, the RNA/DNA ratio of gonads and the individual oxygen uptake were studied. Results The coelomic fluid pH decreased with the aquarium seawater, independently of temperature, but this explained only 13% of the pH variation. The coelomic fluid showed though a partial buffer capacity that was not related to skeleton dissolution ([Mg2+] and [Ca2+] did not differ between pH treatments). There was an interaction between temperature and pH on the oxygen uptake (V O2) which was increased at pH 7.7 and 7.4 at 10°C in comparison with controls, but not at 16°C, indicating an upregulation of the metabolism at low temperature and pH. However, gonad RNA/DNA ratios did not differ according to pH and temperature treatments, indicating that even if maintenance of physiological activities has an elevated metabolic cost when individuals are exposed to stress, they are not directly affected during short-term exposure. Long-term studies are needed in order to verify if gonad production/growth will be affected by low pH seawaters exposure.

Published
2012

15. List of Contributors

Author

Abbas, B., Abreu, A., Adams, R., Adolfsson-Erici, M., Afonso, A., Afonso-Olivares, C., Agirbas, E., Aguiló, J.M., Airoldi, L., Aksoy, H., Albentosa, M., Alcaro, L., Aliani, S., Al-Maslamani, I., Alomar, C., Altin, D., Álvarez, E., Amaral-Zettler, L.A., Amato, E., Anderson, A., Andrady, A.L., Andrius, G., Angel, D., Ariese, F., Arp, H.P., Asensio, M., Assidqi, K., Avio, C.G., Aytan, U., Bahri, T., Baini, M., Bakir, A., Ball, H., Baranyi, C., Barboza, L.G.A., Barg, U., Bargelloni, L., Barras, H., Barrera, C., Barria, P., Barrows, A., Barth, A., Batel, A., Baztan, J., Baztan, P., Beiras, R., Benedetti, M., Berber, A.A., Berber, N., Bergmann, M., Berlino, M., Berrow, S., Bessa, F., Besseling, E., Beyer, B., Binaglia, M., Bizjak, T., Bjorndal, K.A., Blust, R., Boertien, M., Bolten, A.B., Booth, A.M., Bounoua, B., Bourseau, P., Brahimi, N., Bramini, M., Brennholt, N., Breuninger, E., Bried, J., Broderick, A., Broglio, E., Browne, M.A., Bruzaud, S., Buceta, J., Buchinger, S., Budimir, S., Budzin-ski, H., Butter, E., Cachot, J., Caetano, M., Callaghan, A., Camedda, A., Capella, S., Cardelli, L., Carpentieri, S., Carrasco, A., Carriço, R., Caruso, A., Cassone, A.-L., Castillo, A., Castro, R.O., Catarino, A.I., Cazenave, P.W., Çelik, İ., Cerralbo, P., César, G., Chouinard, O., Chubarenko, I., Chubarenko, I.P., Cicero, A.M., Clarindo, G., Clarke, B., Clérandeau, C., Clüsener-Godt, M., Codina-García, M., Cole, M., Collard, F., Collignon, A., Collins, T., Compa, M., Conan, P., Constant, M., Cordier, M., Courtene-Jones, W., Cousin, X., Covelo, P., Cózar, A., Crichton, E., Crispi, O., Cronin, M., Croot, P.L., Cruz, M.J., d’Errico, G., Dâmaso, C., Das, K., de Alencastro, L.F., de Araujo, F.V., de Boer, J.F., de Lucia, G.A., Debeljak, P., Dehaut, A., Deudero, S., Devrieses, L., Di Vito, S., Díaz, A., Donohue, J., Doumenq, P., Doyle, T.K., Dris, R., Druon, J.