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1. Successful Blue Economy Examples With an Emphasis on International Perspectives

Author

Wenhai, Lu, Cusack, Caroline, Baker, Maria, Tao, Wang, Mingbao, Chen, Paige, Kelli, Xiaofan, Zhang, Levin, Lisa, Escobar, Elva, Amon, Diva, Yue, Yin, Reitz, Anja, Neves, Antonio Augusto Sepp, O'Rourke, Eleanor, Mannarini, Gianandrea, Pearlman, Jay, Tinker, Jonathan, Horsburgh, Kevin J, Lehodey, Patrick, Pouliquen, Sylvie, Dale, Trine, Peng, Zhao, and Yufeng, Yang

Subjects
blue economy, macro-economic control policies, deep ocean stewardship, science-based products, data analysis and information delivery, ecological restoration, Oceanography, Ecology
Published
2019

2. Globally Consistent Quantitative Observations of Planktonic Ecosystems

Author

Lombard, Fabien, Boss, Emmanuel, Waite, Anya M, Vogt, Meike, Uitz, Julia, Stemmann, Lars, Sosik, Heidi M, Schulz, Jan, Romagnan, Jean-Baptiste, Picheral, Marc, Pearlman, Jay, Ohman, Mark D, Niehoff, Barbara, Moeller, Klas M, Miloslavich, Patricia, Lara-Lpez, Ana, Kudela, Raphael, Lopes, Rubens M, Kiko, Rainer, Karp-Boss, Lee, Jaffe, Jules S, Iversen, Morten H, Frisson, Jean-Olivier, Fennel, Katja, Hauss, Helena, Guidi, Lionel, Gorsky, Gaby, Giering, Sarah LC, Gaube, Peter, Gallager, Scott, Dubelaar, George, Cowen, Robert K, Carlotti, Francois, Briseno-Avena, Christian, Berline, Leo, Benoit-Bird, Kelly, Bax, Nicholas, Batten, Sonia, Ayata, Sakina Dorothee, Artigas, Luis Felipe, and Appeltans, Ward

Subjects
plankton, imaging, OceanObs, autonomous platforms, global observing, EOVs, ECVs, Oceanography, Ecology
Published
2019

3. Multidisciplinary Observing in the World Ocean’s Oxygen Minimum Zone Regions: From Climate to Fish — The VOICE Initiative

Author

Garçon, Véronique, Karstensen, Johannes, Palacz, Artur, Telszewski, Maciej, Lara, Tony Aparco, Breitburg, Denise, Chavez, Francisco, Coelho, Paulo, Cornejo-D’Ottone, Marcela, Santos, Carmen, Fiedler, Björn, Gallo, Natalya D, Grégoire, Marilaure, Gutierrez, Dimitri, Hernandez-Ayon, Martin, Isensee, Kirsten, Koslow, Tony, Levin, Lisa, Marsac, Francis, Maske, Helmut, Mbaye, Baye C, Montes, Ivonne, Naqvi, Wajih, Pearlman, Jay, Pinto, Edwin, Pitcher, Grant, Pizarro, Oscar, Rose, Kenneth, Shenoy, Damodar, Van der Plas, Anja, Vito, Melo R, and Weng, Kevin

Subjects
Earth Sciences, Oceanography, Life Below Water, oxygen minimum zones, oxycline, ocean observing system, multidisciplinary, readiness level, ecosystem, Ecology, Geology
Abstract

Multidisciplinary ocean observing activities provide critical ocean information to satisfy ever-changing socioeconomic needs and require coordinated implementation. The upper oxycline (transition between high and low oxygen waters) is fundamentally important for the ecosystem structure and can be a useful proxy for multiple observing objectives connected to eastern boundary systems (EBSs) that neighbor oxygen minimum zones (OMZs). The variability of the oxycline and its impact on the ecosystem (VOICE) initiative demonstrates how societal benefits drive the need for integration and optimization of biological, biogeochemical, and physical components of regional ocean observing related to EBS. In liaison with the Global Ocean Oxygen Network, VOICE creates a roadmap toward observation-model syntheses for a comprehensive understanding of selected oxycline-dependent objectives. Local to global effects, such as habitat compression or deoxygenation trends, prompt for comprehensive observing of the oxycline on various space and time scales, and for an increased awareness of its impact on ecosystem services. Building on the Framework for Ocean Observing (FOO), we present a first readiness level assessment for ocean observing of the oxycline in EBS. This was to determine current ocean observing design and future needs in EBS regions (e.g., the California Current System, the Equatorial Eastern Pacific off Ecuador, the Peru–Chile Current system, the Northern Benguela off Namibia, etc.) building on the FOO strategy. We choose regional champions to assess the ocean observing design elements proposed in the FOO, namely, requirement processes, coordination of observational elements, and data management and information products and the related best practices. The readiness level for the FOO elements was derived for each EBS through a similar and very general ad hoc questionnaire. Despite some weaknesses in the questionnaire design and its completion, an assessment was achievable. We found that fisheries and ecosystem management are a societal requirement for all regions, but maturity levels of observational elements and data management and information products differ substantially. Identification of relevant stakeholders, developing strategies for readiness level improvements, and building and sustaining infrastructure capacity to implement these strategies are fundamental milestones for the VOICE initiative over the next 2–5 years and beyond.

Published
2019

4. An ocean practices maturity model: from good to best practices.

Author

Mantovani, Carlo, Pearlman, Jay, Rubio, Anna, Przeslawski, Rachel, Bushnell, Mark, Simpson, Pauline, Corgnati, Lorenzo, Alvarez, Enrique, Cosoli, Simone, and Roarty, Hugh

Subjects
CAPABILITY maturity model, BEST practices, SEA level
Abstract

Ocean practices, intended as a wide spectrum of methodologies supporting ocean-related research, operations, and applications, are constantly developed and improved to enable informed decision-making. Practices start from the idea of an individual or a group and often evolve towards what can be called good or best practices. This bottom-up approach may in principle result in different paths for the evolution of each practice, and ultimately generate situations where it is not clear to a new user how to compare two practices aiming at the same objective, and determine which one is best. Also, although a best practice is supposed to be the result of a multi-institutional collaborative effort based on the principles of evidence, repeatability and comparability, a set of individual requirements is not yet defined in literature for a practice to be considered a good, better, and ultimately a best practice. This paper proposes a method for addressing those questions and presents a new maturity model for ocean practices, built upon existing maturity models for systems and software, developed and adopted in the last decades. The model provides attributes for assessing both the maturity of the practice description and its implementation. It also provides a framework for analyzing gaps and suggesting actions for practice evolution. The model has been tested against a series of widely adopted practices and the results are reported and discussed. This work facilitates a common approach for developing and assessing practices, from which greater interoperability and trust can be achieved. [ABSTRACT FROM AUTHOR]

Published
2024
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5. An observational and warning system for the aquaculture sector

Author

Pereiro, Diego, primary, Belyaev, Oleg, additional, Dunbar, Martha B., additional, Conway, Andrew, additional, Dabrowski, Tomasz, additional, Graves, Inger, additional, Navarro, Gabriel, additional, Nolan, Glenn, additional, Pearlman, Jay, additional, Simpson, Pauline, additional, and Cusack, Caroline, additional

Published
2024
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7. List of Contributors

