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description Publicationkeyboard_double_arrow_right Other literature type , Article 2013 France, France, France, United StatesPublisher:Springer Science and Business Media LLC Funded by:EC | MINOSEC| MINOSMoore, C.; Mills, M.; Arrigo, K.; Berman-Frank, I.; Bopp, L.; Boyd, P.; Galbraith, E.; Geider, R.; Guieu, C.; Jaccard, S.; Jickells, T.; La Roche, J.; Lenton, T.; Mahowald, N.; Marañón, E.; Marinov, I.; Moore, J.; Nakatsuka, T.; Oschlies, A.; Saito, M.; Thingstad, T.; Tsuda, A.; Ulloa, O.;Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry. © 2013 Macmillan Publishers Limited. All rights reserved.
Oskar Bordeaux arrow_drop_down eScholarship - University of CaliforniaArticle . 2013Data sources: eScholarship - University of Californiahttps://doi.org/10.1038/NGEO17...Article . Peer-reviewedData sources: European Union Open Data Portaladd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesbronze 1K citations 1,448 popularity Top 0.01% influence Top 1% impulse Top 0.1% Powered by BIP!more_vert Oskar Bordeaux arrow_drop_down eScholarship - University of CaliforniaArticle . 2013Data sources: eScholarship - University of Californiahttps://doi.org/10.1038/NGEO17...Article . Peer-reviewedData sources: European Union Open Data Portaladd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2018 United Kingdom, Netherlands, Spain, Germany, Netherlands, Spain, United Kingdom, Portugal, France, United States, Switzerland, United Kingdom, Germany, United Kingdom, Netherlands, United Kingdom, Spain, Netherlands, United KingdomPublisher:Elsevier BV Publicly fundedFunded by:NSF | Support for International..., NSF | Support for International..., NSF | Support for International... +3 projectsNSF| Support for International Ocean Science Activities Through the Scientific Committee on Oceanic Research ,NSF| Support for International Ocean Science Activities Through the Scientific Committee on Oceanic Research ,NSF| Support for International Research Projects and Working Groups Through SCOR ,NWO| Feasibility of commercial application of negative stiffness bar balancers ,NSF| Support for International Research Projects and Working Groups Through SCOR ,UKRI| RootDetect: Remote Detection and Precision Management of Root HealthReiner Schlitzer; Robert F. Anderson; Elena Masferrer Dodas; Maeve C. Lohan; Walter Geibert; Andrew R. Bowie; William M. Landing; Cyril Abadie; Eric P. Achterberg; Ana Aguliar-Islas; Morten B. Andersen; Corey Archer; Oliver Baars; Alex R. Baker; Karel Bakker; Chandranath Basak; Mark Baskaran; Pieter van Beek; Melanie K. Behrens; Erin E. Black; Laurent Bopp; Heather A. Bouman; Philip W. Boyd; Marie Boye; Edward A. Boyle; Pierre Branellec; Luke Bridgestock; Guillaume Brissebrat; Thomas J. Browning; Hans-Jürgen Brumsack; Clifton S. Buck; Kristen N. Buck; Ken O. Buesseler; Edward C.V. Butler; Pinghe Cai; Patricia Cámara Mor; Damien Cardinal; Gonzalo Carrasco; Núria Casacuberta; Karen L. Casciotti; Maxi Castrillejo; Elena Chamizo; Rosie Chance; Joaquin E. Chaves; Hai Cheng; Marcus Christl; Thomas M. Church; Ivia Closset; Albert S. Colman; Tim M. Conway; Daniel Cossa; Peter Croot; Jay T. Cullen; Feifei Deng; Gabriel Dulaquais; Yolanda Echegoyen-Sanz; R. Lawrence Edwards; Michael J. Ellwood; Jessica N. Fitzsimmons; A. Russell Flegal; Martin Q. Fleisher; Tina van de Flierdt; Martin Frank; Jana Friedrich; François Fripiat; Stephen J.G. Galer; Toshitaka Gamo; Raja S. Ganeshram; Jordi Garcia-Orellana; Ejin George; Loes J. A. Gerringa; Melissa Gilbert; José Marcus Godoy; Steven L. Goldstein; Santiago R. Gonzalez; Karen Grissom; Chad R. Hammerschmidt; Alison E. Hartman; Christel S. Hassler; Ed C Hathorne; Mariko Hatta; Nicholas J. Hawco; Lars-Eric Heimbürger; Josh Helgoe; Maija Heller; Gideon M. Henderson; Paul B. Henderson; Steven van Heuven; Peng Ho; Tristan J. Horner; Yu-Te Hsieh; Kuo-Fang Huang; David J. Janssen; William J. Jenkins; Seth G. John; Elizabeth M. Jones; David Kadko; Rick Kayser; Timothy C. Kenna; Lauren Kipp; J. K. Klar; Sven Kretschmer; Yuichiro Kumamoto; Patrick Laan; François Lacan; Phoebe J. Lam; Myriam Lambelet; Frédéric A. C. Le Moigne; Emilie Le Roy; Oliver J. Lechtenfeld; Jong-Mi Lee; Pascale Lherminier; Susan H. Little; Mercedes López-Lora; Yanbin Lu; Pere Masqué; Edward Mawji; Charles R. McClain; Sanjin Mehic; Pier van der Merwe; Rob Middag; Sebastian Mieruch; Angela Milne; Tomoharu Minami; James W. Moffett; Gwenaelle Moncoiffe; Willard S. Moore; Peter L. Morton; Yuzuru Nakaguchi; Noriko Nakayama; John Niedermiller; Jun Nishioka; Akira Nishiuchi; Hajime Obata; Jan van Ooijen; Stephanie Owens; Katharina Pahnke; Maxence Paul; Leopoldo D. Pena; Brian Peters; Frédéric Planchon; Hélène Planquette; Viena Puigcorbé; Paul D. Quay; Fabien Quéroué; Amandine Radic; Mark Rehkämper; Robert Rember; Joseph A. Resing; Joerg Rickli; Sylvain Rigaud; Stephen R. Rintoul; Laura F. Robinson; Montserrat Roca-Martí; Valentí Rodellas; Tobias Roeske; John M. Rolison; Mark Rosenberg; Saeed Roshan; Michiel M Rutgers van der Loeff; Evgenia Ryabenko; Lesley Salt; Virginie Sanial; Géraldine Sarthou; Christina Schallenberg; Ursula Schauer; Howie D. Scher; Christian Schlosser; Bernhard Schnetger; Peter Scott; Peter N. Sedwick; Igor Semiletov; Robert M. Sherrell; Alan M. Shiller; Daniel M. Sigman; Sunil K. Singh; Hans A. Slagter; Emma Slater; Helen M. Snaith; Yoshiki Sohrin; Jeroen E. Sonke; Sabrina Speich; Reiner Steinfeldt; Gillian Stewart; Torben Stichel; Claudine H. Stirling; James H. Swift; Alexander L. Thomas; Claire P. Till; Emily Townsend; Robyn E. Tuerena; Benjamin S. Twining; Derek Vance; Celia Venchiarutti; María Villa-Alfageme; Sebastian M. Vivancos; Bronwyn Wake; Ros Watson; Evaline M. van Weerlee; Yishai Weinstein; Dominik J. Weiss; Andreas Wisotzki; E. Malcolm S. Woodward; Yingzhe Wu; Kathrin Wuttig; Neil J. Wyatt; Yang Xiang; Zichen Xue; Hisayuki Yoshikawa; Jing Zhang; Ye Zhao; Linjie Zheng; Xin Yuan Zheng; Patrizia Ziveri; Patricia Zunino;The GEOTRACES Intermediate Data Product 2017 (IDP2017) is the second publicly available data product of the international GEOTRACES programme, and contains data measured and quality controlled before the end of 2016. The IDP2017 includes data from the Atlantic, Pacific, Arctic, Southern and Indian oceans, with about twice the data volume of the previous IDP2014. For the first time, the IDP2017 contains data for a large suite of biogeochemical parameters as well as aerosol and rain data characterising atmospheric trace element and isotope (TEI) sources. The TEI data in the IDP2017 are quality controlled by careful assessment of intercalibration results and multi-laboratory data comparisons at crossover stations. The IDP2017 consists of two parts: (1) a compilation of digital data for more than 450 TEIs as well as standard hydrographic parameters, and (2) the eGEOTRACES Electronic Atlas providing an on-line atlas that includes more than 590 section plots and 130 animated 3D scenes. The digital data are provided in several formats, including ASCII, Excel spreadsheet, netCDF, and Ocean Data View collection. Users can download the full data packages or make their own custom selections with a new on-line data extraction service. In addition to the actual data values, the IDP2017 also contains data quality flags and 1-σ data error values where available. Quality flags and error values are useful for data filtering and for statistical analysis. Metadata about data originators, analytical methods and original publications related to the data are linked in an easily accessible way. The eGEOTRACES Electronic Atlas is the visual representation of the IDP2017 as section plots and rotating 3D scenes. The basin-wide 3D scenes combine data from many cruises and provide quick overviews of large-scale tracer distributions. These 3D scenes provide geographical and bathymetric context that is crucial for the interpretation and assessment of tracer plumes near ocean margins or along ridges. The IDP2017 is the result of a truly international effort involving 326 researchers from 25 countries. This publication provides the critical reference for unpublished data, as well as for studies that make use of a large cross-section of data from the IDP2017. This article is part of a special issue entitled: Conway GEOTRACES - edited by Tim M. Conway, Tristan Horner, Yves Plancherel, and Aridane G. González. National Science Foundation (U.S.) (Grant OCE-1243377) National Science Foundation (U.S.) (Grant OCE-1546580) National Science Foundation (U.S.) (Grant OCE-0608600) National Science Foundation (U.S.) (Grant OCE0938349)
CORE (RIOXX-UK Aggre... arrow_drop_down CORE (RIOXX-UK Aggregator)Article . 2018License: CC BY NC NDData sources: CORE (RIOXX-UK Aggregator)Chemical GeologyArticle . 2018Full-Text: http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/233927/1/j.chemgeo.2018.05.040.pdfData sources: JAIRONARCIS; Chemical GeologyArticle . 2018University of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryRecolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2018 . 2019 . Peer-reviewedSpiral - Imperial College Digital RepositoryArticle . 2018Data sources: Spiral - Imperial College Digital RepositoryElectronic Publication Information CenterArticle . 2018Data sources: Electronic Publication Information CenterRecolector de Ciencia Abierta, RECOLECTA; Diposit Digital de la Universitat de BarcelonaArticle . 2018License: CC BYOxford University Research ArchiveOther literature type . 2018License: CC BYData sources: Oxford University Research ArchiveArchiMer - Institutional Archive of IfremerOther literature type . 2018Data sources: ArchiMer - Institutional Archive of IfremerRecolector de Ciencia Abierta, RECOLECTA; Dipòsit Digital de Documents de la UABArticle . 2018License: CC BYMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-CEA; HAL-IRDArticle . 2018License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen hybrid 250 citations 250 popularity Top 1% influence Top 10% impulse Top 0.1% Powered by BIP!visibility 288visibility views 288 download downloads 749 Powered bymore_vert CORE (RIOXX-UK Aggre... arrow_drop_down CORE (RIOXX-UK Aggregator)Article . 2018License: CC BY NC NDData sources: CORE (RIOXX-UK Aggregator)Chemical GeologyArticle . 2018Full-Text: http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/233927/1/j.chemgeo.2018.05.040.pdfData sources: JAIRONARCIS; Chemical GeologyArticle . 2018University of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryRecolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2018 . 2019 . Peer-reviewedSpiral - Imperial College Digital RepositoryArticle . 2018Data sources: Spiral - Imperial College Digital RepositoryElectronic Publication Information CenterArticle . 2018Data sources: Electronic Publication Information CenterRecolector de Ciencia Abierta, RECOLECTA; Diposit Digital de la Universitat de BarcelonaArticle . 2018License: CC BYOxford University Research ArchiveOther literature type . 2018License: CC BYData sources: Oxford University Research ArchiveArchiMer - Institutional Archive of IfremerOther literature type . 2018Data sources: ArchiMer - Institutional Archive of IfremerRecolector de Ciencia Abierta, RECOLECTA; Dipòsit Digital de Documents de la UABArticle . 2018License: CC BYMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-CEA; HAL-IRDArticle . 2018License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2019 United Kingdom, France, France, Norway, Spain, Norway, United Kingdom, France, Denmark, France, Germany, United KingdomPublisher:Frontiers Media SA Funded by:NSF | Southern Ocean Carbon and..., EC | REMOCEAN, EC | AtlantOS +1 projectsNSF| Southern Ocean Carbon and Climate Observations and Modeling (SOCCOM) ,EC| REMOCEAN ,EC| AtlantOS ,EC| RINGORoemmich, Dean; Alford, Matthew; Claustre, Hervé; Johnson, Kenneth; King, Brian; Moum, James; Oke, Peter,; Owens, W. Brechner; Pouliquen, Sylvie; Purkey, Sarah; Scanderbeg, Megan; Suga, Toshio; Wijffels, Susan; Zilberman, Nathalie; Bakker, Dorothée; Baringer, Molly; Belbeoch, Mathieu; Bittig, Henry; Boss, Emmanuel; Calil, Paulo; Carse, Fiona; Carval, Thierry; Chai, Fei; Conchubhair, Diarmuid Ó.; D'Ortenzio, Fabrizio; Dall’Olmo, Giorgio; Desbruyères, Damien; Fennel, Katja; Fer, Ilker; Ferrari, Raffaele; Forget, Gael; Freeland, Howard; Fujiki, Tetsuichi; Gehlen, Marion; Greenan, Blair; Hallberg, Robert; Hibiya, Toshiyuki; Hosoda, Shigeki; Jayne, Steven; Jochum, Markus; Johnson, Gregory; Kang, KiRyong; Kolodziejczyk, Nicolas,; Körtzinger, Arne; Traon, Pierre-Yves Le; Lenn, Yueng-Djern; Maze, Guillaume; Mork, Kjell Arne; Morris, Tamaryn; Nagai, Takeyoshi; Nash, Jonathan; Garabato, Alberto Naveira; Olsen, Are; Pattabhi, Rama Rao; Prakash, Satya; Riser, Stephen; Schmechtig, Catherine; Schmid, Claudia; Shroyer, Emily; Sterl, Andreas; Sutton, Philip; Talley, Lynne; Tanhua, Toste; Thierry, Virginie; Thomalla, Sandy; Toole, John; Troisi, Ariel; Trull, Thomas; Turton, Jon; Velez-Belchi, Pedro Joaquin; Walczowski, Waldemar; Wang, Haili; Wanninkhof, Rik; Waterhouse, Amy,; Waterman, Stephanie; Watson, Andrew,; Wilson, Cara; Wong, Annie; Xu, Jianping; Yasuda, Ichiro;handle: 1956/22064 , 10508/14810 , 10261/311867 , 1956/21416