-N., Duarte, C.M., Duflos, G., Dumontier, M., Duncan, E., Dussud, C., Eckerlebe, A., Egelkraut-Holtus, M., Eidsvoll, D.P., Ek, C., Elena, S., Elineau, A., Enevoldsen, H., Eppe, G., Eriksen, M., Ernsteins, R., Espino, M., Estévez-Calvar, N., Ewins, C., Fabre, P., Faimali, M., Fattorini, D., Faure, F., Ferrando, S., Ferreira, J.C., Ferreira-da-Costa, M., Fileman, E., Fischer, M., Fortunato, A.B., Fossi, M.C., Foulon, V., Frank, A., Frenzel, M., Frère, L., Frias, J.P.G.L., Frick, H., Froneman, P.W., Gabet, V.M., Gabrielsen, G.W., Gago, J., Gajst, T., Galgani, F., Gallinari, M., Galloway, T.S., Gamarro, E.G., Gambardella, C., Garaventa, F., Garcia, S., Garrabou, J., Garrido, P., Gary, S.F., Gasperi, J., Gaze, W., Geertz, T., Gelado-Caballero, M.D., George, M., Gercken, J., Gerdts, G., Ghiglione, J.-F., Gies, E., Gilbert, B., Giménez, L., Glassom, D., Glockzin, M., Godley, B., Goede, K., Goksøyr, A., Gómez, M., Gómez-Parra, A., González-Marco, D., González-Solís, J., Gorbi, S., Gorokhova, E., Gorsky, G., Gosch, M., Grose, J., Guebitz, G.M., Guedes-Alonso, R., Guijarro, B., Guilhermino, L., Gundry, T., Gutow, L., Haave, M., Haeckel, M., Haernvall, K., Hajbane, S., Hamann, M., Hämer, J., Hamm, T., Hansen, B.H., Hardesty, B.D., Harth, B., Hartikainen, S., Hassellöv, M., Hatzky, S., Healy, M.G., Hégaret, H., Henry, T.B., Hermabessiere, L., Hernández-Brito, J.J., Hernandez-Gonzalez, A., Hernandez-Milian, G., Hernd, G., Herrera, A., Herring, C., Herzke, D., Heussner, S., Hidalgo-Ruz, V., Himber, C., Holland, M., Hong, N.-H., Horton, A.A., Horvat, P., Huck, T., Huhn, M., Huvet, A., Iglesias, M., Igor, C., Isachenko, I.A., Ivar do Sul, J-A., Jahnke, A., Janis, B., Janis, K., Janis, U., Jemec, A., Jiménez, J.C., Johnsen, H., Jorgensen, B., Jørgensen, J.H., Jörundsdóttir, H., Jung, Y.-J., Kedzierski, M., Keiter, S., Kershaw, P., Kerhervé, P., Kesy, K., Khan, F., Khatmullina, L.I., Kirby, J., Kiriakoulakis, K., Klein, R., Klunderud, T., Knudsen, C.M.H., Knudsen, T.B., Kochleus, C., Koelmans, A.A., Kögel, T., Koistinen, A., Kopke, K., Korez, Š., Kowalski, N., Kreikemeyer, B., Kroon, F., Krumpen, T., Krzan, A., Kržan, A., Labrenz, M., Lacroix, C., Ladirat, L., Laforsch, C., Lagarde, F., Lahive, E., Lambert, C., Lapucci, C., Lattin, G., Law, K.L., Le Roux, F., Le Souef, K., Le Tilly, V., Lebreton, L., Leemans, E., Lehtiniemi, M., Lenz, M., Leskinen, J., Leslie, H., Leslie, H.A., Levasseur, C., Lewis, C., Licandro, P., Lind, K., Lindeque, P., Lindeque, P.K., Lips, I., Liria, A., Liria-Loza, A., Llinás, O., Loiselle, S.A., Long, M., Lorenz, C., Lorenzo, S.M., Loubar, K., Luna-Jorquera, G., Lusher, A.L., Macchia, V., MacGabban, S., Mackay, K., MacLeod, M., Maes, T., Magaletti, E., Maggiore, A., Magnusson, K., Mahon, A.M., Makorič, P., Mallow, O., Marques, J., Marsili, L., Martí, E., Martignac, M., Martin, J., Martínez, I., Martínez, J., Martinez-Gil, M., Martins, H.R., Matiddi, M., Maximenko, N., Mazlum, R., Mcadam, R., Mcknight, L., McNeal, A.W., Measures, J., Mederos, M.S., Mendoza, J., Meyer, M.S., Miguelez, A., Milan, M., Militão, T., Miller, R.Z., Mino-Vercellio-Verollet, M., Mir, G., Miranda-Urbina, D., Misurale, F., Montesdeoca-Esponda, S., Mora, J., Morgana, S., Moriceau, B., Morin, B., Morley, A., Morrison, L., Murphy, F., Naidoo, T., Näkki, P., Napper, I.E., Narayanaswamy, B.E., Nash, R., Negri, A., Nel, H.A., Nerheim, M.S., Nerland, I.L., Neto, J., Neves, V., Nies, H., Noel, M., Nor, N.H.M., Noren, F., O’ Connell, B., O’ Connor, I., Obbard, J.P., Oberbeckmann, S., Obispo, R., Officer, R., Ogonowski, M., Orbea, A., Ortlieb, M., Osborn, A.M., Ostiategui-Francia, P., Packard, T., Pahl, S., Palatinus, A., Palmqvist, A., Pannetier, P., Panti, C., Parmentier, E., Pasanen, P., Patarnello, T., Pattiaratchi, C., Pauletto, M., Paulus, M., Pavlekovsky, K., Pedersen, H.B., Pedrotti, M.-L., Peeken, I., Peeters, D., Peeters, E., Pellegrini, D., Perales, J.A., Perez, E., Perz, V., Petit, S., Pflieger, M., Pham, C.K., Piazza, V., Pinto, M., Planells, O., Plaza, M., Pompini, O., Potthoff, A., Prades, L., Primpke, S., Proietti, M., Proskurowski, G., Puig, C., Pujo-Pay, M., Pullerits, K., Queirós, A.M., Quinn, B., Raimonds, E., Ramis-Pujol, J., Rascher-Friesenhausen, R., Reardon, E., Regoli, F., Reichardt, A.M., Reifferscheid, G., Reilly, K., Reisser, J., Riba, I., Ribitsch, D., Rinnert, E., Rios, N., Rist, S.E., Rivadeneira, M.M., Rivière, G., Robbens, J., Robertson, C.J.R., Rocher, V., Rochman, C.M., Rodrigues, M., Rodriguez, Y., Rodríguez, A., Rodríguez, G., Rodríguez, J.R.B., Rodríguez, S., Rodríguez, Y., Rogan, E., Rojo-Nieto, E., Romeo, T., Ross, P.S., Roveta, A., Rowland, S.J., Ruckstuhl, N.A., Ruiz-Fernández, A-C., Ruiz-Orejón, L.F., Runge, J., Russell, M., Saavedra, C., Saborowski, R., Sahin, B.E., Sailley, S., Sakaguchi-Söder, K., Salaverria, I., Sánchez-Arcilla, A., Sánchez-Nieva, J., Sanderson, W., Santana-Rodríguez, J.J., Santana-Viera, S., Santos, M.B., Santos, M.R., Sanz, M.R., Sardá, R., Savelli, H., Schoeneich-Argent, R., Scholz-Böttcher, B.M., Sciacca, F., Scofield, R.P., Setälä, O., Selenius, M., Sempere, R., Senturk, Y., Shashoua, Y., Sherman, P., Sick, C., Siegel, D., Sierra, J.P., Silva, F., Silvestri, C., Sintija, G., Sire, O., Slat, B., Smit, A., Sobral, P., Sorvari, J., Sosa-Ferrera, Z., Sotillo, M.G., Soudant, P., Speidel, L., Spurgeon, D.J., Steer, M.K., Steindal, C.C., Stifanese, R., Štindlová, A., Stuurman, L., Suaria, G., Suazo, C.G., Sureda, A., Surette, C., Svendsen, C., Syberg, K., Tairova, Z., Talvitie, J., Tassin, B., Tazerout, M., Tekman, M.B., ter Halle, A., Thiel, M., Thomas, K.V., Thompson, R.C., Tinkara, T., Tirelli, V., Tomassetti, P., Toorman, E., Toppe, J., Tornambè, A., Torres, R., Torres-Padrón, M.E., Underwood, A.J., Urbina, M., Usategui-Martín, A., Usta, R., Valdés, L., Valente, A., Valentina, T., van Arkel, K., Van Colen, C., Van Der Hal, N., van Franeker, J.A., Van Herwerden, L., Van Loosdrecht, M., van Oyen, A., Vandeperre, F., Vanderlinden, J-P., Vani, D., Vasconcelos, L., Vega-Moreno, D., Ventero, A., Vethaak, A.D., Vianello, A., Vicioso, M., Vieira, L.R., Viršek, M.K., Vos, M., Wahl, M., Wallace, N., Walton, A., Waniek, J.J., Watts, A., Webster, L., Wesch, C., Whitfield, E., Wichels, A., Wieczorek, A.M., Wilcox, C., Williams, R.J., Wong-Wah-Chung, P., Wright, S., Wyles, K.J., Young, R., Yurtsever, M., Yurtsever, U., Zada, L., Zamani, N.P., and Zampetti, G.