Author

Achterberg, Eric P., primary, Allen, Simon, additional, Alves, José C., additional, Aragon, David, additional, Au, Douglas, additional, Barnes, Christopher R., additional, Barus, Carole, additional, Beaton, Alex, additional, Bell, Ryan J., additional, Blouch, Pierre, additional, Brault, Patrice, additional, Carvalho, Filipa, additional, Cervantes, Pablo, additional, Chen Legrand, D., additional, Colas, Florent, additional, Cowles, Timothy, additional, Cruz, Nuno A., additional, David, Arnaud, additional, Fernandez, Joaquin del Rio, additional, Delauney, Laurent, additional, Delory, Eric, additional, Dewitte, Boris, additional, Ferreira, Bruno M., additional, Fischer, Albert, additional, Garçon, Veronique, additional, Glenn, Scott, additional, Harcourt, Robert, additional, Heupel, Michelle R., additional, Jirka, Simon, additional, Jońca, Justyna, additional, Jones, Clayton, additional, Jugeau, Benoit, additional, Kibelka, Gottfried P.G., additional, Kim Juniper, S., additional, Kohut, Josh, additional, Laspidou, Chrysi, additional, Leadbetter, Adam, additional, Leblond, Emilie, additional, Lédée, E.J.I., additional, Mahfuz, Hassan, additional, Manes, Carmem-Lara, additional, Martinez, Enoc, additional, Martinez, Sergio, additional, Matos, Aníbal C., additional, McDonnell, Janice, additional, McLean, Scott, additional, Memè, Simone, additional, Toma, Daniel Mihai, additional, Miles, Travis, additional, Sabet, Seyed Morteza, additional, Mowlem, Matthew, additional, Muñoz Parra, P., additional, O’Reilly, Tom, additional, Ove Möller, Klas, additional, Pearlman, Jay, additional, Petersen, Wilhelm, additional, Pirenne, Benoît, additional, Poli, Paul, additional, Precheur, Hervé, additional, Quemener, Loïc, additional, Ralston, Emily, additional, Ramos, Marcel, additional, Reitz, Anja, additional, Rieke, Matthes, additional, Roarty, Hugh, additional, Romanytsia, Ivan, additional, Round, Adrian, additional, Ruiz, Pablo, additional, Saba, Grace, additional, Schaap, Allison, additional, Schofield, Oscar, additional, Seroka, Greg, additional, Stasch, Christoph, additional, Striebig, Nicolas, additional, Timothy Short, R., additional, Toler, Strawn K., additional, Udyawer, Vinay, additional, Valladares, Maria, additional, Visbeck, Martin, additional, Walsh, Ian, additional, Wild-Allen, Karen, additional, Woerther, Patrice, additional, Woillez, Mathieu, additional, Wollschläger, Jochen, additional, Yi, Xu, additional, and Hunsucker, Kelli Zargiel, additional

Published
2019
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9. Developing an ocean best practice: A case study of marine sampling practices from Australia

Author

Przeslawski, Rachel, primary, Barrett, Neville, additional, Carroll, Andrew, additional, Foster, Scott, additional, Gibbons, Brooke, additional, Jordan, Alan, additional, Monk, Jacquomo, additional, Langlois, Tim, additional, Lara-Lopez, Ana, additional, Pearlman, Jay, additional, Picard, Kim, additional, Pini-Fitzsimmons, Joni, additional, van Ruth, Paul, additional, and Williams, Joel, additional

Published
2023
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10. JERICO-S3 D.5.5 - WP5 - Report on the functional homogenization tools that will support the implementation of best practices within the JERICO-RI. Version 1.0.

Author

Mantovani, Carlo, Charcos, Miguel, Corgnati, Lorenzo, Fernandez, Juan Gabriel, Frontera, Biel, Notario, Xisco, Pearlman, Jay, Reyes, Emma, Solabarrieta, Lohitzune, Zarokanellos, Nikolaos, Mantovani, Carlo, Charcos, Miguel, Corgnati, Lorenzo, Fernandez, Juan Gabriel, Frontera, Biel, Notario, Xisco, Pearlman, Jay, Reyes, Emma, Solabarrieta, Lohitzune, and Zarokanellos, Nikolaos

Abstract

This document describes a series of functional tools available for the JERICO-RI community supporting the harmonized management of mature coastal observing platforms as described in JERICO-S3 D5.2, namely Mooring, FerryBox, High Frequency Radar, Underwater Glider. They include tools entirely designed and realized within JERICO-S3 and tools that have received a substantial contribution from JERICO-S3 discussions, deliverables, workshops, and have been developed in a collaborative framework with other projects. Tools span from software routines for data management and data Quality Control to web applications for joint management of platform issues to methods and guidelines for structuring practices documentation and assessing their maturity level. After the introduction, a main section contains the descriptions of each tool according to a uniform scheme. First, a table is provided summarizing key information like the tool’s purpose, scope of applicability, the link to the tool itself and to its documentation. Then, the tool and its features are described with a minimum level of detail. A second paragraph highlights the added value and contribution deriving from actual and/or previous work in JERICO projects, aimed at supporting the tool development. The contribution could be in terms of best practices, deliverables, workshops, surveys, etc. The last paragraph is dedicated to the foreseen and potential use of the tool in a wider context and/or as a component or framework for other tools.

Published
2023
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11. EuroSea Strategic vision

Author

Revelard, Adele, Tintore, Joaquin, Verron, Jacques, Bahurel, Pierre, Barth, John A., Belbeoch, Mathieu, Benveniste, Jerome, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Yves Le Traon, Pierre, Marques, Miguel, McLean, Craig, Medina, Raul, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintail, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdes, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, Williams, Ben, Revelard, Adele, Tintore, Joaquin, Verron, Jacques, Bahurel, Pierre, Barth, John A., Belbeoch, Mathieu, Benveniste, Jerome, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Yves Le Traon, Pierre, Marques, Miguel, McLean, Craig, Medina, Raul, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintail, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdes, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, and Williams, Ben

Abstract

This report provides recommendations to foster collaboration and cooperation between technologies and disciplines and for implementing truly integrated ocean observing systems. Based on an intensive literature review and a careful examination of different examples of integration in different fields, this work identifies the issues and barriers that must be addressed, and proposes a vision for a real implementation of this ocean integration ambition. This work is a contribution to the implementation of EOOS, a much-needed step forward in Europe, following the international guidance of GOOS.

Published
2023
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12. Best practice on creating 'Extreme Marine Events' Hazard maps & forecasts Report

Author

Pereiro, Diego, Korolev, Oleg Belyaev, Dunbar, Martha B., Navarro, Gabriel, Cusack, Caroline, Conway, Andrew, Dabrowski, Tomasz, Nolan, Glenn, Graves, Inger, Pearlman, Jay, Simpson, Pauline, Pereiro, Diego, Korolev, Oleg Belyaev, Dunbar, Martha B., Navarro, Gabriel, Cusack, Caroline, Conway, Andrew, Dabrowski, Tomasz, Nolan, Glenn, Graves, Inger, Pearlman, Jay, and Simpson, Pauline

Abstract

This report presents steps for the design and implementation of a marine observatory providing current and forecasted oceanic conditions relevant to the aquaculture sector, with particular focus on “Extreme Marine Events”. Examples of successful implementation of these guidelines in the framework of the EuroSea project are presented for two aquaculture sites: Deenish Island in Ireland and El Campello in Spain. The process starts with stakeholder interaction to understand their main needs and concerns and is followed by the design of the software architecture that carries out the data acquisition, post-processing and visualisation in an open-access web platform. User feedback is of paramount importance during the whole process to ensure the services offered match the needs of the aquaculture sector.