The Argo Program has been implemented and sustained for almost two decades, as a global array of about 4000 profiling floats. Argo provides continuous observations of ocean temperature and salinity versus pressure, from the sea surface to 2000 dbar. The successful installation of the Argo array and its innovative data management system arose opportunistically from the combination of great scientific need and technological innovation. Through the data system, Argo provides fundamental physical observations with broad societally-valuable applications, built on the cost-efficient and robust technologies of autonomous profiling floats. Following recent advances in platform and sensor technologies, even greater opportunity exists now than 20 years ago to (i) improve Argo’s global coverage and value beyond the original design, (ii) extend Argo to span the full ocean depth, (iii) add biogeochemical sensors for improved understanding of oceanic cycles of carbon, nutrients, and ecosystems, and (iv) consider experimental sensors that might be included in the future, for example to document the spatial and temporal patterns of ocean mixing. For Core Argo and each of these enhancements, the past, present, and future progression along a path from experimental deployments to regional pilot arrays to global implementation is described. The objective is to create a fully global, top-to-bottom, dynamically complete, and multidisciplinary Argo Program that will integrate seamlessly with satellite and with other in situ elements of the Global Ocean Observing System (Legler et al., 2015). The integrated system will deliver operational reanalysis and forecasting capability, and assessment of the state and variability of the climate system with respect to physical, biogeochemical, and ecosystems parameters. It will enable basic research of unprecedented breadth and magnitude, and a wealth of ocean-education and outreach opportunities. Sí
e-Prints Soton arrow_drop_down Frontiers in Marine Science; NERC Open Research ArchiveOther literature type . Article . 2019 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2019 . Peer-reviewedData sources: University of East Anglia digital repositoryCopenhagen University Research Information SystemArticle . 2019Data sources: Copenhagen University Research Information SystemBrage IMR; Norwegian Open Research ArchivesArticle . 2019ArchiMer - Institutional Archive of IfremerOther literature type . 2019Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fmars.2019.00439&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 215 citations 215 popularity Top 0.1% influence Top 1% impulse Top 0.1% Powered by BIP!visibility 30visibility views 30 download downloads 50 Powered bymore_vert e-Prints Soton arrow_drop_down Frontiers in Marine Science; NERC Open Research ArchiveOther literature type . Article . 2019 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2019 . Peer-reviewedData sources: University of East Anglia digital repositoryCopenhagen University Research Information SystemArticle . 2019Data sources: Copenhagen University Research Information SystemBrage IMR; Norwegian Open Research ArchivesArticle . 2019ArchiMer - Institutional Archive of IfremerOther literature type . 2019Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fmars.2019.00439&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2014 Germany, Germany, United Kingdom, United Kingdom, Germany, France, France, Belgium, France, Switzerland, Netherlands, Norway, Switzerland, France, FrancePublisher:Copernicus GmbH Funded by:NSF | Collaborative Research: I..., EC | EMBRACE, EC | LUC4C +7 projectsNSF| Collaborative Research: Improved Regional and Decadal Predictions of the Carbon Cycle ,EC| EMBRACE ,EC| LUC4C ,EC| MACC II ,EC| COMBINE ,NSF| The Data Legacy of the Scripps Carbon Dioxide Program ,SNSF| Ecosystem impacts of climatic extremes versus gradual environmental change ,EC| GEOCARBON ,EC| CARBOCHANGE ,UKRI| Observations and synthesis to establish variability and trends of oceanic pHC. Le Quéré; R. Moriarty; Robbie M. Andrew; Glen P. Peters; Philippe Ciais; Pierre Friedlingstein; Steve D Jones; Stephen Sitch; Pieter P. Tans; Almut Arneth; Thomas A. Boden; Laurent Bopp; Yann Bozec; Josep G. Canadell; Louise Chini; Frédéric Chevallier; C. Cosca; Ian Harris; Mario Hoppema; Richard A. Houghton; Joanna Isobel House; Atul K. Jain; Truls Johannessen; Etsushi Kato; Ralph F. Keeling; Vassilis Kitidis; Kees Klein Goldewijk; Charles D. Koven; Camilla S. Landa; Peter Landschützer; Andrew Lenton; Ivan D. Lima; Gregg Marland; Jeremy T. Mathis; Nicolas Metzl; Yukihiro Nojiri; Are Olsen; T. Ono; Shushi Peng; Wouter Peters; Benjamin Pfeil; Benjamin Poulter; Michael R. Raupach; Pierre Regnier; Christian Rödenbeck; S. Saito; Joe Salisbury; Ute Schuster; Jörg Schwinger; Roland Séférian; Joachim Segschneider; Tobias Steinhoff; Benjamin D. Stocker; Adrienne J. Sutton; Taro Takahashi; Bronte Tilbrook; G. R. van der Werf; Nicolas Viovy; Ying-Ping Wang; Rik Wanninkhof; Andy Wiltshire; Ning Zeng;doi: 10.5194/essdd-7-521-2014 , 10.5445/ir/110103975 , 10.3929/ethz-b-000108127 , 10.5194/essd-7-47-2015 , 10.7892/boris.70708
handle: 20.500.11850/108127 , 1871.1/0def6242-391e-40da-b5fb-eb620bdab9ac , 1874/307132 , 1956/12279 , 11370/112745da-61a1-4938-bca0-e1ada5c91b89 , 11858/00-001M-0000-0023-E260-1 , 11858/00-001M-0000-0023-E728-0 , 11858/00-001M-0000-0027-AF50-4 , 11858/00-001M-0000-0027-7A92-4 , 11858/00-001M-0000-0027-7A94-F , 1983/7ea0a2ed-173e-47b4-8f03-ce38566ac3e2
doi: 10.5194/essdd-7-521-2014 , 10.5445/ir/110103975 , 10.3929/ethz-b-000108127 , 10.5194/essd-7-47-2015 , 10.7892/boris.70708
handle: 20.500.11850/108127 , 1871.1/0def6242-391e-40da-b5fb-eb620bdab9ac , 1874/307132 , 1956/12279 , 11370/112745da-61a1-4938-bca0-e1ada5c91b89 , 11858/00-001M-0000-0023-E260-1 , 11858/00-001M-0000-0023-E728-0 , 11858/00-001M-0000-0027-AF50-4 , 11858/00-001M-0000-0027-7A92-4 , 11858/00-001M-0000-0027-7A94-F , 1983/7ea0a2ed-173e-47b4-8f03-ce38566ac3e2
Accurate assessment of anthropogenic carbon dioxide (CO2) emissions and their redistribution among the atmosphere, ocean, and terrestrial biosphere is important to better understand the global carbon cycle, support the development of climate policies, and project future climate change. Here we describe data sets and a methodology to quantify all major components of the global carbon budget, including their uncertainties, based on the combination of a range of data, algorithms, statistics, and model estimates and their interpretation by a broad scientific community. We discuss changes compared to previous estimates, consistency within and among components, alongside methodology and data limitations. CO2 emissions from fossil fuel combustion and cement production (EFF) are based on energy statistics and cement production data, respectively, while emissions from land-use change (ELUC), mainly deforestation, are based on combined evidence from land-cover-change data, fire activity associated with deforestation, and models. The global atmospheric CO2 concentration is measured directly and its rate of growth (GATM) is computed from the annual changes in concentration. The mean ocean CO2 sink (SOCEAN) is based on observations from the 1990s, while the annual anomalies and trends are estimated with ocean models. The variability in SOCEAN is evaluated with data products based on surveys of ocean CO2 measurements. The global residual terrestrial CO2 sink (SLAND) is estimated by the difference of the other terms of the global carbon budget and compared to results of independent dynamic global vegetation models forced by observed climate, CO2, and land-cover-change (some including nitrogen-carbon interactions). We compare the mean land and ocean fluxes and their variability to estimates from three atmospheric inverse methods for three broad latitude bands. All uncertainties are reported as ±1σ, reflecting the current capacity to characterise the annual estimates of each component of the global carbon budget. For the last decade available (2004-2013) EFF was 8.9 ± 0.4 GtC yr-1, ELUC 0.9 ± 0.5 GtC yr-1, GATM 4.3 ± 0.1 GtC yr-1, SOCEAN 2.6 ± 0.5 GtC yr-1, and SLAND 2.9 ± 0.8 GtC yr-1. For year 2013 alone, EFF grew to 9.9 ± 0.5 GtC yr-1, 2.3% above 2012, continuing the growth trend in these emissions, ELUC was 0.9 ± 0.5 GtC yr-1, GATM was 5.4 ± 0.2 GtC yr-1, SOCEAN was 2.9 ± 0.5 GtC yr-1, and SLAND was 2.5 ± 0.9 GtC yr-1. GATM was high in 2013, reflecting a steady increase in EFF and smaller and opposite changes between SOCEAN and SLAND compared to the past decade (2004-2013). The global atmospheric CO2 concentration reached 395.31 ± 0.10 ppm averaged over 2013. We estimate that EFF will increase by 2.5% (1.3-3.5%) to 10.1 ± 0.6 GtC in 2014 (37.0 ± 2.2 GtCO2 yr-1), 65% above emissions in 1990, based on projections of world gross domestic product and recent changes in the carbon intensity of the global economy. From this projection of EFF and assumed constant ELUC for 2014, cumulative emissions of CO2 will reach about 545 ± 55 GtC (2000 ± 200 GtCO2) for 1870-2014, about 75% from EFF and 25% from ELUC. This paper documents changes in the methods and data sets used in this new carbon budget compared with previous publications of this living data set (Le Quéré et al. 2013, 2014). All observations presented here can be downloaded from the Carbon Dioxide Information Analysis Center (doi:10.3334/CDIAC/GCP-2014). info:eu-repo/semantics/published SCOPUS: ar.j 0
NARCIS arrow_drop_down University of East Anglia digital repositoryArticle . 2015 . Peer-reviewedData sources: University of East Anglia digital repositoryNARCIS; Research@WUROther literature type . Article . 2015License: CC BYFull-Text: https://edepot.wur.nl/345354Earth System Science Data (ESSD); Earth System Science DataOther literature type . Article . 2015 . Peer-reviewedLicense: CC BYEarth System Science Data DiscussionsOther literature type . Article . Preprint . 2014License: CC BYBern Open Repository and Information System (BORIS)Article . 2015 . Peer-reviewedData sources: Bern Open Repository and Information System (BORIS)Electronic Publication Information CenterArticle . 2014Data sources: Electronic Publication Information CenterBergen Open Research Archive - UiBArticle . 2015 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBArchiMer - Institutional Archive of IfremerOther literature type . 2015Data sources: ArchiMer - Institutional Archive of IfremerElectronic Publication Information CenterArticle . 2015Data sources: Electronic Publication Information CenterMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2015License: CC BYFull-Text: https://hal.science/hal-01150560/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 625 citations 625 popularity Top 0.1% influence Top 1% impulse Top 0.01% Powered by BIP!more_vert NARCIS arrow_drop_down University of East Anglia digital repositoryArticle . 2015 . Peer-reviewedData sources: University of East Anglia digital repositoryNARCIS; Research@WUROther literature type . Article . 2015License: CC BYFull-Text: https://edepot.wur.nl/345354Earth System Science Data (ESSD); Earth System Science DataOther literature type . Article . 2015 . Peer-reviewedLicense: CC BYEarth System Science Data DiscussionsOther literature type . Article . Preprint . 2014License: CC BYBern Open Repository and Information System (BORIS)Article . 2015 . Peer-reviewedData sources: Bern Open Repository and Information System (BORIS)Electronic Publication Information CenterArticle . 2014Data sources: Electronic Publication Information CenterBergen Open Research Archive - UiBArticle . 2015 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBArchiMer - Institutional Archive of IfremerOther literature type . 2015Data sources: ArchiMer - Institutional Archive of IfremerElectronic Publication Information CenterArticle . 2015Data sources: Electronic Publication Information CenterMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2015License: CC BYFull-Text: https://hal.science/hal-01150560/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Preprint , Other literature type 2019 Germany, Spain, France, Italy, United Kingdom, United KingdomPublisher:Cold Spring Harbor Laboratory Authors: Drahomíra Faktorová; R. Ellen R. Nisbet; José A. Fernández Robledo; Elena Casacuberta; +109 AuthorsDrahomíra Faktorová; R. Ellen R. Nisbet; José A. Fernández Robledo; Elena Casacuberta; Lisa Sudek; Andrew E. Allen; Manuel Ares; Cristina Aresté; Cecilia Balestreri; Adrian C. Barbrook; Patrick Beardslee; Sara J. Bender; David S. Booth; François-Yves Bouget; Chris Bowler; Susana A. Breglia; Colin Brownlee; Gertraud Burger; Heriberto Cerutti; Rachele Cesaroni; Miguel Angel Chiurillo; Thomas E. Clemente; Duncan B. Coles; Jackie L. Collier; Elizabeth C. Cooney; Kathryn J. Coyne; Roberto Docampo; Christopher L. Dupont; Virginia P. Edgcomb; Elin Einarsson; Pia A. Elustondo; Fernán Federici; Verónica Freire-Benéitez; Nastasia J. Freyria; Kodai Fukuda; Paulo A. Garcia; Peter R. Girguis; Fatma Gomaa; Sebastian G. Gornik; Jian Guo; Vladimír Hampl; Yutaka Hanawa; Esteban R. Haro-Contreras; Elisabeth Hehenberger; Andrea Highfield; Yoshihisa Hirakawa; Amanda Hopes; Christopher J. Howe; Ian Hu; Jorge Ibañez; Nicholas A.T. Irwin; Yuu Ishii; Natalia Ewa Janowicz; Adam C. Jones; Ambar Kachale; Konomi Fujimura-Kamada; Binnypreet Kaur; Jonathan Z. Kaye; Eleanna Kazana; Patrick J. Keeling; Nicole King; Lawrence A. Klobutcher; Noelia Lander; Imen Lassadi; Zhu-Hong Li; Senjie Lin; Jean Claude Lozano; Fulei Luan; Shinichiro Maruyama; Tamara Matute; Cristina Miceli; Jun Minagawa; Mark Moosburner; Sebastián R. Najle; Deepak Nanjappa; Isabel C. Nimmo; Luke M. Noble; Anna M. G. Novák Vanclová; Mariusz Nowacki; Isaac Núñez; Arnab Pain; Angela Piersanti; Sandra Pucciarelli; Jan Pyrih; Joshua S. Rest; Mariana Rius; Deborah L. Robertson; Albane Ruaud; Iñaki Ruiz-Trillo; Monika Abedin Sigg; Pamela A. Silver; Claudio H. Slamovits; G. Jason Smith; Brittany N. Sprecher; Rowena Stern; Estienne C. Swart; Anastasios D. Tsaousis; Lev Tsypin; Aaron P. Turkewitz; Jernej Turnšek; Matus Valach; Valérie Vergé; Peter von Dassow; Tobias von der Haar; Ross F. Waller; Lu Wang; Xiaoxue Wen; Glen L. Wheeler; April Woods; Huan Zhang; Thomas Mock; Alexandra Z. Worden; Julius Lukeš;doi: 10.1101/718239 , 10.1038/s41592-020-0796-x , 10.17863/cam.73594 , 10.17863/cam.53013 , 10.17863/cam.66602