Published
2017
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18. Patterns, processes and vulnerability of Southern Ocean benthos: a decadal leap in knowledge and understanding

Author

Kaiser, S., Brandão, S.N., Brix, S., Barnes, D. K. A., Bowden, D.A., Brenke, N., Ingels, J., Leese, F., Schiaparelli, S., Arango, C.P., Badhe, R., Bax, N., Blazewicz-Passzkowycz, M., Brandt, A., Catarino, A.I., David, B., De Ridder, C., Dubois, P., Elligsen, K.E., Glover, A.G., Griffiths, H.J., Gutt, J., Halanych, K.M., Havermans, C., Held, C., Janussen, D., Lörz, A.-N., Pearce, D.A., Pierrat, B., Riehl, T., Rose, A., Sands, C.J., Soler-Membrives, A., Schüller, M., Strugnell, J.M., Vanreusel, A., Veit-Köhler, G., Wilson, N.G., Yasuhara, M., Kaiser, S., Brandão, S.N., Brix, S., Barnes, D. K. A., Bowden, D.A., Brenke, N., Ingels, J., Leese, F., Schiaparelli, S., Arango, C.P., Badhe, R., Bax, N., Blazewicz-Passzkowycz, M., Brandt, A., Catarino, A.I., David, B., De Ridder, C., Dubois, P., Elligsen, K.E., Glover, A.G., Griffiths, H.J., Gutt, J., Halanych, K.M., Havermans, C., Held, C., Janussen, D., Lörz, A.-N., Pearce, D.A., Pierrat, B., Riehl, T., Rose, A., Sands, C.J., Soler-Membrives, A., Schüller, M., Strugnell, J.M., Vanreusel, A., Veit-Köhler, G., Wilson, N.G., and Yasuhara, M.

Published
2013

19. Effects of CO2-induced ocean acidification on physiological and mechanical properties of the starfish Asterias rubens

Author

Collard, Marie, Catarino, A.I., Bonnet, Stéphanie, Flammang, Patrick, Dubois, Philippe, Collard, Marie, Catarino, A.I., Bonnet, Stéphanie, Flammang, Patrick, and Dubois, Philippe