Published
2023
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13. Final Report of EOOS Implementation Plan

Author

Lips, Inga, Heslop, Emma, van Doorn, Erik, Hassoun, Abed El Rahman, Hymans, Sheila, Lopez, Ana Lara, Palacz, Artur, Pearlman, Jay, Muniz Piniella, Angel, Simpson, Pauline, Tanhua, Toste, Turpin, Victor, Wilmer-Becker, Kirsten, Lips, Inga, Heslop, Emma, van Doorn, Erik, Hassoun, Abed El Rahman, Hymans, Sheila, Lopez, Ana Lara, Palacz, Artur, Pearlman, Jay, Muniz Piniella, Angel, Simpson, Pauline, Tanhua, Toste, Turpin, Victor, and Wilmer-Becker, Kirsten

Abstract

EuroSea brought together key European actors of ocean observation and forecasting with key end users of the ocean observations’ products and services to better integrate existing ocean observation systems and tools, and to bring the coordination to a higher level. The EuroSea WP1 “Governance and coordination of ocean observing and forecasting systems”, in particular, aimed to strengthen the interactions between regional, national, and international observing systems and support the development of a European coordinated system through the Framework of the European Ocean Observing System (EOOS). During the project, the challenges and gaps in the design and coordination of the European ocean observing and forecasting system were identified and mapped. Many gaps and challenges related to the observations of physical, chemical and biological Essential Ocean Variables were identified. Some of these gaps are related to technological advancements, while others are caused by insufficient funding, coordination, management, and cooperation between different entities, as well as limitations in foresight activities, policies and decisions. To enhance the sustainability of European ocean observations, several recommendations were compiled for networks, frameworks, initiatives, Member States, and the European Commission.

Published
2023
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14. The founding charter of the Omic Biodiversity Observation Network (Omic BON)

Author

Meyer, Raïssa, Davies, Neil, Pitz, Kathleen J, Meyer, Chris, Samuel, Robyn, Anderson, Jane, Appeltans, Ward, Barker, Katharine, Chavez, Francisco P, Duffy, J Emmett, Goodwin, Kelly D, Hudson, Maui, Hunter, Margaret E, Karstensen, Johannes, Laney, Christine M, Leinen, Margaret, Mabee, Paula, Macklin, James A, Muller-Karger, Frank, Pade, Nicolas, Pearlman, Jay, Phillips, Lori, Provoost, Pieter, Santi, Ioulia, Schigel, Dmitry, Schriml, Lynn M, Soccodato, Alice, Suominen, Saara, Thibault, Katherine M, Ung, Visotheary, van de Kamp, Jodie, Wallis, Elycia, Walls, Ramona, Buttigieg, Pier Luigi, Meyer, Raïssa, Davies, Neil, Pitz, Kathleen J, Meyer, Chris, Samuel, Robyn, Anderson, Jane, Appeltans, Ward, Barker, Katharine, Chavez, Francisco P, Duffy, J Emmett, Goodwin, Kelly D, Hudson, Maui, Hunter, Margaret E, Karstensen, Johannes, Laney, Christine M, Leinen, Margaret, Mabee, Paula, Macklin, James A, Muller-Karger, Frank, Pade, Nicolas, Pearlman, Jay, Phillips, Lori, Provoost, Pieter, Santi, Ioulia, Schigel, Dmitry, Schriml, Lynn M, Soccodato, Alice, Suominen, Saara, Thibault, Katherine M, Ung, Visotheary, van de Kamp, Jodie, Wallis, Elycia, Walls, Ramona, and Buttigieg, Pier Luigi

Abstract

Omic BON is a thematic Biodiversity Observation Network under the Group on Earth Observations Biodiversity Observation Network (GEO BON), focused on coordinating the observation of biomolecules in organisms and the environment. Our founding partners include representatives from national, regional, and global observing systems; standards organizations; and data and sample management infrastructures. By coordinating observing strategies, methods, and data flows, Omic BON will facilitate the co-creation of a global omics meta-observatory to generate actionable knowledge. Here, we present key elements of Omic BON's founding charter and first activities.

Published
2023
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15. Polar Data Forum IV – An Ocean of Opportunities

Author

Janssen, Annemie Rose, Bricher, Philippa, Payne, Karen, Badhe, Renuka, Biebow, Nicole, de Bruin, Taco, Duerr, Ruth, Elshout, Pjotr, Gaylord, Allison, Godøy, Øystein, Gorringe, Patrick, Guihen, Damien, Kool, Johnathan, Larsen, Jan Rene, Nolan, Joseph, Novellino, Antonio, Manley, William, Marouchos, Andreas, McCammon, Molly, Murray, Maribeth, Parrott, Jenn, Pearlman, Jay, Peat, Helen, Pulsifer, Peter, Symons, Lloyd, Tacoma, Marten, Theocharides, Soulaine, Tronstad, Stein, Verhey, Chantelle, Van de Putte, Anton, Janssen, Annemie Rose, Bricher, Philippa, Payne, Karen, Badhe, Renuka, Biebow, Nicole, de Bruin, Taco, Duerr, Ruth, Elshout, Pjotr, Gaylord, Allison, Godøy, Øystein, Gorringe, Patrick, Guihen, Damien, Kool, Johnathan, Larsen, Jan Rene, Nolan, Joseph, Novellino, Antonio, Manley, William, Marouchos, Andreas, McCammon, Molly, Murray, Maribeth, Parrott, Jenn, Pearlman, Jay, Peat, Helen, Pulsifer, Peter, Symons, Lloyd, Tacoma, Marten, Theocharides, Soulaine, Tronstad, Stein, Verhey, Chantelle, and Van de Putte, Anton

Abstract

This paper reports on the Hackathon Sessions organised at the Polar Data Forum IV (PDF IV) (20–24 September 2021), during which 351 participants from 50 different countries discussed collaboratively about the latest developments in polar data management. The 4th edition of the PDF hosted lively discussions on (i) best practices for polar data management, (ii) data policy, (ii) documenting data flows into aggregators, (iv) data interoperability, (v) polar federated search, (vi) semantics and vocabularies, (vii) Virtual Research Environments (VREs), and (viii) new polar technologies. This paper provides an overview of the organisational aspects of PDF IV and summarises the polar data objectives and outcomes by describing the conclusions drawn from the Hackathon Sessions.