handle: 11581/428891 , 10261/236663
pmc: PMC7200600 , PMC7200595
doi: 10.1101/718239 , 10.1038/s41592-020-0796-x , 10.17863/cam.73594 , 10.17863/cam.53013 , 10.17863/cam.66602
handle: 11581/428891 , 10261/236663
pmc: PMC7200600 , PMC7200595
This collaborative effort was supported by the Gordon and Betty Moore Foundation EMS Program of the Marine Microbiology Initiative (grant nos. GBMF4972 and 4972.01 to F.-Y.B.; GBMF4970 and 4970.01 to M.A. and A.Z.W.; GBMF3788 to A.Z.W.; GBMF 4968 and 4968.01 to H.C.; GBMF4984 to V.H.; GBMF4974 and 4974.01 to C. Brownlee; GBMF4964 to Y. Hirakawa; GBMF4961 to T. Mock; GBMF4958 to P.S.; GBMF4957 to A.T.; GBMF4960 to G.J.S.; GBMF4979 to K.C.; GBMF4982 and 4982.01 to J.L.C.; GBMF4964 to P.J.K.; GBMF4981 to P.v.D.; GBMF5006 to A.E.A.; GBMF4986 to C.M.; GBMF4962 to J.A.F.R.; GBMF4980 and 4980.01 to S.L.; GBMF 4977 and 4977.01 to R.F.W.; GBMF4962.01 to C.H.S.; GBMF4985 to J.M.; GBMF4976 and 4976.01 to C.H.; GBMF4963 and 4963.01 to V.E.; GBMF5007 to C.L.D.; GBMF4983 and 4983.01 to J.L.; GBMF4975 and 4975.01 to A.D.T.; GBMF4973 and 4973.01 to I.R.-T. and GBMF4965 to N.K.), by The Leverhulme Trust (RPG-2017-364) to T. Mock and A. Hopes, and by ERD funds (16_019/0000759) from the Czech Ministry of Education to J.L. Diverse microbial ecosystems underpin life in the sea. Among these microbes are many unicellular eukaryotes that span the diversity of the eukaryotic tree of life. However, genetic tractability has been limited to a few species, which do not represent eukaryotic diversity or environmentally relevant taxa. Here, we report on the development of genetic tools in a range of protists primarily from marine environments. We present evidence for foreign DNA delivery and expression in 13 species never before transformed and for advancement of tools for eight other species, as well as potential reasons for why transformation of yet another 17 species tested was not achieved. Our resource in genetic manipulation will provide insights into the ancestral eukaryotic lifeforms, general eukaryote cell biology, protein diversification and the evolution of cellular pathways.
Europe PubMed Centra... arrow_drop_down Europe PubMed CentralArticle . 2020Full-Text: http://europepmc.org/articles/PMC7200595Data sources: PubMed CentralbioRxivPreprint . 2019University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryEurope PubMed CentralArticle . 2020 . Peer-reviewedFull-Text: http://europepmc.org/articles/PMC7200600Data sources: PubMed CentralRecolector de Ciencia Abierta, RECOLECTA; Nature MethodsArticle . 2020Mémoires en Sciences de l'Information et de la CommunicationArticle . 2020Full-Text: https://hal.science/hal-03018835/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen hybrid 97 citations 97 popularity Top 1% influence Top 10% impulse Top 1% Powered by BIP!visibility 46visibility views 46 download downloads 146 Powered bymore_vert Europe PubMed Centra... arrow_drop_down Europe PubMed CentralArticle . 2020Full-Text: http://europepmc.org/articles/PMC7200595Data sources: PubMed CentralbioRxivPreprint . 2019University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryEurope PubMed CentralArticle . 2020 . Peer-reviewedFull-Text: http://europepmc.org/articles/PMC7200600Data sources: PubMed CentralRecolector de Ciencia Abierta, RECOLECTA; Nature MethodsArticle . 2020Mémoires en Sciences de l'Information et de la CommunicationArticle . 2020Full-Text: https://hal.science/hal-03018835/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2012 Germany, France, Netherlands, France, GermanyPublisher:Copernicus GmbH Funded by:EC | EMIS, EC | PAST4FUTUREEC| EMIS ,EC| PAST4FUTURED. J. Lunt; A. Abe-Ouchi; P. Bakker; A. Berger; P. Braconnot; S. Charbit; N. Fischer; N. Herold; J. H. Jungclaus; V. C. Khon; U. Krebs-Kanzow; P. M. Langebroek; G. Lohmann; K. H. Nisancioglu; B. L. Otto-Bliesner; W. Park; M. Pfeiffer; S. J. Phipps; M. Prange; R. Rachmayani; H. Renssen; N. Rosenbloom; B. Schneider; E. J. Stone; K. Takahashi; W. Wei; Q. Yin; Z. S. Zhang;Abstract. The Last Interglaciation (∼130 to 116 ka) is a time period with a strong astronomically-induced seasonal forcing of insolation compared to modern. Proxy records indicate a significantly different climate to that of the modern, in particular Arctic summer warming and higher eustatic sea level. Because the forcings are relatively well constrained, it provides an opportunity to test numerical models which are used for future climate prediction. In this paper, we compile a set of climate model simulations of the early Last Interglaciation (130 to 125 ka), encompassing a range of model complexity. We compare the models to each other, and to a recently published compilation of Last Interglacial temperature estimates. We show that the annual mean response of the models is rather small, with no clear signal in many regions. However, the seasonal response is more robust, and there is significant agreement amongst models as to the regions of warming vs. cooling. However, the quantitative agreement of the models with data is poor, with the models in general underestimating the magnitude of response seen in the proxies. Taking possible seasonal biases in the proxies into account improves the agreement marginally, but the agreement is still far from perfect. However, a lack of uncertainty estimates in the data does not allow us to draw firm conclusions. Instead, this paper points to several ways in which both modelling and data could be improved, to allow a more robust model-data comparison.
OceanRep arrow_drop_down Electronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information Centeradd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 127 citations 127 popularity Top 10% influence Top 10% impulse Top 1% Powered by BIP!more_vert OceanRep arrow_drop_down Electronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information Centeradd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2020 Germany, France, United Kingdom, France, FrancePublisher:Frontiers Media SA Funded by:UKRI | REMineralisation of organ..., ANR | TAD, EC | iAtlanticUKRI| REMineralisation of organic carbon by marine bActerIoplanktoN (REMAIN) - reducing the known unknown ,ANR| TAD ,EC| iAtlanticRainer Kiko; Daniele Bianchi; Christian Grenz; Helena Hauss; Morten Iversen; Morten Iversen; Sanjeev Kumar; Amy Maas; Carol Robinson;International audience; Editorial on the Research Topic Zooplankton and Nekton: Gatekeepers of the Biological Pump Zooplankton and nekton organisms create and destroy particles in manifold ways. They feed on the diverse components of the plankton community and on detrital matter. They disaggregate these components, but also repackage them into fecal pellets. Zooplankton and nekton thereby contributes to the attenuation, but also to the export of vertically settling particles. Many zooplankton and nekton organisms also ascend to the surface layer of the ocean at dusk to feed during the dark hours, and return to midwater at the break of dawn. This diurnal vertical migration (DVM) shuttles organic matter from the surface ocean to deeper layers, where it is metabolized and excreted. This active flux (as opposed to the passive flux of sinking particles) can contribute substantially to the biological pump, the downward export of carbon and nutrients into the oceans interior. Due to their multiple roles in oceanic particle dynamics, zooplankton and nekton organisms can actually be considered the gatekeepers of the biological pump. Several articles in this Research Topic deal with the contribution of zooplankton and nekton-mediated active flux to the total export of organic matter. Using biomass and enzyme transport system (ETS) assessments of respiratory flux for both mesozooplankton and micronekton communities, Hernández-León et al. estimated the total active transport of carbon (respiration, excretion, mortality, and egestion) along a transect in the Atlantic from the Canary Islands to Brazil. They found that active flux by these communities ranged from 25 to 80% of the total particulate organic carbon export at 150 m depth and that the importance of active flux increased with increasing surface productivity. Kwong et al. compared biomass, diel vertical migration, and active flux of mesozooplankton and micronekton across a range of mesoscale eddy structures along the east-coast of Australia during winter and spring. They found that although all eddy regimes had similar integrated biomass of mesozooplakton and micronekton, the organisms in the individual eddies had different migratory behavior, which resulted in contrasting importance of active flux. Kiko et al. assessed the impact of mesozooplankton DVM on elemental cycling at three stations in the Eastern Tropical North Atlantic. They found that approximately 31 to 41% of the total nitrogen loss from the upper 200 m of the water column was attributable to DVM mediated fluxes. They also suggest that gut flux-the flux created by migrators when they evacuate their gut at DVM-depth-and migrator mortality at DVM-depth contribute to an Intermediate Particle Maximum. In their study conducted in the Peruvian upwelling system (which features a severe midwater oxygen minimum zone), Kiko and Hauss concluded that the metabolic suppression
University of East A... arrow_drop_down University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-IRDArticle . 2020License: CC BYHAL AMU; Mémoires en Sciences de l'Information et de la Communication; HAL-IRD; Hal-DiderotArticle . 2020License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 5 citations 5 popularity Top 10% influence Average impulse Average Powered by BIP!visibility 15visibility views 15 download downloads 29 Powered bymore_vert University of East A... arrow_drop_down University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-IRDArticle . 2020License: CC BYHAL AMU; Mémoires en Sciences de l'Information et de la Communication; HAL-IRD; Hal-DiderotArticle . 2020License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2018 United Kingdom, France, Netherlands, Germany, DenmarkPublisher:Frontiers Media SA Funded by:NSF | CNH: Enhancing Resilience..., NSF | Collaborative Research: E..., EC | GREEN-WINNSF| CNH: Enhancing Resilience of Coastal Ecosystems and Human Communities to Oceanographic Variability: Social and Ecological Feedbacks ,NSF| Collaborative Research: Evaluating how abalone populations in the California Current are structured by the interplay of large-scale oceanographic forcing and nearshore variability ,EC| GREEN-WINAuthors: Jean-Pierre Gattuso; Jean-Pierre Gattuso; Jean-Pierre Gattuso; Alexandre K. Magnan; +21 AuthorsJean-Pierre Gattuso; Jean-Pierre Gattuso; Jean-Pierre Gattuso; Alexandre K. Magnan; Alexandre K. Magnan; Laurent Bopp; Laurent Bopp; William W. L. Cheung; Carlos M. Duarte; Carlos M. Duarte; Jochen Hinkel; Jochen Hinkel; Elizabeth Mcleod; Fiorenza Micheli; Andreas Oschlies; Phillip Williamson; Phillip Williamson; Raphaël Billé; Vasiliki I. Chalastani; Vasiliki I. Chalastani; Ruth D. Gates; Jean-Olivier Irisson; Jack J. Middelburg; Hans-Otto Pörtner; Greg H. Rau;handle: 1874/373673
International audience; The Paris Agreement target of limiting global surface warming to 1.5–2∘C compared to pre-industrial levels by 2100 will still heavily impact the ocean. While ambitious mitigation and adaptation are both needed, the ocean provides major opportunities for action to reduce climate change globally and its impacts on vital ecosystems and ecosystem services. A comprehensive and systematic assessment of 13 global- and local-scale, ocean-based measures was performed to help steer the development and implementation of technologies and actions toward a sustainable outcome. We show that (1) all measures have tradeoffs and multiple criteria must be used for a comprehensive assessment of their potential, (2) greatest benefit is derived by combining global and local solutions, some of which could be implemented or scaled-up immediately, (3) some measures are too uncertain to be recommended yet, (4) political consistency must be achieved through effective cross-scale governance mechanisms, (5) scientific effort must focus on effectiveness, co-benefits, disbenefits, and costs of poorly tested as well as new and emerging measures.