Abstract

The increase in atmospheric CO2 due to anthropogenic activity results in an acidification of the surface waters of the oceans. Its impact will depend on the considered organisms and ecosystems. The intertidal may harbor organisms pre-adapted to the upcoming changes as they face tidal pH and temperature fluctuations. However, these environments will be more affected as shallow waters will face the highest decrease in seawater pH. In this context, the effects of reduced environmental pH on the physiology and tube feet mechanical properties of the intertidal starfish Asterias rubens, a top predator, were investigated during 15 and 27days. A. rubens showed a respiratory acidosis with its coelomic fluid pH always lower than that of seawater. This acidosis was most pronounced at pH7.4. Notwithstanding, the starfish showed no significant variations in RNA/DNA ratio of different tissues and in tube feet strength. However, respiration rates were significantly lower for individuals maintained at reduced seawater pH. Within the ocean acidification context, the present results suggest that A. rubens withstands the effects of reduced seawater pH, at least for medium term exposures., info:eu-repo/semantics/published

Published
2013

20. Buffer capacity of the coelomic fluid in echinoderms

Author

Collard, Marie, Laitat, K., Moulin, Laure, Catarino, A.I., Grosjean, Philippe, Dubois, Philippe, Collard, Marie, Laitat, K., Moulin, Laure, Catarino, A.I., Grosjean, Philippe, and Dubois, Philippe

Abstract

The increase in atmospheric CO2 due to anthropogenic activity results in an acidification of the surface waters of the oceans. The impact of these chemical changes depends on the considered organisms. In particular, it depends on the ability of the organism to control the pH of its inner fluids. Among echinoderms, this ability seems to differ significantly according to species or taxa. In the present paper, we investigated the buffer capacity of the coelomic fluid in different echinoderm taxa as well as factors modifying this capacity. Euechinoidea (sea urchins except Cidaroidea) present a very high buffer capacity of the coelomic fluid (from 0.8 to 1.8mmolkg(-1) SW above that of seawater), while Cidaroidea (other sea urchins), starfish and holothurians have a significantly lower one (from -0.1 to 0.4mmolkg(-1) SW compared to seawater). We hypothesize that this is linked to the more efficient gas exchange structures present in the three last taxa, whereas Euechinoidea evolved specific buffer systems to compensate lower gas exchange abilities. The constituents of the buffer capacity and the factors influencing it were investigated in the sea urchin Paracentrotus lividus and the starfish Asterias rubens. Buffer capacity is primarily due to the bicarbonate buffer system of seawater (representing about 63% for sea urchins and 92% for starfish). It is also partly due to coelomocytes present in the coelomic fluid (around 8% for both) and, in P. lividus only, a compound of an apparent size larger than 3kDa is involved (about 15%). Feeding increased the buffer capacity in P. lividus (to a difference with seawater of about 2.3mmolkg(-1) SW compared to unfed ones who showed a difference of about 0.5mmolkg(-1) SW) but not in A. rubens (difference with seawater of about 0.2 for both conditions). In P. lividus, decreased seawater pH induced an increase of the buffer capacity of individuals maintained at pH7.7 to about twice that of the control individuals and, for those at pH7.4, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2013

21. Are cidaroid spines adapted to ocean acidification?

Author

Third International Symposium on the Ocean in a High-CO2 World (24-27 September 2012: Monterey, California, USA), Dery, Aurélie, Catarino, A.I., Guibourt, Virginie, De Ridder, Chantal, Compère, Philippe, Dubois, Philippe, Third International Symposium on the Ocean in a High-CO2 World (24-27 September 2012: Monterey, California, USA), Dery, Aurélie, Catarino, A.I., Guibourt, Virginie, De Ridder, Chantal, Compère, Philippe, and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2012

22. Are cidaroid spines adapted to ocean acidification?

Author

14th International Echinoderm Conference (20-24 August 2012: Bruxelles, Belgium), Dery, Aurélie, Catarino, A.I., Guibourt, Virginie, De Ridder, Chantal, Compère, Philippe, Dubois, Philippe, 14th International Echinoderm Conference (20-24 August 2012: Bruxelles, Belgium), Dery, Aurélie, Catarino, A.I., Guibourt, Virginie, De Ridder, Chantal, Compère, Philippe, and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2012