Published
2023

16. Evaluation of operational ocean forecasting systems from the perspective of the users and the experts

Author

Ciliberti, Stefania A., Fanjul, Enrique Alvarez, Pearlman, Jay, Wilmer-Becker, Kirsten, Bahurel, Pierre, Ardhuin, Fabrice, Arnaud, Alain, Bell, Mike, Berthou, Segolene, Bertino, Laurent, Capet, Arthur, Chassignet, Eric, Ciavatta, Stefano, Cirano, Mauro, Clementi, Emanuela, Cossarini, Gianpiero, Coro, Gianpaolo, Corney, Stuart, Davidson, Fraser, Drevillon, Marie, Drillet, Yann, Dussurget, Renaud, El Serafy, Ghada, Fennel, Katja, Sotillo, Marcos Garcia, Heimbach, Patrick, Hernandez, Fabrice, Hogan, Patrick, Hoteit, Ibrahim, Joseph, Sudheer, Josey, Simon, Le Traon, Pierre-Yves, Libralato, Simone, Mancini, Marco, Matte, Pascal, Melet, Angelique, Miyazawa, Yasumasa, Moore, Andrew M., Novellino, Antonio, Porter, Andrew, Regan, Heather, Romero, Laia, Schiller, Andreas, Siddorn, John, Staneva, Joanna, Thomas-Courcoux, Cecile, Tonani, Marina, Garcia-Valdecasa, Jose Maria, Veitch, Jennifer, von Schuckmann, Karina, Wan, Liying, Wilkin, John, Zufic, Romane, Ciliberti, Stefania A., Fanjul, Enrique Alvarez, Pearlman, Jay, Wilmer-Becker, Kirsten, Bahurel, Pierre, Ardhuin, Fabrice, Arnaud, Alain, Bell, Mike, Berthou, Segolene, Bertino, Laurent, Capet, Arthur, Chassignet, Eric, Ciavatta, Stefano, Cirano, Mauro, Clementi, Emanuela, Cossarini, Gianpiero, Coro, Gianpaolo, Corney, Stuart, Davidson, Fraser, Drevillon, Marie, Drillet, Yann, Dussurget, Renaud, El Serafy, Ghada, Fennel, Katja, Sotillo, Marcos Garcia, Heimbach, Patrick, Hernandez, Fabrice, Hogan, Patrick, Hoteit, Ibrahim, Joseph, Sudheer, Josey, Simon, Le Traon, Pierre-Yves, Libralato, Simone, Mancini, Marco, Matte, Pascal, Melet, Angelique, Miyazawa, Yasumasa, Moore, Andrew M., Novellino, Antonio, Porter, Andrew, Regan, Heather, Romero, Laia, Schiller, Andreas, Siddorn, John, Staneva, Joanna, Thomas-Courcoux, Cecile, Tonani, Marina, Garcia-Valdecasa, Jose Maria, Veitch, Jennifer, von Schuckmann, Karina, Wan, Liying, Wilkin, John, and Zufic, Romane

Abstract

The Intergovernmental Oceanographic Commission (IOC) has an Ocean Decade Implementation Plan (UNESCO-IOC, 2021) that states seven outcomes required for the ocean we want, with the fourth outcome being “A predicted ocean where society understands and can respond to changing ocean conditions.” To facilitate the achievement of this goal, the IOC has endorsed Mercator Ocean International to implement the Decade Collaborative Center (DCC) for OceanPrediction (https://www.mercator-ocean.eu/oceanprediction/, last access: 21 August 2023), which is a cross-cutting structure that will work to develop global-scale collaboration between Decade Actions related to ocean prediction.

Published
2023

17. An observational and warning system for the aquaculture sector

Author

European Commission, Pereiro, Diego, Belyaev, Oleg, Dunbar, Martha B., Conway, Andrew, Dabrowski, Tomasz, Graves, Inger, Navarro, Gabriel, Nolan, Glenn, Pearlman, Jay, Simpson, Pauline, Cusack, Caroline, European Commission, Pereiro, Diego, Belyaev, Oleg, Dunbar, Martha B., Conway, Andrew, Dabrowski, Tomasz, Graves, Inger, Navarro, Gabriel, Nolan, Glenn, Pearlman, Jay, Simpson, Pauline, and Cusack, Caroline

Abstract

This work presents the steps followed in the design and implementation of a marine observatory that provides the current state and forecast of oceanic conditions relevant to the aquaculture sector. Examples of successful implementation of these guidelines are presented in the framework of the EuroSea project (H2020 grant agreement No. 862626) for two aquaculture sites: Deenish Island in Ireland and El Campello in Spain. In-situ essential ocean measurements, remote-sensing observations and modelled forecasts are jointly provided to the aquaculture end users. The process begins with stakeholder interaction to understand their main needs and concerns, followed by software architecture design and development to facilitate data acquisition, post-processing and visualization on an open-access web platform. User input regarding the development of the observatory and web platform content and frequent feedback are of paramount importance during the whole process to ensure that the services offered match the needs of the aquaculture sector.

Published
2023

19. Polar Data Forum IV – An Ocean of Opportunities

Author

Janssen, Annemie Rose, primary, Bricher, Philippa, additional, Payne, Karen, additional, Badhe, Renuka, additional, Biebow, Nicole, additional, de Bruin, Taco, additional, Duerr, Ruth, additional, Elshout, Pjotr, additional, Gaylord, Allison, additional, Godøy, Øystein, additional, Gorringe, Patrick, additional, Guihen, Damien, additional, Kool, Johnathan, additional, Larsen, Jan Rene, additional, Nolan, Joseph, additional, Novellino, Antonio, additional, Manley, William, additional, Marouchos, Andreas, additional, McCammon, Molly, additional, Murray, Maribeth, additional, Parrott, Jenn, additional, Pearlman, Jay, additional, Peat, Helen, additional, Pulsifer, Peter, additional, Symons, Lloyd, additional, Tacoma, Marten, additional, Theocharides, Soulaine, additional, Tronstad, Stein, additional, Verhey, Chantelle, additional, and Van de Putte, Anton, additional

Published
2023
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20. Best Practice Recommendations for Polar Research Communications. Version 1.0

Author

Horovcakova, Eva, Badhe, Renuka, Coombs, Sarah, Couser, Griffith, Delphin, Joelina, Elshout, Pjotr, Füreder, Leopold, Heerema, Sabrina, Jawak, Shridhar, Jungblut, Simon, Marzaro, Jessica, Patterson, Simon, Pearlman, Jay, Rees, Gareth, Strobel, Anneli, Vieira, Goncalo, Wood-Donnelly, Corine, European Polar Board, and EU Polar Cluster

Subjects
Best practices, Horizon2020, Horizon Europe, Cross-discipline, Communications
Abstract

This document represents recommendations and best practices from a broad range of communities interested in polar research communications discussed at Arctic Science Summit Week 2023 (including EU Polar Cluster members and non-members). Published Current 14.a Concept Multi-organisational International N/A N/A Method

Published
2023

21. The founding charter of the Omic Biodiversity Observation Network (Omic BON)

Author

Meyer, Raïssa, primary, Davies, Neil, additional, Pitz, Kathleen J, additional, Meyer, Chris, additional, Samuel, Robyn, additional, Anderson, Jane, additional, Appeltans, Ward, additional, Barker, Katharine, additional, Chavez, Francisco P, additional, Duffy, J Emmett, additional, Goodwin, Kelly D, additional, Hudson, Maui, additional, Hunter, Margaret E, additional, Karstensen, Johannes, additional, Laney, Christine M, additional, Leinen, Margaret, additional, Mabee, Paula, additional, Macklin, James A, additional, Muller-Karger, Frank, additional, Pade, Nicolas, additional, Pearlman, Jay, additional, Phillips, Lori, additional, Provoost, Pieter, additional, Santi, Ioulia, additional, Schigel, Dmitry, additional, Schriml, Lynn M, additional, Soccodato, Alice, additional, Suominen, Saara, additional, Thibault, Katherine M, additional, Ung, Visotheary, additional, van de Kamp, Jodie, additional, Wallis, Elycia, additional, Walls, Ramona, additional, and Buttigieg, Pier Luigi, additional