Frontiers in Marine ... arrow_drop_down Frontiers in Marine Science; PURE Aarhus UniversityOther literature type . Article . 2018 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 214 citations 214 popularity Top 0.1% influence Top 10% impulse Top 0.1% Powered by BIP!visibility 5visibility views 5 download downloads 35 Powered bymore_vert Frontiers in Marine ... arrow_drop_down Frontiers in Marine Science; PURE Aarhus UniversityOther literature type . Article . 2018 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2021 France, Netherlands, France, Denmark, GermanyPublisher:American Geophysical Union (AGU) Funded by:ARC | ARC Future Fellowships - ...ARC| ARC Future Fellowships - Grant ID: FT180100606F. Lhardy; Nathaelle Bouttes; Didier M. Roche; Ayako Abe-Ouchi; Zanna Chase; Katherine Crichton; Tatiana Ilyina; Ruza F. Ivanovic; Markus Jochum; Masa Kageyama; Hidetaka Kobayashi; B. Liu; Laurie Menviel; Juan Muglia; Roman Nuterman; Akira Oka; G. Vettoretti; Akitomo Yamamoto;AbstractModel intercomparison studies of coupled carbon‐climate simulations have the potential to improve our understanding of the processes explaining the drawdown at the Last Glacial Maximum (LGM) and to identify related model biases. Models participating in the Paleoclimate Modeling Intercomparison Project (PMIP) now frequently include the carbon cycle. The ongoing PMIP‐carbon project provides the first opportunity to conduct multimodel comparisons of simulated carbon content for the LGM time window. However, such a study remains challenging due to differing implementation of ocean boundary conditions (e.g., bathymetry and coastlines reflecting the low sea level) and to various associated adjustments of biogeochemical variables (i.e., alkalinity, nutrients, dissolved inorganic carbon). After assessing the ocean volume of PMIP models at the pre‐industrial and LGM, we investigate the impact of these modeling choices on the simulated carbon at the global scale, using both PMIP‐carbon model outputs and sensitivity tests with the iLOVECLIM model. We show that the carbon distribution in reservoirs is significantly affected by the choice of ocean boundary conditions in iLOVECLIM. In particular, our simulations demonstrate a GtC effect of an alkalinity adjustment on carbon sequestration in the ocean. Finally, we observe that PMIP‐carbon models with a freely evolving and no additional glacial mechanisms do not simulate the drawdown at the LGM (with concentrations as high as 313, 331, and 315 ppm), especially if they use a low ocean volume. Our findings suggest that great care should be taken on accounting for large bathymetry changes in models including the carbon cycle.
OceanRep; Paleoceano... arrow_drop_down OceanRep; Paleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedCopenhagen University Research Information SystemArticle . 2021Data sources: Copenhagen University Research Information SystemPaleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen bronze 0 citations 0 popularity Average influence Average impulse Average Powered by BIP!visibility 19visibility views 19 download downloads 16 Powered bymore_vert OceanRep; Paleoceano... arrow_drop_down OceanRep; Paleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedCopenhagen University Research Information SystemArticle . 2021Data sources: Copenhagen University Research Information SystemPaleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2012 Norway, United Kingdom, Norway, France, Germany, Spain, Germany, United KingdomPublisher:Copernicus GmbH Funded by:NSF | Support for the Intergove..., NSF | Support for International..., EC | CARBOCHANGENSF| Support for the Intergovernmental Oceanographic Commission of UNESCO ,NSF| Support for International Research Projects and Working Groups Through SCOR ,EC| CARBOCHANGEChristopher L. Sabine; S. Hankin; H. Koyuk; Dorothee C. E. Bakker; Benjamin Pfeil; Are Olsen; Nicolas Metzl; Alexander Kozyr; Andrea J. Fassbender; Ansley Manke; Jeremy Malczyk; J. Akl; Simone R. Alin; Richard G. J. Bellerby; Alberto Borges; Jacqueline Boutin; Peter J. Brown; Wei-Jun Cai; Francisco P. Chavez; A. Chen; C. Cosca; Richard A. Feely; Melchor González-Dávila; Catherine Goyet; Nick J. Hardman-Mountford; Christoph Heinze; Mario Hoppema; Christopher W. Hunt; David J. Hydes; Masao Ishii; Truls Johannessen; Robert M. Key; Arne Körtzinger; Peter Landschützer; Siv K. Lauvset; Nathalie Lefèvre; Andrew Lenton; A. Lourantou; Liliane Merlivat; Takashi Midorikawa; Ludger Mintrop; C. Miyazaki; Aki Murata; A. Nakadate; Y. Nakano; S. Nakaoka; Yukihiro Nojiri; Abdirahman M Omar; X. A. Padín; G.-H. Park; K. Paterson; Fiz F. Pérez; Denis Pierrot; Alain Poisson; Aida F. Ríos; Joe Salisbury; Juana Magdalena Santana-Casiano; V. V. S. S. Sarma; Reiner Schlitzer; Birgit Schneider; Ute Schuster; Rainer Sieger; Ingunn Skjelvan; Tobias Steinhoff; T. Suzuki; Taro Takahashi; K. Tedesco; Maciej Telszewski; Helmuth Thomas; Bronte Tilbrook; Douglas Vandemark; T. Veness; Andrew J. Watson; Ray F. Weiss; C.S. Wong; Hisayuki Yoshikawa-Inoue;handle: 1956/12474 , 10261/91799 , 10553/49798
SOCAT is promoted by IOCCP, the Sur- face Ocean Lower Atmosphere Study, and the Integrated Marine Biogeochemistry and Ecosystem Research program. Douglas Wallace (Dalhousie University, Canada and former SOLAS chair) has strongly encouraged SOCAT. Support has been received from the University of Bergen (Norway), the Bjerknes Centre for Cli- mate Research (Norway), the National Oceanic and Atmospheric Administration (United States), the University of Washington (United States), Oak Ridge National Laboratory (United States), the University of East Anglia (United Kingdom), PANGAEA – Data Publisher for Earth & Environmental data (Germany), the Alfred Wegener Institute for Polar and Marine Research (Ger- many), the Centre National de la Recherche Scientifique (France), the CarboOcean (Norway, GOCE 511176-1) and CarboChange (Norway, FP7 264879) projects of the European Union, the US National Science Foundation (United States, OCE-1068958), the international Scientific Committee on Oceanic Research (SCOR, United States, OCE-0938349), and the UK Ocean Acidification Research Programme (NE / H017046 / 1; funded by the Natural Environment Research Council, the Department for Energy and Climate Change and the Department for Environment, Food and Rural A ff airs). Support for SOCAT meetings has been received from IOCCP, IMBER, the European Cooperation in Science and Technology (COST) Action 735 (United Kingdom), Geomar (Germany), the National Institute for Environmental Studies (Japan), and the Commonwealth Scientific and Industrial Research Organisation (Australia). As a response to public demand for a well-documented, quality controlled, publically available, global surface ocean carbon dioxide (CO2) data set, the international marine carbon science community developed the Surface Ocean CO2 Atlas (SOCAT). The first SOCAT product is a collection of 6.3 million quality controlled surface CO2 data from the global oceans and coastal seas, spanning four decades (1968–2007). The SOCAT gridded data presented here is the second data product to come from the SOCAT project. Recognizing that some groups may have trouble working with millions of measurements, the SOCAT gridded product was generated to provide a robust, regularly spaced CO2 fugacity (fCO2) product with minimal spatial and temporal interpolation, which should be easier to work with for many applications. Gridded SOCAT is rich with information that has not been fully explored yet (e.g., regional differences in the seasonal cycles), but also contains biases and limitations that the user needs to recognize and address (e.g., local influences on values in some coastal regions). Sabine, C. L. et al. Peer reviewed
NERC Open Research A... arrow_drop_down University of East Anglia digital repositoryArticle . 2013 . Peer-reviewedData sources: University of East Anglia digital repositoryElectronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information CenterBrage IMR; Norwegian Open Research ArchivesArticle . 2013Recolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2013 . 2014 . Peer-reviewedEarth System Science Data (ESSD)Other literature type . Article . 2013 . Peer-reviewedLicense: CC BYElectronic Publication Information CenterArticle . 2012Data sources: Electronic Publication Information CenterArchiMer - Institutional Archive of IfremerOther literature type . 2013Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2013 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBEarth System Science Data DiscussionsArticle . Preprint . 2012 . Peer-reviewedLicense: CC BYData sources: CrossrefMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2013License: CC BYFull-Text: https://hal.science/hal-00756523/documentRecolector de Ciencia Abierta, RECOLECTAArticle . 2018Data sources: Recolector de Ciencia Abierta, RECOLECTAadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 104 citations 104 popularity Top 1% influence Top 10% impulse Top 1% Powered by BIP!visibility 20visibility views 20 download downloads 66 Powered bymore_vert NERC Open Research A... arrow_drop_down University of East Anglia digital repositoryArticle . 2013 . Peer-reviewedData sources: University of East Anglia digital repositoryElectronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information CenterBrage IMR; Norwegian Open Research ArchivesArticle . 2013Recolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2013 . 2014 . Peer-reviewedEarth System Science Data (ESSD)Other literature type . Article . 2013 . Peer-reviewedLicense: CC BYElectronic Publication Information CenterArticle . 2012Data sources: Electronic Publication Information CenterArchiMer - Institutional Archive of IfremerOther literature type . 2013Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2013 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBEarth System Science Data DiscussionsArticle . Preprint . 2012 . Peer-reviewedLicense: CC BYData sources: CrossrefMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2013License: CC BYFull-Text: https://hal.science/hal-00756523/documentRecolector de Ciencia Abierta, RECOLECTAArticle . 2018Data sources: Recolector de Ciencia Abierta, RECOLECTAadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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description Publicationkeyboard_double_arrow_right Other literature type , Article 2013 France, France, France, United StatesPublisher:Springer Science and Business Media LLC Funded by:EC | MINOSEC| MINOSMoore, C.; Mills, M.; Arrigo, K.; Berman-Frank, I.; Bopp, L.; Boyd, P.; Galbraith, E.; Geider, R.; Guieu, C.; Jaccard, S.; Jickells, T.; La Roche, J.; Lenton, T.; Mahowald, N.; Marañón, E.; Marinov, I.; Moore, J.; Nakatsuka, T.; Oschlies, A.; Saito, M.; Thingstad, T.; Tsuda, A.; Ulloa, O.;Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry. © 2013 Macmillan Publishers Limited. All rights reserved.