23. Possible effects of global environmental changes on Antarctic benthos: A synthesis across five major taxa

Author

Ingels, J., Vanreusel, A., Brandt, A., Catarino, A.I., David, Bruno, De Ridder, Chantal, Dubois, Philippe, Gooday, A.J., Martin, Patrick, Pasotti, F., Robert, Henri, Ingels, J., Vanreusel, A., Brandt, A., Catarino, A.I., David, Bruno, De Ridder, Chantal, Dubois, Philippe, Gooday, A.J., Martin, Patrick, Pasotti, F., and Robert, Henri

Abstract

Because of the unique conditions that exist around the Antarctic continent, Southern Ocean (SO) ecosystems are very susceptible to the growing impact of global climate change and other anthropogenic influences. Consequently, there is an urgent need to understand how SO marine life will cope with expected future changes in the environment. Studies of Antarctic organisms have shown that individual species and higher taxa display different degrees of sensitivity to environmental shifts, making it difficult to predict overall community or ecosystem responses. This emphasizes the need for an improved understanding of the Antarctic benthic ecosystemresponse to global climate change using amultitaxon approach with consideration of different levels of biological organization.Here, we provide a synthesis of the ability of five important Antarctic benthic taxa (Foraminifera, Nematoda, Amphipoda, Isopoda, and Echinoidea) to cope with changes in the environment (temperature, pH, ice cover, ice scouring, food quantity, and quality) that are linked to climatic changes. Responses from individual to the taxon-specific community level to these drivers will vary with taxon but will include local species extinctions, invasions ofwarmer-water species, shifts in diversity, dominance, and trophic group composition, all with likely consequences for ecosystemfunctioning. Limitations in our current knowledge and understanding of climate change effects on the different levels are discussed. © 2012 The Authors., IF: new journal, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2012

24. Sea urchin Arbacia dufresnei (Blainville 1825) larvae response to ocean acidification

Author

Catarino, A.I., De Ridder, Chantal, González, Mario, Gallardo, P., Dubois, Philippe, Catarino, A.I., De Ridder, Chantal, González, Mario, Gallardo, P., and Dubois, Philippe

Abstract

Increased atmospheric CO 2 emissions are inducing changes in seawater carbon chemistry, lowering its pH, decreasing carbonate ion availability and reducing calcium carbonate saturation state. This phenomenon, known as ocean acidification, is happening at a faster rate in cold regions, i.e. polar and sub-polar waters. The larval development of Arbacia dufresnei from a sub-Antarctic population was studied at high (8.0), medium (7.7) and low (7.4) pH waters. The results show that the offspring from sub-Antarctic populations of A. dufresnei are susceptible to a development delay at low pH, with no significant increase in abnormal forms. Larvae were isometric between pH treatments. Even at calcium carbonate (CaCO 3) saturation states (of both calcite and aragonite, used as proxies of the magnesium calcite) <1, skeleton deposition occurred. Polar and sub-polar sea urchin larvae can show a certain degree of resilience to acidification, also emphasizing A. dufresnei potential to poleward migrate and further colonize southern regions. © 2011 Springer-Verlag., IF: 1,445, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2012

25. Resilience of the sub-Antarctic sea urchin Arbacia dufresnei towards ocean acidification

Author

World Conference on Marine Biodiversity 2011 (26-30 September: Aberdeen, Scotland, UK), Catarino, A.I., De Ridder, Chantal, Medakovic, Davorin, Gonzalez, Marcelo, André, Luc, Dubois, Philippe, World Conference on Marine Biodiversity 2011 (26-30 September: Aberdeen, Scotland, UK), Catarino, A.I., De Ridder, Chantal, Medakovic, Davorin, Gonzalez, Marcelo, André, Luc, and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2011