Published
2022
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23. Best Practices in Aquaculture, EATIP-OBPS Workshop, Tuesday, 05 April 2022, 11.00 - I4.30 UTC (Online), Proceedings

Author

Neyt, Alexandra, Simpson, Pauline, Pearlman, Jay, Neyts, Alexandra, Simpson, Pauline, and Pearlman, Jay

Subjects
Fisheries and aquaculture, Fish farming, Shellfish farming, Aquaculture, Molluscs, FOS: Earth and related environmental sciences, Mariculture
Abstract

The development of best practices is an important part of the recently launched European Strategic guidelines for a more sustainable and competitive EU aquaculture . The workshop stimulated the sharing of knowledge and promoted best practice development across aquaculture systems and regions. It provided the participants with a better understanding of how to develop and maintain best practices within the existing boundaries for sharing of data. The workshop also showed examples of good practices and looked into opportunities for guidance and collaborative actions on how to support their development. It was organised jointly by the European Aquaculture Technology and Innovation Platform (EATIP) further to an initial approach by the Ocean Best Practices System (OBPS) of The Intergovernmental Oceanographic Commission (IOC). Published Current 14.a Reports with methodological relevance

Published
2022
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26. Best Practices uptake process across the Ocean Observing Community

Author

Munoz-Mas, Cristian, Pearlman, Jay, Przeslawski, Rachel, Bushnell, Mark, Muller-Karger, Frank, Mader, Julien, Hermes, Juliet, Buttigieg, Pier Luigi, Simpson, Pauline, Pearlman, Francoise, Hörstmann, Cora, Wehde, Henning, Munoz-Mas, Cristian, Pearlman, Jay, Przeslawski, Rachel, Bushnell, Mark, Muller-Karger, Frank, Mader, Julien, Hermes, Juliet, Buttigieg, Pier Luigi, Simpson, Pauline, Pearlman, Francoise, Hörstmann, Cora, and Wehde, Henning

Abstract

This paper explores the uptake processes that different communities use with regards to their standard operating procedures and best practices Across our five case studies, we noted what made uptake processes successful or challenging and distilled a set of recommendations to further develop the OBPS’s approach to supporting communities in developing and converging methods into best practices.

Published
2022
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27. Ocean Integration: The needs and challenges of effective coordination within the ocean observing system

Author

Révelard, Adèle, Tintoré, Joaquín, Verron, Jacques, Bahurel, Pierre, Barth, John A., Belbéoch, Mathieu, Benveniste, Jérôme, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Le Traon, Pierre Yves, Marques, Miguel, McLean, Craig, Medina, Raul, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintall, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdés, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, Williams, Ben, Révelard, Adèle, Tintoré, Joaquín, Verron, Jacques, Bahurel, Pierre, Barth, John A., Belbéoch, Mathieu, Benveniste, Jérôme, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Le Traon, Pierre Yves, Marques, Miguel, McLean, Craig, Medina, Raul, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintall, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdés, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, and Williams, Ben

Abstract

Understanding and sustainably managing complex environments such as marine ecosystems benefits from an integrated approach to ensure that information about all relevant components and their interactions at multiple and nested spatiotemporal scales are considered. This information is based on a wide range of ocean observations using different systems and approaches. An integrated approach thus requires effective collaboration between areas of expertise in order to improve coordination at each step of the ocean observing value chain, from the design and deployment of multi-platform observations to their analysis and the delivery of products, sometimes through data assimilation in numerical models. Despite significant advances over the last two decades in more cooperation across the ocean observing activities, this integrated approach has not yet been fully realized. The ocean observing system still suffers from organizational silos due to independent and often disconnected initiatives, the strong and sometimes destructive competition across disciplines and among scientists, and the absence of a well-established overall governance framework. Here, we address the need for enhanced organizational integration among all the actors of ocean observing, focusing on the occidental systems. We advocate for a major evolution in the way we collaborate, calling for transformative scientific, cultural, behavioral, and management changes. This is timely because we now have the scientific and technical capabilities as well as urgent societal and political drivers. The ambition of the United Nations Decade of Ocean Science for Sustainable Development (2021–2030) and the various efforts to grow a sustainable ocean economy and effective ocean protection efforts all require a more integrated approach to ocean observing. After analyzing the barriers that currently prevent this full integration within the occidental systems, we suggest nine approaches for breaking down the silos and promot

Published
2022

28. Two-eyed seeing: Embracing the power of Indigenous knowledge for a healthy and sustainable Ocean

Author

Leonard, Kelsey, Buttigieg, Pier Luigi, Hudson, Maui, Paul, Kenneth, Pearlman, Jay, Juniper, S. Kim, Knowlton, Nancy, Leonard, Kelsey, Buttigieg, Pier Luigi, Hudson, Maui, Paul, Kenneth, Pearlman, Jay, Juniper, S. Kim, and Knowlton, Nancy

Abstract

Indigenous knowledge is often disregarded and opportunities for positive change are lost. To protect the Ocean, a “two-eyed seeing” approach combining Indigenous and western knowledge systems can create advancements while empowering coastal Indigenous Peoples.

Published
2022
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29. Ocean Integration: The Needs and Challenges of Effective Coordination Within the Ocean Observing System

Author

European Commission, Révelard, Adèle, Tintoré, Joaquín, Verron, Jacques, Bahurel, Pierre, Barth, Alexander, Belbéoch, Mathieu, Benveniste, Jérôme, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Le Traon, Pierre-Yves, Marques, Miguel, McLean, Craig, Medina, Raúl, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintall, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdés, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, Williams, Ben, European Commission, Révelard, Adèle, Tintoré, Joaquín, Verron, Jacques, Bahurel, Pierre, Barth, Alexander, Belbéoch, Mathieu, Benveniste, Jérôme, Bonnefond, Pascal, Chassignet, Eric P., Cravatte, Sophie, Davidson, Fraser, deYoung, Brad, Heupel, Michelle, Heslop, Emma, Hörstmann, Cora, Karstensen, Johannes, Le Traon, Pierre-Yves, Marques, Miguel, McLean, Craig, Medina, Raúl, Paluszkiewicz, Theresa, Pascual, Ananda, Pearlman, Jay, Petihakis, George, Pinardi, Nadia, Pouliquen, Sylvie, Rayner, Ralph, Shepherd, Iian, Sprintall, Janet, Tanhua, Toste, Testor, Pierre, Seppälä, Jukka, Siddorn, John, Thomsen, Soeren, Valdés, Luis, Visbeck, Martin, Waite, Anya M., Werner, Francisco, Wilkin, John, and Williams, Ben

Abstract

Understanding and sustainably managing complex environments such as marine ecosystems benefits from an integrated approach to ensure that information about all relevant components and their interactions at multiple and nested spatiotemporal scales are considered. This information is based on a wide range of ocean observations using different systems and approaches. An integrated approach thus requires effective collaboration between areas of expertise in order to improve coordination at each step of the ocean observing value chain, from the design and deployment of multi-platform observations to their analysis and the delivery of products, sometimes through data assimilation in numerical models. Despite significant advances over the last two decades in more cooperation across the ocean observing activities, this integrated approach has not yet been fully realized. The ocean observing system still suffers from organizational silos due to independent and often disconnected initiatives, the strong and sometimes destructive competition across disciplines and among scientists, and the absence of a well-established overall governance framework. Here, we address the need for enhanced organizational integration among all the actors of ocean observing, focusing on the occidental systems. We advocate for a major evolution in the way we collaborate, calling for transformative scientific, cultural, behavioral, and management changes. This is timely because we now have the scientific and technical capabilities as well as urgent societal and political drivers. The ambition of the United Nations Decade of Ocean Science for Sustainable Development (2021–2030) and the various efforts to grow a sustainable ocean economy and effective ocean protection efforts all require a more integrated approach to ocean observing. After analyzing the barriers that currently prevent this full integration within the occidental systems, we suggest nine approaches for breaking down the silos and promot