Oskar Bordeaux arrow_drop_down eScholarship - University of CaliforniaArticle . 2013Data sources: eScholarship - University of Californiahttps://doi.org/10.1038/NGEO17...Article . Peer-reviewedData sources: European Union Open Data Portaladd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesbronze 1K citations 1,448 popularity Top 0.01% influence Top 1% impulse Top 0.1% Powered by BIP!more_vert Oskar Bordeaux arrow_drop_down eScholarship - University of CaliforniaArticle . 2013Data sources: eScholarship - University of Californiahttps://doi.org/10.1038/NGEO17...Article . Peer-reviewedData sources: European Union Open Data Portaladd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2018 United Kingdom, Netherlands, Spain, Germany, Netherlands, Spain, United Kingdom, Portugal, France, United States, Switzerland, United Kingdom, Germany, United Kingdom, Netherlands, United Kingdom, Spain, Netherlands, United KingdomPublisher:Elsevier BV Publicly fundedFunded by:NSF | Support for International..., NSF | Support for International..., NSF | Support for International... +3 projectsNSF| Support for International Ocean Science Activities Through the Scientific Committee on Oceanic Research ,NSF| Support for International Ocean Science Activities Through the Scientific Committee on Oceanic Research ,NSF| Support for International Research Projects and Working Groups Through SCOR ,NWO| Feasibility of commercial application of negative stiffness bar balancers ,NSF| Support for International Research Projects and Working Groups Through SCOR ,UKRI| RootDetect: Remote Detection and Precision Management of Root HealthReiner Schlitzer; Robert F. Anderson; Elena Masferrer Dodas; Maeve C. Lohan; Walter Geibert; Andrew R. Bowie; William M. Landing; Cyril Abadie; Eric P. Achterberg; Ana Aguliar-Islas; Morten B. Andersen; Corey Archer; Oliver Baars; Alex R. Baker; Karel Bakker; Chandranath Basak; Mark Baskaran; Pieter van Beek; Melanie K. Behrens; Erin E. Black; Laurent Bopp; Heather A. Bouman; Philip W. Boyd; Marie Boye; Edward A. Boyle; Pierre Branellec; Luke Bridgestock; Guillaume Brissebrat; Thomas J. Browning; Hans-Jürgen Brumsack; Clifton S. Buck; Kristen N. Buck; Ken O. Buesseler; Edward C.V. Butler; Pinghe Cai; Patricia Cámara Mor; Damien Cardinal; Gonzalo Carrasco; Núria Casacuberta; Karen L. Casciotti; Maxi Castrillejo; Elena Chamizo; Rosie Chance; Joaquin E. Chaves; Hai Cheng; Marcus Christl; Thomas M. Church; Ivia Closset; Albert S. Colman; Tim M. Conway; Daniel Cossa; Peter Croot; Jay T. Cullen; Feifei Deng; Gabriel Dulaquais; Yolanda Echegoyen-Sanz; R. Lawrence Edwards; Michael J. Ellwood; Jessica N. Fitzsimmons; A. Russell Flegal; Martin Q. Fleisher; Tina van de Flierdt; Martin Frank; Jana Friedrich; François Fripiat; Stephen J.G. Galer; Toshitaka Gamo; Raja S. Ganeshram; Jordi Garcia-Orellana; Ejin George; Loes J. A. Gerringa; Melissa Gilbert; José Marcus Godoy; Steven L. Goldstein; Santiago R. Gonzalez; Karen Grissom; Chad R. Hammerschmidt; Alison E. Hartman; Christel S. Hassler; Ed C Hathorne; Mariko Hatta; Nicholas J. Hawco; Lars-Eric Heimbürger; Josh Helgoe; Maija Heller; Gideon M. Henderson; Paul B. Henderson; Steven van Heuven; Peng Ho; Tristan J. Horner; Yu-Te Hsieh; Kuo-Fang Huang; David J. Janssen; William J. Jenkins; Seth G. John; Elizabeth M. Jones; David Kadko; Rick Kayser; Timothy C. Kenna; Lauren Kipp; J. K. Klar; Sven Kretschmer; Yuichiro Kumamoto; Patrick Laan; François Lacan; Phoebe J. Lam; Myriam Lambelet; Frédéric A. C. Le Moigne; Emilie Le Roy; Oliver J. Lechtenfeld; Jong-Mi Lee; Pascale Lherminier; Susan H. Little; Mercedes López-Lora; Yanbin Lu; Pere Masqué; Edward Mawji; Charles R. McClain; Sanjin Mehic; Pier van der Merwe; Rob Middag; Sebastian Mieruch; Angela Milne; Tomoharu Minami; James W. Moffett; Gwenaelle Moncoiffe; Willard S. Moore; Peter L. Morton; Yuzuru Nakaguchi; Noriko Nakayama; John Niedermiller; Jun Nishioka; Akira Nishiuchi; Hajime Obata; Jan van Ooijen; Stephanie Owens; Katharina Pahnke; Maxence Paul; Leopoldo D. Pena; Brian Peters; Frédéric Planchon; Hélène Planquette; Viena Puigcorbé; Paul D. Quay; Fabien Quéroué; Amandine Radic; Mark Rehkämper; Robert Rember; Joseph A. Resing; Joerg Rickli; Sylvain Rigaud; Stephen R. Rintoul; Laura F. Robinson; Montserrat Roca-Martí; Valentí Rodellas; Tobias Roeske; John M. Rolison; Mark Rosenberg; Saeed Roshan; Michiel M Rutgers van der Loeff; Evgenia Ryabenko; Lesley Salt; Virginie Sanial; Géraldine Sarthou; Christina Schallenberg; Ursula Schauer; Howie D. Scher; Christian Schlosser; Bernhard Schnetger; Peter Scott; Peter N. Sedwick; Igor Semiletov; Robert M. Sherrell; Alan M. Shiller; Daniel M. Sigman; Sunil K. Singh; Hans A. Slagter; Emma Slater; Helen M. Snaith; Yoshiki Sohrin; Jeroen E. Sonke; Sabrina Speich; Reiner Steinfeldt; Gillian Stewart; Torben Stichel; Claudine H. Stirling; James H. Swift; Alexander L. Thomas; Claire P. Till; Emily Townsend; Robyn E. Tuerena; Benjamin S. Twining; Derek Vance; Celia Venchiarutti; María Villa-Alfageme; Sebastian M. Vivancos; Bronwyn Wake; Ros Watson; Evaline M. van Weerlee; Yishai Weinstein; Dominik J. Weiss; Andreas Wisotzki; E. Malcolm S. Woodward; Yingzhe Wu; Kathrin Wuttig; Neil J. Wyatt; Yang Xiang; Zichen Xue; Hisayuki Yoshikawa; Jing Zhang; Ye Zhao; Linjie Zheng; Xin Yuan Zheng; Patrizia Ziveri; Patricia Zunino;The GEOTRACES Intermediate Data Product 2017 (IDP2017) is the second publicly available data product of the international GEOTRACES programme, and contains data measured and quality controlled before the end of 2016. The IDP2017 includes data from the Atlantic, Pacific, Arctic, Southern and Indian oceans, with about twice the data volume of the previous IDP2014. For the first time, the IDP2017 contains data for a large suite of biogeochemical parameters as well as aerosol and rain data characterising atmospheric trace element and isotope (TEI) sources. The TEI data in the IDP2017 are quality controlled by careful assessment of intercalibration results and multi-laboratory data comparisons at crossover stations. The IDP2017 consists of two parts: (1) a compilation of digital data for more than 450 TEIs as well as standard hydrographic parameters, and (2) the eGEOTRACES Electronic Atlas providing an on-line atlas that includes more than 590 section plots and 130 animated 3D scenes. The digital data are provided in several formats, including ASCII, Excel spreadsheet, netCDF, and Ocean Data View collection. Users can download the full data packages or make their own custom selections with a new on-line data extraction service. In addition to the actual data values, the IDP2017 also contains data quality flags and 1-σ data error values where available. Quality flags and error values are useful for data filtering and for statistical analysis. Metadata about data originators, analytical methods and original publications related to the data are linked in an easily accessible way. The eGEOTRACES Electronic Atlas is the visual representation of the IDP2017 as section plots and rotating 3D scenes. The basin-wide 3D scenes combine data from many cruises and provide quick overviews of large-scale tracer distributions. These 3D scenes provide geographical and bathymetric context that is crucial for the interpretation and assessment of tracer plumes near ocean margins or along ridges. The IDP2017 is the result of a truly international effort involving 326 researchers from 25 countries. This publication provides the critical reference for unpublished data, as well as for studies that make use of a large cross-section of data from the IDP2017. This article is part of a special issue entitled: Conway GEOTRACES - edited by Tim M. Conway, Tristan Horner, Yves Plancherel, and Aridane G. González. National Science Foundation (U.S.) (Grant OCE-1243377) National Science Foundation (U.S.) (Grant OCE-1546580) National Science Foundation (U.S.) (Grant OCE-0608600) National Science Foundation (U.S.) (Grant OCE0938349)
CORE (RIOXX-UK Aggre... arrow_drop_down CORE (RIOXX-UK Aggregator)Article . 2018License: CC BY NC NDData sources: CORE (RIOXX-UK Aggregator)Chemical GeologyArticle . 2018Full-Text: http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/233927/1/j.chemgeo.2018.05.040.pdfData sources: JAIRONARCIS; Chemical GeologyArticle . 2018University of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryRecolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2018 . 2019 . Peer-reviewedSpiral - Imperial College Digital RepositoryArticle . 2018Data sources: Spiral - Imperial College Digital RepositoryElectronic Publication Information CenterArticle . 2018Data sources: Electronic Publication Information CenterRecolector de Ciencia Abierta, RECOLECTA; Diposit Digital de la Universitat de BarcelonaArticle . 2018License: CC BYOxford University Research ArchiveOther literature type . 2018License: CC BYData sources: Oxford University Research ArchiveArchiMer - Institutional Archive of IfremerOther literature type . 2018Data sources: ArchiMer - Institutional Archive of IfremerRecolector de Ciencia Abierta, RECOLECTA; Dipòsit Digital de Documents de la UABArticle . 2018License: CC BYMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-CEA; HAL-IRDArticle . 2018License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen hybrid 250 citations 250 popularity Top 1% influence Top 10% impulse Top 0.1% Powered by BIP!visibility 288visibility views 288 download downloads 749 Powered bymore_vert CORE (RIOXX-UK Aggre... arrow_drop_down CORE (RIOXX-UK Aggregator)Article . 2018License: CC BY NC NDData sources: CORE (RIOXX-UK Aggregator)Chemical GeologyArticle . 2018Full-Text: http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/233927/1/j.chemgeo.2018.05.040.pdfData sources: JAIRONARCIS; Chemical GeologyArticle . 2018University of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryRecolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2018 . 2019 . Peer-reviewedSpiral - Imperial College Digital RepositoryArticle . 2018Data sources: Spiral - Imperial College Digital RepositoryElectronic Publication Information CenterArticle . 2018Data sources: Electronic Publication Information CenterRecolector de Ciencia Abierta, RECOLECTA; Diposit Digital de la Universitat de BarcelonaArticle . 2018License: CC BYOxford University Research ArchiveOther literature type . 2018License: CC BYData sources: Oxford University Research ArchiveArchiMer - Institutional Archive of IfremerOther literature type . 2018Data sources: ArchiMer - Institutional Archive of IfremerRecolector de Ciencia Abierta, RECOLECTA; Dipòsit Digital de Documents de la UABArticle . 2018License: CC BYMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-CEA; HAL-IRDArticle . 2018License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2019 United Kingdom, France, France, Norway, Spain, Norway, United Kingdom, France, Denmark, France, Germany, United KingdomPublisher:Frontiers Media SA Funded by:NSF | Southern Ocean Carbon and..., EC | REMOCEAN, EC | AtlantOS +1 projectsNSF| Southern Ocean Carbon and Climate Observations and Modeling (SOCCOM) ,EC| REMOCEAN ,EC| AtlantOS ,EC| RINGORoemmich, Dean; Alford, Matthew; Claustre, Hervé; Johnson, Kenneth; King, Brian; Moum, James; Oke, Peter,; Owens, W. Brechner; Pouliquen, Sylvie; Purkey, Sarah; Scanderbeg, Megan; Suga, Toshio; Wijffels, Susan; Zilberman, Nathalie; Bakker, Dorothée; Baringer, Molly; Belbeoch, Mathieu; Bittig, Henry; Boss, Emmanuel; Calil, Paulo; Carse, Fiona; Carval, Thierry; Chai, Fei; Conchubhair, Diarmuid Ó.; D'Ortenzio, Fabrizio; Dall’Olmo, Giorgio; Desbruyères, Damien; Fennel, Katja; Fer, Ilker; Ferrari, Raffaele; Forget, Gael; Freeland, Howard; Fujiki, Tetsuichi; Gehlen, Marion; Greenan, Blair; Hallberg, Robert; Hibiya, Toshiyuki; Hosoda, Shigeki; Jayne, Steven; Jochum, Markus; Johnson, Gregory; Kang, KiRyong; Kolodziejczyk, Nicolas,; Körtzinger, Arne; Traon, Pierre-Yves Le; Lenn, Yueng-Djern; Maze, Guillaume; Mork, Kjell Arne; Morris, Tamaryn; Nagai, Takeyoshi; Nash, Jonathan; Garabato, Alberto Naveira; Olsen, Are; Pattabhi, Rama Rao; Prakash, Satya; Riser, Stephen; Schmechtig, Catherine; Schmid, Claudia; Shroyer, Emily; Sterl, Andreas; Sutton, Philip; Talley, Lynne; Tanhua, Toste; Thierry, Virginie; Thomalla, Sandy; Toole, John; Troisi, Ariel; Trull, Thomas; Turton, Jon; Velez-Belchi, Pedro Joaquin; Walczowski, Waldemar; Wang, Haili; Wanninkhof, Rik; Waterhouse, Amy,; Waterman, Stephanie; Watson, Andrew,; Wilson, Cara; Wong, Annie; Xu, Jianping; Yasuda, Ichiro;handle: 1956/22064 , 10508/14810 , 10261/311867 , 1956/21416