26. Effects of field contamination by metals (Cd, Cu, Pb, Zn) on biometry and mechanics of echinoderm ossicles

Author

Moureaux, Claire, Simon, Jonathan, Mannaerts, G., Catarino, A.I., Pernet, Philippe, Dubois, Philippe, Moureaux, Claire, Simon, Jonathan, Mannaerts, G., Catarino, A.I., Pernet, Philippe, and Dubois, Philippe

Abstract

Echinoderms are known to readily incorporate metals in their calcified endoskeleton. It is currently unclear if this has an impact on the skeleton function or if this can be considered as a detoxification mechanism. In the present work, populations of the sea urchin Echinus acutus and the starfish Asterias rubens were studied in stations distributed along a metal contamination gradient in a Norwegian fjord (Sørfjord). Ossicles involved in major mechanical functions - sea urchin spine and starfish ambulacral plate - were analyzed for their metal concentration (Cd, Cu, Pb and Zn) and their biometric and mechanical properties.Starfish plates were more contaminated by Cd, Pb and Zn than sea urchin spines. Cu concentrations were at background levels. In E. acutus, metals principally affected size. In A. rubens, material stiffness and toughness were decreased in the most contaminated station. This reduction is attributed either to the direct incorporation of metals in the calcite lattice and/or to deleterious effects of metals during skeleton ontogenesis. The contrasting incorporation of metals in the skeleton of the two investigated species accounts for the different impact of the metals, including in terms of fitness. The present results clearly indicate that, at least in A. rubens, incorporation of metals in the skeleton cannot be considered as a detoxification mechanism. © 2011 Elsevier B.V., IF: 3,333, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2011

27. Response of echinoid spines to ocean acidification

Author

SETAC Europe 20th annual Meeting (23-27 May: Sevilla, Espagne), Catarino, A.I., Guibourt, Virginie, Moureaux, Claire, Dubois, Philippe, SETAC Europe 20th annual Meeting (23-27 May: Sevilla, Espagne), Catarino, A.I., Guibourt, Virginie, Moureaux, Claire, and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2010

29. Effect of seawater acidification on epibiont-bearing cidaroid spines

Author

13th International Echinoderm Conference (5-9 janvier: Hobart, Tasmania, Australie), Guibourt, Virginie, Catarino, A.I., Dubois, Philippe, 13th International Echinoderm Conference (5-9 janvier: Hobart, Tasmania, Australie), Guibourt, Virginie, Catarino, A.I., and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2009

30. Impact of sea water acidification on sea urchin skeletal growth

Author

13th International Echinoderm Conference (5-9 janvier: Hobart, Tasmania, Australie), Catarino, A.I., Dubois, Philippe, 13th International Echinoderm Conference (5-9 janvier: Hobart, Tasmania, Australie), Catarino, A.I., and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2009

31. Impact of seawater acidification on sea urchin skeletal growth

Author

Second symposium on the ocean in a high-CO2-world (6-9 octobre: Monaco), Catarino, A.I., Dubois, Philippe, Second symposium on the ocean in a high-CO2-world (6-9 octobre: Monaco), Catarino, A.I., and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2008

32. Effect of seawater acidification on epibiont-bearing cidaroid spines

Author

Second symposium on the ocean in a high-CO2-world (6-9 octobre: Monaco), Guibourt, Virginie, Catarino, A.I., Dubois, Philippe, Second symposium on the ocean in a high-CO2-world (6-9 octobre: Monaco), Guibourt, Virginie, Catarino, A.I., and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2008

33. Effects of field metal contaminations on sperm motility and RNA: DNA ratio in Asterias rubens

Author

12th International Echinoderm Conference (7-11 août 2006: Durham NH, USA), Catarino, A.I., Cabral, H.N., Peeters, Kris, Pernet, Philippe, Punjabi, U., Dubois, Philippe, 12th International Echinoderm Conference (7-11 août 2006: Durham NH, USA), Catarino, A.I., Cabral, H.N., Peeters, Kris, Pernet, Philippe, Punjabi, U., and Dubois, Philippe

Abstract

info:eu-repo/semantics/nonPublished

Published
2006

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