Published
2022

32. Ocean Integration: The Needs and Challenges of Effective Coordination Within the Ocean Observing System

Author

Révelard, Adèle, primary, Tintoré, Joaquín, additional, Verron, Jacques, additional, Bahurel, Pierre, additional, Barth, John A., additional, Belbéoch, Mathieu, additional, Benveniste, Jérôme, additional, Bonnefond, Pascal, additional, Chassignet, Eric P., additional, Cravatte, Sophie, additional, Davidson, Fraser, additional, deYoung, Brad, additional, Heupel, Michelle, additional, Heslop, Emma, additional, Hörstmann, Cora, additional, Karstensen, Johannes, additional, Le Traon, Pierre Yves, additional, Marques, Miguel, additional, McLean, Craig, additional, Medina, Raul, additional, Paluszkiewicz, Theresa, additional, Pascual, Ananda, additional, Pearlman, Jay, additional, Petihakis, George, additional, Pinardi, Nadia, additional, Pouliquen, Sylvie, additional, Rayner, Ralph, additional, Shepherd, Iian, additional, Sprintall, Janet, additional, Tanhua, Toste, additional, Testor, Pierre, additional, Seppälä, Jukka, additional, Siddorn, John, additional, Thomsen, Soeren, additional, Valdés, Luis, additional, Visbeck, Martin, additional, Waite, Anya M., additional, Werner, Francisco, additional, Wilkin, John, additional, and Williams, Ben, additional

Published
2022
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33. TECHNOLOGIES INNOVANTES INTÉGRÉES POUR LA SURVEILLANCE CÔTIÈRE JERICO-S3

Author

Delory, Eric, Marini, Simone, Blandin, Jérôme, Boccadoro, Catherine, Durand, Dominique, Cianca, Andrés, Tintore, Joaquin, Pearlman, Jay, Charcos, Miguel, Alcalde, Miguel, Fernandez, Juan, DELAUNEY, Laurent, PLOCAN-Plataforma Oceanica de Canarias, PLOCAN, CNR, Italy, Institute of Marine Sciences, LERICI, Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), NORCE Norwegian Research Center, COVARTEC AS, Norway, FYLLINGSDALEN, SOCIB Balearic Islands Coastal Ocean Observing and Forecasting System, IEEE, France, PARIS, Shom, Ifremer, EuroGOOS AISBL, and MORVAN, Gaël

Subjects
[SDE] Environmental Sciences, Ocean, Infrastructure, Sensors, Artifi cial Intelligence, Integration, Systems, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Environment, Interoperability, Essential Ocean Variables, Coastal, [SDE]Environmental Sciences, MSFD
Abstract

International audience; JERICO RI, the Joint European Research Infrastructure for Coastal Observatories is an integrated pan-European multidisciplinary/multiplatform research infrastructure dedicated to an interdisciplinary appraisal of the coastal marine system environment. It is the coastal component of the future European Ocean Observing System. This Research Infrastructure is designing the future of coastal observation technology for harmonization and interoperability, advanced functionalities, cost effi ciency and reliability. The technological developments of the JERICO-S3 EU project aim to strengthen and expand the infrastructure of the European network of coastal observatories. This objective will be achieved with new observing systems and platforms equipped with new technologies for interoperability, innovative sensor packages for multidisciplinary ecosystem monitoring, coupling physics, chemistry and biology. The planned technological developments consist in adapting interoperability standards, inter alia from the NeXOS and EMSODev European projects, developing onboard and on-server smart solutions for adaptive sampling, integrating technologies into dedicated sensor packages, further developing a capacity for high-frequency measurement of low trophic-level biological diversity and contaminants; hence fi lling critical gaps in the observation of the coastal ocean. An e-infrastructure is being developed and proof tested to integrate digital components (tools), best practices and documentation, from observation data and data products, to methods and coastal observation services.

Published
2021

34. Towards an increase in Diversity, Equity and Inclusion in international ocean observing practices and initiatives

Author

Van Stavel, Jordan, primary, Horstmann, Cora, additional, Satterthwaite, Erin, additional, Elsler, Laura, additional, Muller-Karger, Frank, additional, Bushnell, Mark, additional, Pearlman, Jay, additional, Crespo, Guillermo Ortuno, additional, Johannesen, Ellen, additional, Ojwala, Renis, additional, and Fleming, Alyson, additional

Published
2021
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35. Best Practices uptake process across the Ocean Observing Community

Author

Munoz-Mas, Cristian, primary, Pearlman, Jay, additional, Przeslawski, Rachel, additional, Bushnell, Mark, additional, Muller-Karger, Frank, additional, Mader, Julien, additional, Hermes, Juliet, additional, Buttigieg, Pier Luigi, additional, Simpson, Pauline, additional, Pearlman, Francoise, additional, Horstmann, Cora, additional, and Wehde, Henning, additional

Published
2021
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38. Evolving and Sustaining Ocean Best Practices to Enable Interoperability in the UN Decade of Ocean Science for Sustainable Development

Author

Pearlman, Jay, Buttigieg, Pier Luigi, Bushnell, Mark, Delgado, Claudia, Hermes, Juliet, Heslop, Emma, Hörstmann, Cora, Isensee, Kirsten, Karstensen, Johannes, Lambert, Arno, Lara-Lopez, Ana, Muller-Karger, Frank, Munoz Mas, Cristian, Pearlman, Francoise, Pissierssens, Peter, Przeslawski, Rachel, Simpson, Pauline, van Stavel, Jordan, Venkatesan, Ramasamy, Pearlman, Jay, Buttigieg, Pier Luigi, Bushnell, Mark, Delgado, Claudia, Hermes, Juliet, Heslop, Emma, Hörstmann, Cora, Isensee, Kirsten, Karstensen, Johannes, Lambert, Arno, Lara-Lopez, Ana, Muller-Karger, Frank, Munoz Mas, Cristian, Pearlman, Francoise, Pissierssens, Peter, Przeslawski, Rachel, Simpson, Pauline, van Stavel, Jordan, and Venkatesan, Ramasamy

Abstract

The UN Decade of Ocean Science for Sustainable Development (Ocean Decade) challenges marine science to better inform and stimulate social and economic development while conserving marine ecosystems. To achieve these objectives, we must make our diverse methodologies more comparable and interoperable, expanding global participation and foster capacity development in ocean science through a new and coherent approach to best practice development. We present perspectives on this issue gleaned from the ongoing development of the UNESCO Intergovernmental Oceanographic Commission (IOC) Ocean Best Practices System (OBPS). The OBPS is collaborating with individuals and programs around the world to transform the way ocean methodologies are managed, in strong alignment with the outcomes envisioned for the Ocean Decade. However, significant challenges remain, including: (1) the haphazard management of methodologies across their lifecycle, (2) the ambiguous endorsement of what is “best” and when and where one method may be applicable vs. another, and (3) the inconsistent access to methodological knowledge across disciplines and cultures. To help address these challenges, we recommend that sponsors and leaders in ocean science and education promote consistent documentation and convergence of methodologies to: create and improve context-dependent best practices; incorporate contextualized best practices into Ocean Decade Actions; clarify who endorses which method and why; create a global network of complementary ocean practices systems; and ensure broader consistency and flexibility in international capacity development.