The Argo Program has been implemented and sustained for almost two decades, as a global array of about 4000 profiling floats. Argo provides continuous observations of ocean temperature and salinity versus pressure, from the sea surface to 2000 dbar. The successful installation of the Argo array and its innovative data management system arose opportunistically from the combination of great scientific need and technological innovation. Through the data system, Argo provides fundamental physical observations with broad societally-valuable applications, built on the cost-efficient and robust technologies of autonomous profiling floats. Following recent advances in platform and sensor technologies, even greater opportunity exists now than 20 years ago to (i) improve Argo’s global coverage and value beyond the original design, (ii) extend Argo to span the full ocean depth, (iii) add biogeochemical sensors for improved understanding of oceanic cycles of carbon, nutrients, and ecosystems, and (iv) consider experimental sensors that might be included in the future, for example to document the spatial and temporal patterns of ocean mixing. For Core Argo and each of these enhancements, the past, present, and future progression along a path from experimental deployments to regional pilot arrays to global implementation is described. The objective is to create a fully global, top-to-bottom, dynamically complete, and multidisciplinary Argo Program that will integrate seamlessly with satellite and with other in situ elements of the Global Ocean Observing System (Legler et al., 2015). The integrated system will deliver operational reanalysis and forecasting capability, and assessment of the state and variability of the climate system with respect to physical, biogeochemical, and ecosystems parameters. It will enable basic research of unprecedented breadth and magnitude, and a wealth of ocean-education and outreach opportunities. Sí
e-Prints Soton arrow_drop_down Frontiers in Marine Science; NERC Open Research ArchiveOther literature type . Article . 2019 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2019 . Peer-reviewedData sources: University of East Anglia digital repositoryCopenhagen University Research Information SystemArticle . 2019Data sources: Copenhagen University Research Information SystemBrage IMR; Norwegian Open Research ArchivesArticle . 2019ArchiMer - Institutional Archive of IfremerOther literature type . 2019Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 215 citations 215 popularity Top 0.1% influence Top 1% impulse Top 0.1% Powered by BIP!visibility 30visibility views 30 download downloads 50 Powered bymore_vert e-Prints Soton arrow_drop_down Frontiers in Marine Science; NERC Open Research ArchiveOther literature type . Article . 2019 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2019 . Peer-reviewedData sources: University of East Anglia digital repositoryCopenhagen University Research Information SystemArticle . 2019Data sources: Copenhagen University Research Information SystemBrage IMR; Norwegian Open Research ArchivesArticle . 2019ArchiMer - Institutional Archive of IfremerOther literature type . 2019Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBBergen Open Research Archive - UiBArticle . 2019 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fmars.2019.00439&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2014 Germany, Germany, United Kingdom, United Kingdom, Germany, France, France, Belgium, France, Switzerland, Netherlands, Norway, Switzerland, France, FrancePublisher:Copernicus GmbH Funded by:NSF | Collaborative Research: I..., EC | EMBRACE, EC | LUC4C +7 projectsNSF| Collaborative Research: Improved Regional and Decadal Predictions of the Carbon Cycle ,EC| EMBRACE ,EC| LUC4C ,EC| MACC II ,EC| COMBINE ,NSF| The Data Legacy of the Scripps Carbon Dioxide Program ,SNSF| Ecosystem impacts of climatic extremes versus gradual environmental change ,EC| GEOCARBON ,EC| CARBOCHANGE ,UKRI| Observations and synthesis to establish variability and trends of oceanic pHC. Le Quéré; R. Moriarty; Robbie M. Andrew; Glen P. Peters; Philippe Ciais; Pierre Friedlingstein; Steve D Jones; Stephen Sitch; Pieter P. Tans; Almut Arneth; Thomas A. Boden; Laurent Bopp; Yann Bozec; Josep G. Canadell; Louise Chini; Frédéric Chevallier; C. Cosca; Ian Harris; Mario Hoppema; Richard A. Houghton; Joanna Isobel House; Atul K. Jain; Truls Johannessen; Etsushi Kato; Ralph F. Keeling; Vassilis Kitidis; Kees Klein Goldewijk; Charles D. Koven; Camilla S. Landa; Peter Landschützer; Andrew Lenton; Ivan D. Lima; Gregg Marland; Jeremy T. Mathis; Nicolas Metzl; Yukihiro Nojiri; Are Olsen; T. Ono; Shushi Peng; Wouter Peters; Benjamin Pfeil; Benjamin Poulter; Michael R. Raupach; Pierre Regnier; Christian Rödenbeck; S. Saito; Joe Salisbury; Ute Schuster; Jörg Schwinger; Roland Séférian; Joachim Segschneider; Tobias Steinhoff; Benjamin D. Stocker; Adrienne J. Sutton; Taro Takahashi; Bronte Tilbrook; G. R. van der Werf; Nicolas Viovy; Ying-Ping Wang; Rik Wanninkhof; Andy Wiltshire; Ning Zeng;doi: 10.5194/essdd-7-521-2014 , 10.5445/ir/110103975 , 10.3929/ethz-b-000108127 , 10.5194/essd-7-47-2015 , 10.7892/boris.70708
handle: 20.500.11850/108127 , 1871.1/0def6242-391e-40da-b5fb-eb620bdab9ac , 1874/307132 , 1956/12279 , 11370/112745da-61a1-4938-bca0-e1ada5c91b89 , 11858/00-001M-0000-0023-E260-1 , 11858/00-001M-0000-0023-E728-0 , 11858/00-001M-0000-0027-AF50-4 , 11858/00-001M-0000-0027-7A92-4 , 11858/00-001M-0000-0027-7A94-F , 1983/7ea0a2ed-173e-47b4-8f03-ce38566ac3e2
doi: 10.5194/essdd-7-521-2014 , 10.5445/ir/110103975 , 10.3929/ethz-b-000108127 , 10.5194/essd-7-47-2015 , 10.7892/boris.70708
handle: 20.500.11850/108127 , 1871.1/0def6242-391e-40da-b5fb-eb620bdab9ac , 1874/307132 , 1956/12279 , 11370/112745da-61a1-4938-bca0-e1ada5c91b89 , 11858/00-001M-0000-0023-E260-1 , 11858/00-001M-0000-0023-E728-0 , 11858/00-001M-0000-0027-AF50-4 , 11858/00-001M-0000-0027-7A92-4 , 11858/00-001M-0000-0027-7A94-F , 1983/7ea0a2ed-173e-47b4-8f03-ce38566ac3e2
Accurate assessment of anthropogenic carbon dioxide (CO2) emissions and their redistribution among the atmosphere, ocean, and terrestrial biosphere is important to better understand the global carbon cycle, support the development of climate policies, and project future climate change. Here we describe data sets and a methodology to quantify all major components of the global carbon budget, including their uncertainties, based on the combination of a range of data, algorithms, statistics, and model estimates and their interpretation by a broad scientific community. We discuss changes compared to previous estimates, consistency within and among components, alongside methodology and data limitations. CO2 emissions from fossil fuel combustion and cement production (EFF) are based on energy statistics and cement production data, respectively, while emissions from land-use change (ELUC), mainly deforestation, are based on combined evidence from land-cover-change data, fire activity associated with deforestation, and models. The global atmospheric CO2 concentration is measured directly and its rate of growth (GATM) is computed from the annual changes in concentration. The mean ocean CO2 sink (SOCEAN) is based on observations from the 1990s, while the annual anomalies and trends are estimated with ocean models. The variability in SOCEAN is evaluated with data products based on surveys of ocean CO2 measurements. The global residual terrestrial CO2 sink (SLAND) is estimated by the difference of the other terms of the global carbon budget and compared to results of independent dynamic global vegetation models forced by observed climate, CO2, and land-cover-change (some including nitrogen-carbon interactions). We compare the mean land and ocean fluxes and their variability to estimates from three atmospheric inverse methods for three broad latitude bands. All uncertainties are reported as ±1σ, reflecting the current capacity to characterise the annual estimates of each component of the global carbon budget. For the last decade available (2004-2013) EFF was 8.9 ± 0.4 GtC yr-1, ELUC 0.9 ± 0.5 GtC yr-1, GATM 4.3 ± 0.1 GtC yr-1, SOCEAN 2.6 ± 0.5 GtC yr-1, and SLAND 2.9 ± 0.8 GtC yr-1. For year 2013 alone, EFF grew to 9.9 ± 0.5 GtC yr-1, 2.3% above 2012, continuing the growth trend in these emissions, ELUC was 0.9 ± 0.5 GtC yr-1, GATM was 5.4 ± 0.2 GtC yr-1, SOCEAN was 2.9 ± 0.5 GtC yr-1, and SLAND was 2.5 ± 0.9 GtC yr-1. GATM was high in 2013, reflecting a steady increase in EFF and smaller and opposite changes between SOCEAN and SLAND compared to the past decade (2004-2013). The global atmospheric CO2 concentration reached 395.31 ± 0.10 ppm averaged over 2013. We estimate that EFF will increase by 2.5% (1.3-3.5%) to 10.1 ± 0.6 GtC in 2014 (37.0 ± 2.2 GtCO2 yr-1), 65% above emissions in 1990, based on projections of world gross domestic product and recent changes in the carbon intensity of the global economy. From this projection of EFF and assumed constant ELUC for 2014, cumulative emissions of CO2 will reach about 545 ± 55 GtC (2000 ± 200 GtCO2) for 1870-2014, about 75% from EFF and 25% from ELUC. This paper documents changes in the methods and data sets used in this new carbon budget compared with previous publications of this living data set (Le Quéré et al. 2013, 2014). All observations presented here can be downloaded from the Carbon Dioxide Information Analysis Center (doi:10.3334/CDIAC/GCP-2014). info:eu-repo/semantics/published SCOPUS: ar.j 0
NARCIS arrow_drop_down University of East Anglia digital repositoryArticle . 2015 . Peer-reviewedData sources: University of East Anglia digital repositoryNARCIS; Research@WUROther literature type . Article . 2015License: CC BYFull-Text: https://edepot.wur.nl/345354Earth System Science Data (ESSD); Earth System Science DataOther literature type . Article . 2015 . Peer-reviewedLicense: CC BYEarth System Science Data DiscussionsOther literature type . Article . Preprint . 2014License: CC BYBern Open Repository and Information System (BORIS)Article . 2015 . Peer-reviewedData sources: Bern Open Repository and Information System (BORIS)Electronic Publication Information CenterArticle . 2014Data sources: Electronic Publication Information CenterBergen Open Research Archive - UiBArticle . 2015 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBArchiMer - Institutional Archive of IfremerOther literature type . 2015Data sources: ArchiMer - Institutional Archive of IfremerElectronic Publication Information CenterArticle . 2015Data sources: Electronic Publication Information CenterMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2015License: CC BYFull-Text: https://hal.science/hal-01150560/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 625 citations 625 popularity Top 0.1% influence Top 1% impulse Top 0.01% Powered by BIP!more_vert NARCIS arrow_drop_down University of East Anglia digital repositoryArticle . 2015 . Peer-reviewedData sources: University of East Anglia digital repositoryNARCIS; Research@WUROther literature type . Article . 2015License: CC BYFull-Text: https://edepot.wur.nl/345354Earth System Science Data (ESSD); Earth System Science DataOther literature type . Article . 2015 . Peer-reviewedLicense: CC BYEarth System Science Data DiscussionsOther literature type . Article . Preprint . 2014License: CC BYBern Open Repository and Information System (BORIS)Article . 2015 . Peer-reviewedData sources: Bern Open Repository and Information System (BORIS)Electronic Publication Information CenterArticle . 2014Data sources: Electronic Publication Information CenterBergen Open Research Archive - UiBArticle . 2015 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBArchiMer - Institutional Archive of IfremerOther literature type . 2015Data sources: ArchiMer - Institutional Archive of IfremerElectronic Publication Information CenterArticle . 2015Data sources: Electronic Publication Information CenterMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2015License: CC BYFull-Text: https://hal.science/hal-01150560/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Preprint , Other literature type 2019 Germany, Spain, France, Italy, United Kingdom, United KingdomPublisher:Cold Spring Harbor Laboratory Authors: Drahomíra Faktorová; R. Ellen R. Nisbet; José A. Fernández Robledo; Elena Casacuberta; +109 AuthorsDrahomíra Faktorová; R. Ellen R. Nisbet; José A. Fernández Robledo; Elena Casacuberta; Lisa Sudek; Andrew E. Allen; Manuel Ares; Cristina Aresté; Cecilia Balestreri; Adrian C. Barbrook; Patrick Beardslee; Sara J. Bender; David S. Booth; François-Yves Bouget; Chris Bowler; Susana A. Breglia; Colin Brownlee; Gertraud Burger; Heriberto Cerutti; Rachele Cesaroni; Miguel Angel Chiurillo; Thomas E. Clemente; Duncan B. Coles; Jackie L. Collier; Elizabeth C. Cooney; Kathryn J. Coyne; Roberto Docampo; Christopher L. Dupont; Virginia P. Edgcomb; Elin Einarsson; Pia A. Elustondo; Fernán Federici; Verónica Freire-Benéitez; Nastasia J. Freyria; Kodai Fukuda; Paulo A. Garcia; Peter R. Girguis; Fatma Gomaa; Sebastian G. Gornik; Jian Guo; Vladimír Hampl; Yutaka Hanawa; Esteban R. Haro-Contreras; Elisabeth Hehenberger; Andrea Highfield; Yoshihisa Hirakawa; Amanda Hopes; Christopher J. Howe; Ian Hu; Jorge Ibañez; Nicholas A.T. Irwin; Yuu Ishii; Natalia Ewa Janowicz; Adam C. Jones; Ambar Kachale; Konomi Fujimura-Kamada; Binnypreet Kaur; Jonathan Z. Kaye; Eleanna Kazana; Patrick J. Keeling; Nicole King; Lawrence A. Klobutcher; Noelia Lander; Imen Lassadi; Zhu-Hong Li; Senjie Lin; Jean Claude Lozano; Fulei Luan; Shinichiro Maruyama; Tamara Matute; Cristina Miceli; Jun Minagawa; Mark Moosburner; Sebastián R. Najle; Deepak Nanjappa; Isabel C. Nimmo; Luke M. Noble; Anna M. G. Novák Vanclová; Mariusz Nowacki; Isaac Núñez; Arnab Pain; Angela Piersanti; Sandra Pucciarelli; Jan Pyrih; Joshua S. Rest; Mariana Rius; Deborah L. Robertson; Albane Ruaud; Iñaki Ruiz-Trillo; Monika Abedin Sigg; Pamela A. Silver; Claudio H. Slamovits; G. Jason Smith; Brittany N. Sprecher; Rowena Stern; Estienne C. Swart; Anastasios D. Tsaousis; Lev Tsypin; Aaron P. Turkewitz; Jernej Turnšek; Matus Valach; Valérie Vergé; Peter von Dassow; Tobias von der Haar; Ross F. Waller; Lu Wang; Xiaoxue Wen; Glen L. Wheeler; April Woods; Huan Zhang; Thomas Mock; Alexandra Z. Worden; Julius Lukeš;doi: 10.1101/718239 , 10.1038/s41592-020-0796-x , 10.17863/cam.73594 , 10.17863/cam.53013 , 10.17863/cam.66602
