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5 results on '"Jon Corell"'

1. Large-scale ocean connectivity and planktonic body size

Author

Ernesto Villarino, James R. Watson, Bror Jönsson, Josep M. Gasol, Guillem Salazar, Silvia G. Acinas, Marta Estrada, Ramón Massana, Ramiro Logares, Caterina R. Giner, Massimo C. Pernice, M. Pilar Olivar, Leire Citores, Jon Corell, Naiara Rodríguez-Ezpeleta, José Luis Acuña, Axayacatl Molina-Ramírez, J. Ignacio González-Gordillo, Andrés Cózar, Elisa Martí, José A. Cuesta, Susana Agustí, Eugenio Fraile-Nuez, Carlos M. Duarte, Xabier Irigoien, and Guillem Chust

Subjects
Science
Abstract

Body size is hypothesised to be a major determinant of β-diversity in passively-dispersing marine organisms. Here, Villarino et al. show that plankton body size determines rates of dispersal along marine currents, with shorter dispersal and higher species spatial turnover in larger organisms.

Published
2018
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2. Global mesozooplankton communities show lower connectivity in deep oceanic layers

Author

Oriol Canals, Jon Corell, Ernesto Villarino, Guillem Chust, Eva Aylagas Martínez, Iñaki Mendibil, Craig Michell, Nacho Gonzalez-Gordillo, Xabier Irigoien, and Naiara Rodriguez-Ezpeleta

Abstract

Mesozooplankton is a key component of the ocean, regulating global processes such as the carbon pump, and ensuring energy transfer from lower to higher trophic levels. Yet, despite the importance of understanding mesozooplankton diversity, distribution and connectivity at global scale to predict the impact of climate change in marine ecosystems, there is still fragmented knowledge. To fill this gap, we applied DNA metabarcoding to mesozooplankton samples collected during the Malaspina-2010 circumnavigation expedition across temperate and tropical oceans from the surface to bathypelagic depths. By conducting a hidden diversity analysis, we highlight the still scarce knowledge on global mesozooplankton diversity and identify the Indian Ocean and the deep sea as the most understudied areas. By analysing mesozooplankton community spatial distribution, we confirm global biogeographical patterns across the temperate to tropical oceans both in the vertical and horizontal gradients. Additionally, we reveal a consistent increase in mesozooplankton beta-diversity with depth, indicating reduced connectivity at deeper layers, and identify a water mass type-mediated structuring of bathypelagic communities, instead of an oceanic basin-mediated as observed at upper layers. This suggests limited dispersal at deep ocean layers, most likely due to weaker currents and lower mixing of water mass types. Overall, our work supports the neutral theory of biodiversity and thus the importance of oceanic currents and barriers in dispersal in shaping global plankton communities, and provides key knowledge for predicting the impact of climate change in the deep-sea.

Published
2023
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4. Large-scale ocean connectivity and planktonic body size

Author

Silvia G. Acinas, James R. Watson, Josep M. Gasol, José A. Cuesta, Eugenio Fraile-Nuez, M. Pilar Olivar, Susana Agustí, José Luis Acuña, Jon Corell, Guillem Salazar, Marta Estrada, Ramon Massana, Caterina R. Giner, Massimo C. Pernice, Xabier Irigoien, J. Ignacio González-Gordillo, Elisa Martí, Leire Citores, Ramiro Logares, Carlos M. Duarte, Naiara Rodríguez-Ezpeleta, Bror Jönsson, Ernesto Villarino, Axayacatl Molina-Ramírez, Guillem Chust, Andrés Cózar, and Eusko Jaurlaritza

Subjects
0106 biological sciences, 0301 basic medicine, Acuicultura, Oceans and Seas, Science, Fishing, Population, General Physics and Astronomy, Library science, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Circumnavigation, Article, Zooplankton, 03 medical and health sciences, Centro Oceanográfico de Canarias, Animals, Body Size, education, lcsh:Science, education.field_of_study, Government, Multidisciplinary, fungi, Fishes, Hesperides, General Chemistry, Biodiversity, Plankton, language.human_language, Scholarship, 030104 developmental biology, Geography, Scale (social sciences), Phytoplankton, Food policy, language, lcsh:Q, human activities
Abstract

Villarino, Ernesto ... et al.-- 13 pages, 5 figures, 5 tables, supplementary material https://dx.doi.org/10.1038/s41467-017-02535-8, Global patterns of planktonic diversity are mainly determined by the dispersal of propagules with ocean currents. However, the role that abundance and body size play in determining spatial patterns of diversity remains unclear. Here we analyse spatial community structure - β-diversity - for several planktonic and nektonic organisms from prokaryotes to small mesopelagic fishes collected during the Malaspina 2010 Expedition. β-diversity was compared to surface ocean transit times derived from a global circulation model, revealing a significant negative relationship that is stronger than environmental differences. Estimated dispersal scales for different groups show a negative correlation with body size, where less abundant large-bodied communities have significantly shorter dispersal scales and larger species spatial turnover rates than more abundant small-bodied plankton. Our results confirm that the dispersal scale of planktonic and micro-nektonic organisms is determined by local abundance, which scales with body size, ultimately setting global spatial patterns of diversity, This research was funded by the project Malaspina 2010 Circumnavigation Expedition (Consolider-Ingenio 2010, CSD2008-00077) and cofounded by the Basque Government (Department Deputy of Agriculture, Fishing and Food Policy). [...] E.V. was supported by a PhD Scholarship granted by the Iñaki Goenaga−Technology Centres Foundation

Published
2018
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