Published
2021

39. Perspectives on Documenting Methods to Create Ocean Best Practices

Author

Hörstmann, Cora, Buttigieg, Pier Luigi, Simpson, Pauline, Pearlman, Jay, Waite, Anya M., Hörstmann, Cora, Buttigieg, Pier Luigi, Simpson, Pauline, Pearlman, Jay, and Waite, Anya M.

Abstract

This perspective outlines how authors of ocean methods, guides, and standards can harmonize their work across the scientific community. We reflect on how documentation practices can be linked to modern information technologies to improve discoverability, interlinkages, and thus the evolution of distributed methods into common best practices within the ocean community. To show how our perspectives can be turned into action, we link them to guidance on using the IOC-UNESCO Ocean Best Practice System to support increased collaboration and reproducibility during and beyond the UN Decade of Ocean Sciences for Sustainable Development.

Published
2021

40. JERICO-S3 Integrated Innovative Technologies for Coastal Monitoring

Author

Delory, Eric, Marini, Simone, Blandin, Jerome, Boccadoro, Catherine, Durand, Miguel, Cianca, Andres, Tintore, Joaquin, Pearlman, Jay, Charcos, Miguel, Alcalde, Miguel Angel, Fernandez, Juan Gabriel, Delauney, Laurent, Delory, Eric, Marini, Simone, Blandin, Jerome, Boccadoro, Catherine, Durand, Miguel, Cianca, Andres, Tintore, Joaquin, Pearlman, Jay, Charcos, Miguel, Alcalde, Miguel Angel, Fernandez, Juan Gabriel, and Delauney, Laurent

Abstract

JERICO RI, the Joint European Research Infrastructure for Coastal Observatories is an integrated pan-European multidisciplinary/multiplatform research infrastructure dedicated to an interdisciplinary appraisal of the coastal marine system environment. It is the coastal component of the future European Ocean Observing System. This Research Infrastructure is designing the future of coastal observation technology for harmonization and interoperability, advanced functionalities, cost efficiency and reliability. The technological developments of the JERICO-S3 EU project aim to strengthen and expand the infrastructure of the European network of coastal observatories. This objective will be achieved with new observing systems and platforms equipped with new technologies for interoperability, innovative sensor packages for multidisciplinary ecosystem monitoring, coupling physics, chemistry and biology. The planned technological developments consist in adapting interoperability standards, inter alia from the NeXOS and EMSODev European projects, developing on- board and on-server smart solutions for adaptive sampling, integrating technologies into dedicated sensor packages, further developing a capacity for high-frequency measurement of low trophic-level biological diversity and contaminants; hence filling critical gaps in the observation of the coastal ocean. An e-infrastructure is being developed and proof tested to integrate digital components (tools), best practices and documentation, from observation data and data products, to methods and coastal observation services

Published
2021

41. Collaborative Automation and IoT Technologies for Coastal Ocean Observing Systems

Author

Mariani, Patrizio, Bachmayer, Ralf, Kosta, Sokol, Pietrosemoli, Ermanno, Ardelan, Murat V., Connelly, Douglas P., Delory, Eric, Pearlman, Jay S., Petihakis, George, Thompson, Fletcher, Crise, Alessandro, Mariani, Patrizio, Bachmayer, Ralf, Kosta, Sokol, Pietrosemoli, Ermanno, Ardelan, Murat V., Connelly, Douglas P., Delory, Eric, Pearlman, Jay S., Petihakis, George, Thompson, Fletcher, and Crise, Alessandro

Abstract

Coastal observing systems are typically nationally funded and built around national priorities. As a result, there are presently significant differences between countries in terms of sustainability, observing capacity and technologies, as well as methods and research priorities. Ocean observing systems in coastal areas must now move toward an integrated, multidisciplinary and multiscale system of systems, where heterogeneity should be exploited to deliver fit-for-purpose products that answer the diversity and complexity of the requirements from stakeholders and end-users. Essential elements of such distributed observation systems are the use of machine-to-machine communication, data fusion and processing applying recent technological developments for the Internet of Things (IoT) toward a common cyberinfrastructure. This perspective paper illustrates some of the challenges for sustained coastal observations and provides details on how to address present gaps. We discuss the role of collaborative robotics between unmanned platforms in coastal areas and the methods to benefit from IoT technologies. Given present trends in cost-effective solutions in ocean sensors and electronics, and methods for marine automation and communication, we consider that a distributed observation system can effectively provide timely information in coastal regions around the world, including those areas that are today poorly observed (e.g., developing countries). Adaptation in space and time of the sensing nodes, and the flexibility in handling different sensing platforms can provide to the system the ability to quickly respond to the rapid changes in oceanic and climatic processes, as well as to promptly respond to evolving stakeholder and end-user requirements.

Published
2021

42. Evolving and Sustaining Ocean Best Practices to Enable Interoperability in the UN Decade of Ocean Science for Sustainable Development

Author

Pearlman, Jay, primary, Buttigieg, Pier Luigi, additional, Bushnell, Mark, additional, Delgado, Claudia, additional, Hermes, Juliet, additional, Heslop, Emma, additional, Hörstmann, Cora, additional, Isensee, Kirsten, additional, Karstensen, Johannes, additional, Lambert, Arno, additional, Lara-Lopez, Ana, additional, Muller-Karger, Frank, additional, Munoz Mas, Cristian, additional, Pearlman, Francoise, additional, Pissierssens, Peter, additional, Przeslawski, Rachel, additional, Simpson, Pauline, additional, van Stavel, Jordan, additional, and Venkatesan, Ramasamy, additional

Published
2021
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43. Marine Life 2030: Forecasting Changes to Ocean Biodiversity to Inform Decision-Making: A Critical Role for the Marine Biodiversity Observation Network (MBON)

Author

Muller-Karger, Frank, primary, Kavanaugh, Maria, additional, Iken, Katrin, additional, Montes, Enrique, additional, Chavez, Francisco, additional, Ruhl, Henry, additional, Miller, Robert, additional, Runge, Jeffrey, additional, Grebmeier, Jackie, additional, Cooper, Lee, additional, Helmuth, Brian, additional, Escobar-Briones, Elva, additional, Hammerschlag, Neil, additional, Estes, Maury, additional, Pearlman, Jay, additional, Hestir, Erin, additional, Duffy, Emmett, additional, Sarri, Kristen J., additional, Hudson, Charlotte, additional, Landrum, Jason, additional, Canonico, Gabrielle, additional, Jewett, Libby, additional, Newton, Jan, additional, Kirkpatrick, Barbara, additional, Anderson, Clarissa, additional, Bates, Amanda, additional, Sousa-Pinto, Isabel, additional, Nakaoka, Masahiro, additional, and Soares, Joana, additional

Published
2021
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44. Briefing for Ocean Best Practices System advocates during UN Decade of Ocean Science for Sustainable Development meetings held at National Institute of Ocean Technology, Ministry of Earth Sciences, India on 10th January 2020