handle: 11581/428891 , 10261/236663
pmc: PMC7200600 , PMC7200595
doi: 10.1101/718239 , 10.1038/s41592-020-0796-x , 10.17863/cam.73594 , 10.17863/cam.53013 , 10.17863/cam.66602
handle: 11581/428891 , 10261/236663
pmc: PMC7200600 , PMC7200595
This collaborative effort was supported by the Gordon and Betty Moore Foundation EMS Program of the Marine Microbiology Initiative (grant nos. GBMF4972 and 4972.01 to F.-Y.B.; GBMF4970 and 4970.01 to M.A. and A.Z.W.; GBMF3788 to A.Z.W.; GBMF 4968 and 4968.01 to H.C.; GBMF4984 to V.H.; GBMF4974 and 4974.01 to C. Brownlee; GBMF4964 to Y. Hirakawa; GBMF4961 to T. Mock; GBMF4958 to P.S.; GBMF4957 to A.T.; GBMF4960 to G.J.S.; GBMF4979 to K.C.; GBMF4982 and 4982.01 to J.L.C.; GBMF4964 to P.J.K.; GBMF4981 to P.v.D.; GBMF5006 to A.E.A.; GBMF4986 to C.M.; GBMF4962 to J.A.F.R.; GBMF4980 and 4980.01 to S.L.; GBMF 4977 and 4977.01 to R.F.W.; GBMF4962.01 to C.H.S.; GBMF4985 to J.M.; GBMF4976 and 4976.01 to C.H.; GBMF4963 and 4963.01 to V.E.; GBMF5007 to C.L.D.; GBMF4983 and 4983.01 to J.L.; GBMF4975 and 4975.01 to A.D.T.; GBMF4973 and 4973.01 to I.R.-T. and GBMF4965 to N.K.), by The Leverhulme Trust (RPG-2017-364) to T. Mock and A. Hopes, and by ERD funds (16_019/0000759) from the Czech Ministry of Education to J.L. Diverse microbial ecosystems underpin life in the sea. Among these microbes are many unicellular eukaryotes that span the diversity of the eukaryotic tree of life. However, genetic tractability has been limited to a few species, which do not represent eukaryotic diversity or environmentally relevant taxa. Here, we report on the development of genetic tools in a range of protists primarily from marine environments. We present evidence for foreign DNA delivery and expression in 13 species never before transformed and for advancement of tools for eight other species, as well as potential reasons for why transformation of yet another 17 species tested was not achieved. Our resource in genetic manipulation will provide insights into the ancestral eukaryotic lifeforms, general eukaryote cell biology, protein diversification and the evolution of cellular pathways.
Europe PubMed Centra... arrow_drop_down Europe PubMed CentralArticle . 2020Full-Text: http://europepmc.org/articles/PMC7200595Data sources: PubMed CentralbioRxivPreprint . 2019University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryEurope PubMed CentralArticle . 2020 . Peer-reviewedFull-Text: http://europepmc.org/articles/PMC7200600Data sources: PubMed CentralRecolector de Ciencia Abierta, RECOLECTA; Nature MethodsArticle . 2020Mémoires en Sciences de l'Information et de la CommunicationArticle . 2020Full-Text: https://hal.science/hal-03018835/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1101/718239&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.euAccess RoutesGreen hybrid 97 citations 97 popularity Top 1% influence Top 10% impulse Top 1% Powered by BIP!visibility 46visibility views 46 download downloads 146 Powered bymore_vert Europe PubMed Centra... arrow_drop_down Europe PubMed CentralArticle . 2020Full-Text: http://europepmc.org/articles/PMC7200595Data sources: PubMed CentralbioRxivPreprint . 2019University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryEurope PubMed CentralArticle . 2020 . Peer-reviewedFull-Text: http://europepmc.org/articles/PMC7200600Data sources: PubMed CentralRecolector de Ciencia Abierta, RECOLECTA; Nature MethodsArticle . 2020Mémoires en Sciences de l'Information et de la CommunicationArticle . 2020Full-Text: https://hal.science/hal-03018835/documentadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1101/718239&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2012 Germany, France, Netherlands, France, GermanyPublisher:Copernicus GmbH Funded by:EC | EMIS, EC | PAST4FUTUREEC| EMIS ,EC| PAST4FUTURED. J. Lunt; A. Abe-Ouchi; P. Bakker; A. Berger; P. Braconnot; S. Charbit; N. Fischer; N. Herold; J. H. Jungclaus; V. C. Khon; U. Krebs-Kanzow; P. M. Langebroek; G. Lohmann; K. H. Nisancioglu; B. L. Otto-Bliesner; W. Park; M. Pfeiffer; S. J. Phipps; M. Prange; R. Rachmayani; H. Renssen; N. Rosenbloom; B. Schneider; E. J. Stone; K. Takahashi; W. Wei; Q. Yin; Z. S. Zhang;Abstract. The Last Interglaciation (∼130 to 116 ka) is a time period with a strong astronomically-induced seasonal forcing of insolation compared to modern. Proxy records indicate a significantly different climate to that of the modern, in particular Arctic summer warming and higher eustatic sea level. Because the forcings are relatively well constrained, it provides an opportunity to test numerical models which are used for future climate prediction. In this paper, we compile a set of climate model simulations of the early Last Interglaciation (130 to 125 ka), encompassing a range of model complexity. We compare the models to each other, and to a recently published compilation of Last Interglacial temperature estimates. We show that the annual mean response of the models is rather small, with no clear signal in many regions. However, the seasonal response is more robust, and there is significant agreement amongst models as to the regions of warming vs. cooling. However, the quantitative agreement of the models with data is poor, with the models in general underestimating the magnitude of response seen in the proxies. Taking possible seasonal biases in the proxies into account improves the agreement marginally, but the agreement is still far from perfect. However, a lack of uncertainty estimates in the data does not allow us to draw firm conclusions. Instead, this paper points to several ways in which both modelling and data could be improved, to allow a more robust model-data comparison.
OceanRep arrow_drop_down Electronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information Centeradd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 127 citations 127 popularity Top 10% influence Top 10% impulse Top 1% Powered by BIP!more_vert OceanRep arrow_drop_down Electronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information Centeradd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2020 Germany, France, United Kingdom, France, FrancePublisher:Frontiers Media SA Funded by:UKRI | REMineralisation of organ..., ANR | TAD, EC | iAtlanticUKRI| REMineralisation of organic carbon by marine bActerIoplanktoN (REMAIN) - reducing the known unknown ,ANR| TAD ,EC| iAtlanticRainer Kiko; Daniele Bianchi; Christian Grenz; Helena Hauss; Morten Iversen; Morten Iversen; Sanjeev Kumar; Amy Maas; Carol Robinson;International audience; Editorial on the Research Topic Zooplankton and Nekton: Gatekeepers of the Biological Pump Zooplankton and nekton organisms create and destroy particles in manifold ways. They feed on the diverse components of the plankton community and on detrital matter. They disaggregate these components, but also repackage them into fecal pellets. Zooplankton and nekton thereby contributes to the attenuation, but also to the export of vertically settling particles. Many zooplankton and nekton organisms also ascend to the surface layer of the ocean at dusk to feed during the dark hours, and return to midwater at the break of dawn. This diurnal vertical migration (DVM) shuttles organic matter from the surface ocean to deeper layers, where it is metabolized and excreted. This active flux (as opposed to the passive flux of sinking particles) can contribute substantially to the biological pump, the downward export of carbon and nutrients into the oceans interior. Due to their multiple roles in oceanic particle dynamics, zooplankton and nekton organisms can actually be considered the gatekeepers of the biological pump. Several articles in this Research Topic deal with the contribution of zooplankton and nekton-mediated active flux to the total export of organic matter. Using biomass and enzyme transport system (ETS) assessments of respiratory flux for both mesozooplankton and micronekton communities, Hernández-León et al. estimated the total active transport of carbon (respiration, excretion, mortality, and egestion) along a transect in the Atlantic from the Canary Islands to Brazil. They found that active flux by these communities ranged from 25 to 80% of the total particulate organic carbon export at 150 m depth and that the importance of active flux increased with increasing surface productivity. Kwong et al. compared biomass, diel vertical migration, and active flux of mesozooplankton and micronekton across a range of mesoscale eddy structures along the east-coast of Australia during winter and spring. They found that although all eddy regimes had similar integrated biomass of mesozooplakton and micronekton, the organisms in the individual eddies had different migratory behavior, which resulted in contrasting importance of active flux. Kiko et al. assessed the impact of mesozooplankton DVM on elemental cycling at three stations in the Eastern Tropical North Atlantic. They found that approximately 31 to 41% of the total nitrogen loss from the upper 200 m of the water column was attributable to DVM mediated fluxes. They also suggest that gut flux-the flux created by migrators when they evacuate their gut at DVM-depth-and migrator mortality at DVM-depth contribute to an Intermediate Particle Maximum. In their study conducted in the Peruvian upwelling system (which features a severe midwater oxygen minimum zone), Kiko and Hauss concluded that the metabolic suppression
University of East A... arrow_drop_down University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-IRDArticle . 2020License: CC BYHAL AMU; Mémoires en Sciences de l'Information et de la Communication; HAL-IRD; Hal-DiderotArticle . 2020License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 5 citations 5 popularity Top 10% influence Average impulse Average Powered by BIP!visibility 15visibility views 15 download downloads 29 Powered bymore_vert University of East A... arrow_drop_down University of East Anglia digital repositoryArticle . 2020 . Peer-reviewedData sources: University of East Anglia digital repositoryMémoires en Sciences de l'Information et de la Communication; HAL AMU; HAL-IRDArticle . 2020License: CC BYHAL AMU; Mémoires en Sciences de l'Information et de la Communication; HAL-IRD; Hal-DiderotArticle . 2020License: CC BYadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2018 United Kingdom, France, Netherlands, Germany, DenmarkPublisher:Frontiers Media SA Funded by:NSF | CNH: Enhancing Resilience..., NSF | Collaborative Research: E..., EC | GREEN-WINNSF| CNH: Enhancing Resilience of Coastal Ecosystems and Human Communities to Oceanographic Variability: Social and Ecological Feedbacks ,NSF| Collaborative Research: Evaluating how abalone populations in the California Current are structured by the interplay of large-scale oceanographic forcing and nearshore variability ,EC| GREEN-WINAuthors: Jean-Pierre Gattuso; Jean-Pierre Gattuso; Jean-Pierre Gattuso; Alexandre K. Magnan; +21 AuthorsJean-Pierre Gattuso; Jean-Pierre Gattuso; Jean-Pierre Gattuso; Alexandre K. Magnan; Alexandre K. Magnan; Laurent Bopp; Laurent Bopp; William W. L. Cheung; Carlos M. Duarte; Carlos M. Duarte; Jochen Hinkel; Jochen Hinkel; Elizabeth Mcleod; Fiorenza Micheli; Andreas Oschlies; Phillip Williamson; Phillip Williamson; Raphaël Billé; Vasiliki I. Chalastani; Vasiliki I. Chalastani; Ruth D. Gates; Jean-Olivier Irisson; Jack J. Middelburg; Hans-Otto Pörtner; Greg H. Rau;handle: 1874/373673
International audience; The Paris Agreement target of limiting global surface warming to 1.5–2∘C compared to pre-industrial levels by 2100 will still heavily impact the ocean. While ambitious mitigation and adaptation are both needed, the ocean provides major opportunities for action to reduce climate change globally and its impacts on vital ecosystems and ecosystem services. A comprehensive and systematic assessment of 13 global- and local-scale, ocean-based measures was performed to help steer the development and implementation of technologies and actions toward a sustainable outcome. We show that (1) all measures have tradeoffs and multiple criteria must be used for a comprehensive assessment of their potential, (2) greatest benefit is derived by combining global and local solutions, some of which could be implemented or scaled-up immediately, (3) some measures are too uncertain to be recommended yet, (4) political consistency must be achieved through effective cross-scale governance mechanisms, (5) scientific effort must focus on effectiveness, co-benefits, disbenefits, and costs of poorly tested as well as new and emerging measures.
Frontiers in Marine ... arrow_drop_down Frontiers in Marine Science; PURE Aarhus UniversityOther literature type . Article . 2018 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess Routesgold 214 citations 214 popularity Top 0.1% influence Top 10% impulse Top 0.1% Powered by BIP!visibility 5visibility views 5 download downloads 35 Powered bymore_vert Frontiers in Marine ... arrow_drop_down Frontiers in Marine Science; PURE Aarhus UniversityOther literature type . Article . 2018 . Peer-reviewedLicense: CC BYUniversity of East Anglia digital repositoryArticle . 2018 . Peer-reviewedData sources: University of East Anglia digital repositoryadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.3389/fmars.2018.00337&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article 2021 France, Netherlands, France, Denmark, GermanyPublisher:American Geophysical Union (AGU) Funded by:ARC | ARC Future Fellowships - ...ARC| ARC Future Fellowships - Grant ID: FT180100606F. Lhardy; Nathaelle Bouttes; Didier M. Roche; Ayako Abe-Ouchi; Zanna Chase; Katherine Crichton; Tatiana Ilyina; Ruza F. Ivanovic; Markus Jochum; Masa Kageyama; Hidetaka Kobayashi; B. Liu; Laurie Menviel; Juan Muglia; Roman Nuterman; Akira Oka; G. Vettoretti; Akitomo Yamamoto;AbstractModel intercomparison studies of coupled carbon‐climate simulations have the potential to improve our understanding of the processes explaining the drawdown at the Last Glacial Maximum (LGM) and to identify related model biases. Models participating in the Paleoclimate Modeling Intercomparison Project (PMIP) now frequently include the carbon cycle. The ongoing PMIP‐carbon project provides the first opportunity to conduct multimodel comparisons of simulated carbon content for the LGM time window. However, such a study remains challenging due to differing implementation of ocean boundary conditions (e.g., bathymetry and coastlines reflecting the low sea level) and to various associated adjustments of biogeochemical variables (i.e., alkalinity, nutrients, dissolved inorganic carbon). After assessing the ocean volume of PMIP models at the pre‐industrial and LGM, we investigate the impact of these modeling choices on the simulated carbon at the global scale, using both PMIP‐carbon model outputs and sensitivity tests with the iLOVECLIM model. We show that the carbon distribution in reservoirs is significantly affected by the choice of ocean boundary conditions in iLOVECLIM. In particular, our simulations demonstrate a GtC effect of an alkalinity adjustment on carbon sequestration in the ocean. Finally, we observe that PMIP‐carbon models with a freely evolving and no additional glacial mechanisms do not simulate the drawdown at the LGM (with concentrations as high as 313, 331, and 315 ppm), especially if they use a low ocean volume. Our findings suggest that great care should be taken on accounting for large bathymetry changes in models including the carbon cycle.
OceanRep; Paleoceano... arrow_drop_down OceanRep; Paleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedCopenhagen University Research Information SystemArticle . 2021Data sources: Copenhagen University Research Information SystemPaleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen bronze 0 citations 0 popularity Average influence Average impulse Average Powered by BIP!visibility 19visibility views 19 download downloads 16 Powered bymore_vert OceanRep; Paleoceano... arrow_drop_down OceanRep; Paleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedCopenhagen University Research Information SystemArticle . 2021Data sources: Copenhagen University Research Information SystemPaleoceanography and PaleoclimatologyArticle . 2021 . Peer-reviewedLicense: Wiley Online Library User AgreementData sources: Crossrefadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.All Research productsarrow_drop_down <script type="text/javascript"> <!-- document.write('<div id="oa_widget"></div>'); document.write('<script type="text/javascript" src="https://www.openaire.eu/index.php?option=com_openaire&view=widget&format=raw&projectId=10.1029/2021pa004302&type=result"></script>'); --> </script>
For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Other literature type 2012 Norway, United Kingdom, Norway, France, Germany, Spain, Germany, United KingdomPublisher:Copernicus GmbH Funded by:NSF | Support for the Intergove..., NSF | Support for International..., EC | CARBOCHANGENSF| Support for the Intergovernmental Oceanographic Commission of UNESCO ,NSF| Support for International Research Projects and Working Groups Through SCOR ,EC| CARBOCHANGEChristopher L. Sabine; S. Hankin; H. Koyuk; Dorothee C. E. Bakker; Benjamin Pfeil; Are Olsen; Nicolas Metzl; Alexander Kozyr; Andrea J. Fassbender; Ansley Manke; Jeremy Malczyk; J. Akl; Simone R. Alin; Richard G. J. Bellerby; Alberto Borges; Jacqueline Boutin; Peter J. Brown; Wei-Jun Cai; Francisco P. Chavez; A. Chen; C. Cosca; Richard A. Feely; Melchor González-Dávila; Catherine Goyet; Nick J. Hardman-Mountford; Christoph Heinze; Mario Hoppema; Christopher W. Hunt; David J. Hydes; Masao Ishii; Truls Johannessen; Robert M. Key; Arne Körtzinger; Peter Landschützer; Siv K. Lauvset; Nathalie Lefèvre; Andrew Lenton; A. Lourantou; Liliane Merlivat; Takashi Midorikawa; Ludger Mintrop; C. Miyazaki; Aki Murata; A. Nakadate; Y. Nakano; S. Nakaoka; Yukihiro Nojiri; Abdirahman M Omar; X. A. Padín; G.-H. Park; K. Paterson; Fiz F. Pérez; Denis Pierrot; Alain Poisson; Aida F. Ríos; Joe Salisbury; Juana Magdalena Santana-Casiano; V. V. S. S. Sarma; Reiner Schlitzer; Birgit Schneider; Ute Schuster; Rainer Sieger; Ingunn Skjelvan; Tobias Steinhoff; T. Suzuki; Taro Takahashi; K. Tedesco; Maciej Telszewski; Helmuth Thomas; Bronte Tilbrook; Douglas Vandemark; T. Veness; Andrew J. Watson; Ray F. Weiss; C.S. Wong; Hisayuki Yoshikawa-Inoue;handle: 1956/12474 , 10261/91799 , 10553/49798
SOCAT is promoted by IOCCP, the Sur- face Ocean Lower Atmosphere Study, and the Integrated Marine Biogeochemistry and Ecosystem Research program. Douglas Wallace (Dalhousie University, Canada and former SOLAS chair) has strongly encouraged SOCAT. Support has been received from the University of Bergen (Norway), the Bjerknes Centre for Cli- mate Research (Norway), the National Oceanic and Atmospheric Administration (United States), the University of Washington (United States), Oak Ridge National Laboratory (United States), the University of East Anglia (United Kingdom), PANGAEA – Data Publisher for Earth & Environmental data (Germany), the Alfred Wegener Institute for Polar and Marine Research (Ger- many), the Centre National de la Recherche Scientifique (France), the CarboOcean (Norway, GOCE 511176-1) and CarboChange (Norway, FP7 264879) projects of the European Union, the US National Science Foundation (United States, OCE-1068958), the international Scientific Committee on Oceanic Research (SCOR, United States, OCE-0938349), and the UK Ocean Acidification Research Programme (NE / H017046 / 1; funded by the Natural Environment Research Council, the Department for Energy and Climate Change and the Department for Environment, Food and Rural A ff airs). Support for SOCAT meetings has been received from IOCCP, IMBER, the European Cooperation in Science and Technology (COST) Action 735 (United Kingdom), Geomar (Germany), the National Institute for Environmental Studies (Japan), and the Commonwealth Scientific and Industrial Research Organisation (Australia). As a response to public demand for a well-documented, quality controlled, publically available, global surface ocean carbon dioxide (CO2) data set, the international marine carbon science community developed the Surface Ocean CO2 Atlas (SOCAT). The first SOCAT product is a collection of 6.3 million quality controlled surface CO2 data from the global oceans and coastal seas, spanning four decades (1968–2007). The SOCAT gridded data presented here is the second data product to come from the SOCAT project. Recognizing that some groups may have trouble working with millions of measurements, the SOCAT gridded product was generated to provide a robust, regularly spaced CO2 fugacity (fCO2) product with minimal spatial and temporal interpolation, which should be easier to work with for many applications. Gridded SOCAT is rich with information that has not been fully explored yet (e.g., regional differences in the seasonal cycles), but also contains biases and limitations that the user needs to recognize and address (e.g., local influences on values in some coastal regions). Sabine, C. L. et al. Peer reviewed
NERC Open Research A... arrow_drop_down University of East Anglia digital repositoryArticle . 2013 . Peer-reviewedData sources: University of East Anglia digital repositoryElectronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information CenterBrage IMR; Norwegian Open Research ArchivesArticle . 2013Recolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2013 . 2014 . Peer-reviewedEarth System Science Data (ESSD)Other literature type . Article . 2013 . Peer-reviewedLicense: CC BYElectronic Publication Information CenterArticle . 2012Data sources: Electronic Publication Information CenterArchiMer - Institutional Archive of IfremerOther literature type . 2013Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2013 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBEarth System Science Data DiscussionsArticle . Preprint . 2012 . Peer-reviewedLicense: CC BYData sources: CrossrefMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2013License: CC BYFull-Text: https://hal.science/hal-00756523/documentRecolector de Ciencia Abierta, RECOLECTAArticle . 2018Data sources: Recolector de Ciencia Abierta, RECOLECTAadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.euAccess RoutesGreen gold 104 citations 104 popularity Top 1% influence Top 10% impulse Top 1% Powered by BIP!visibility 20visibility views 20 download downloads 66 Powered bymore_vert NERC Open Research A... arrow_drop_down University of East Anglia digital repositoryArticle . 2013 . Peer-reviewedData sources: University of East Anglia digital repositoryElectronic Publication Information CenterArticle . 2013Data sources: Electronic Publication Information CenterBrage IMR; Norwegian Open Research ArchivesArticle . 2013Recolector de Ciencia Abierta, RECOLECTA; DIGITAL.CSICArticle . 2013 . 2014 . Peer-reviewedEarth System Science Data (ESSD)Other literature type . Article . 2013 . Peer-reviewedLicense: CC BYElectronic Publication Information CenterArticle . 2012Data sources: Electronic Publication Information CenterArchiMer - Institutional Archive of IfremerOther literature type . 2013Data sources: ArchiMer - Institutional Archive of IfremerBergen Open Research Archive - UiBArticle . 2013 . Peer-reviewedLicense: CC BYData sources: Bergen Open Research Archive - UiBEarth System Science Data DiscussionsArticle . Preprint . 2012 . Peer-reviewedLicense: CC BYData sources: CrossrefMémoires en Sciences de l'Information et de la Communication; HAL-CEA; HAL-IRD; HAL-UPMCArticle . 2013License: CC BYFull-Text: https://hal.science/hal-00756523/documentRecolector de Ciencia Abierta, RECOLECTAArticle . 2018Data sources: Recolector de Ciencia Abierta, RECOLECTAadd ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
You have already added works in your ORCID record related to the merged Research product.This Research product is the result of merged Research products in OpenAIRE.
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