Author

Pearlman, Jay and Thurston, Sidney

Subjects
Physical oceanography [Parameter Discipline], Cross-discipline [Parameter Discipline], Parameter Discipline::Physical oceanography, Parameter Discipline::Cross-discipline
Abstract

The session on ocean best practices was held as part of UN Decade of Ocean Science for sustainable development (2021-2030) on 10thJanuary 2020.The meeting was attended by 75 Participants from 19Countries viz India, USA, Tunisia, Australia, Congo, Sri Lanka, Bangladesh, Cameroon, Tanzania, Maldives, France, UK, Russia, Saudi Arabia, Australia, Kuwait Indoos, Fugro (Industry)participated in the workshop. A List of participants is attached as Annexure. Published Non Refereed Current 14.A Manual (incl. handbook, guide, cookbook etc)

Published
2020
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45. Towards a Best Practice for Developing Best Practices in Ocean Observation (BP4BP): Supporting Methodological Evolution through Actionable Documentation

Author

Horstmann, Cora, Buttigieg, Pier Luigi, Simpson, Pauline, Pearlman, Jay, Karstensen, J., and Waite, Anya M.

Subjects
0106 biological sciences, Best practices, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Data Management Practices::Data archival/stewardship/curation, Parameter Discipline::Cross-discipline, Data archival/stewardship/curation [Data Management Practices], 01 natural sciences, Ocean Best Practices System, Cross-discipline [Parameter Discipline], 13. Climate action, Data Management Practices::Metadata management, 14. Life underwater, Metadata management [Data Management Practices], 0105 earth and related environmental sciences
Abstract

In this document, we provide details on how to best use the Ocean Best Practices System (OBPS) templates, thus allowing greater discovery, machine readability, sharing and understandability of methods and best practices (Buttigieg et al. 2019). This document clarifies how to optimally populate the different sections of an OBPS template. We describe how those sections can help the OBPS evolve each submission towards more global best practices. Further, we discuss key challenges in developing methods into community-wide best practices. Published Refereed Current 14.A TRL 7 System prototyping demonstration in an operational environment (ground or space) Best Practice Manual (incl. handbook, guide, cookbook etc)

Published
2020

47. Evolving and Sustaining Ocean Best Practices Workshop III, 02– 03 December 2019, UNESCO/IOC Project Office for IODE, Oostende, Belgium: Proceedings

Author

Simpson, Pauline, Pearlman, Françoise, Pearlman, Jay, Simpson, Pauline, Pearlman, Françoise, and Pearlman, Jay

Abstract

The oceans play a key role in global issues such as climate change, food security, and human health. Given their vast dimensions and internal complexity, efficient monitoring and predicting of the planet’s oceans must be a collaborative effort of both regional and global scale. The first and foremost requirement for such collaborative ocean observing is the need to follow well-defined and reproducible methods across activities: from strategies for structuring observing systems, sensor deployment and usage, and the generation of data and information products, to ethical and governance aspects when executing ocean observing. In this document, “ocean observing” are all activities of the value chain from preparing and conducting observations to impacts on society through applications of information. To meet the urgent, planet-wide challenges we face, methods across all aspects of ocean observing should be broadly adopted by the ocean community and, where appropriate, should evolve into “ocean best practices” or standards. The OBPS provides an opportunity space for the centralized and coordinated improvement of ocean observing methods. While many groups have created best practices, they are scattered across the Web or buried in local repositories and many have yet to be digitized. To reduce this fragmentation, there is now an open access, permanent, digital repository of best practices documentation (oceanbestpractices.org) that is part of the Ocean Best Practices System (OBPS). In addition to the repository, the OBPS includes a peer reviewed journal research topic, a forum for community discussion and a training activity for creating and using best practices. Together, these components serve to realize a core objective of the OBPS, which is to enable the ocean community to create superior methods for every activity in ocean observing from research to operations to applications that are agreed upon and broadly adopted across communities. The Ocean Best Practices Workshop

Published
2020

48. Future vision for autonomous ocean observations

Author

Whitt, Christopher, Pearlman, Jay, Polagye, Brian, Caimi, Frank, Muller-Karger, Frank, Copping, Andrea, Spence, Heather, Madhusudhana, Shyam, Kirkwood, William, Grosjean, Ludovic, Fiaz, Bilal Muhammad, Singh, Satinder, Singh, Sikandra, Manalang, Dana, Gupta, Ananya Sen, Maguer, Alain, Buck, Justin J. H., Marouchos, Andreas, Atmanand, Malayath Aravindakshan, Venkatesan, Ramasamy, Narayanaswamy, Vedachalam, Testor, Pierre, Douglas, Elizabeth, de Halleux, Sebastien, Khalsa, Siri Jodha, Whitt, Christopher, Pearlman, Jay, Polagye, Brian, Caimi, Frank, Muller-Karger, Frank, Copping, Andrea, Spence, Heather, Madhusudhana, Shyam, Kirkwood, William, Grosjean, Ludovic, Fiaz, Bilal Muhammad, Singh, Satinder, Singh, Sikandra, Manalang, Dana, Gupta, Ananya Sen, Maguer, Alain, Buck, Justin J. H., Marouchos, Andreas, Atmanand, Malayath Aravindakshan, Venkatesan, Ramasamy, Narayanaswamy, Vedachalam, Testor, Pierre, Douglas, Elizabeth, de Halleux, Sebastien, and Khalsa, Siri Jodha

Abstract

Autonomous platforms already make observations over a wide range of temporal and spatial scales, measuring salinity, temperature, nitrate, pressure, oxygen, biomass, and many other parameters. However, the observations are not comprehensive. Future autonomous systems need to be more affordable, more modular, more capable and easier to operate. Creative new types of platforms and new compact, low power, calibrated and stable sensors are under development to expand autonomous observations. Communications and recharging need bandwidth and power which can be supplied by standardized docking stations. In situ power generation will also extend endurance for many types of autonomous platforms, particularly autonomous surface vehicles. Standardized communications will improve ease of use, interoperability, and enable coordinated behaviors. Improved autonomy and communications will enable adaptive networks of autonomous platforms. Improvements in autonomy will have three aspects: hardware, control, and operations. As sensors and platforms have more onboard processing capability and energy capacity, more measurements become possible. Control systems and software will have the capability to address more complex states and sophisticated reactions to sensor inputs, which allows the platform to handle a wider variety of circumstances without direct operator control. Operational autonomy is increased by reducing operating costs. To maximize the potential of autonomous observations, new standards and best practices are needed. In some applications, focus on common platforms and volume purchases could lead to significant cost reductions. Cost reductions could enable order-of-magnitude increases in platform operations and increase sampling resolution for a given level of investment. Energy harvesting technologies should be integral to the system design, for sensors, platforms, vehicles, and docking stations. Connections are needed between the marine energy and ocean observing communi

Published
2020

49. Planning a Sustainable Future for Earth’s Oceans

Author

Van Stavel, Jordan, Karstensen, Johannes, Hermes, Juliet, Pearlman, Jay, Van Stavel, Jordan, Karstensen, Johannes, Hermes, Juliet, and Pearlman, Jay

Abstract

Ocean experts are engaged in a long-term effort to envision, develop, and implement best practices for meeting today’s needs while preserving ocean resources for future generations

Published
2020
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