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4. Observing change in pelagic animals as sampling methods shift: the case of Antarctic krill

Author

World Wildlife Fund, Natural Environment Research Council (UK), National Science Foundation (US), European Commission, Instituto Antártico Chileno, Instituto Milenio de Oceanografía (Chile), Korea Polar Research Institute, Ministry of Oceans and Fisheries (South Korea), Helmholtz Association, Natural Sciences and Engineering Research Council of Canada, Agencia Nacional de Investigación y Desarrollo (Chile), Fondo Nacional de Desarrollo Científico y Tecnológico (Chile), Japan Society for the Promotion of Science, University of Tasmania, Fundação para a Ciência e a Tecnologia (Portugal), Hill, Simeon L., Atkinson, Angus, Arata, Javier A., Belcher, Anna, Bengtson Nash, Susan, Bernard, Kim S., Cleary, Alison, Conroy, John A., Driscoll, Ryan, Fielding, Sophie, Flores, Hauke, Forcada, Jaume, Halfter, Svenja, Hinke, Jefferson T., Hückstädt, Luis, Johnston, Nadine M., Kane, Mary, Kawaguchi, So, Krafft, Bjørn A., Krüger, Lucas, La, Hyoung Sul, Liszka, Cecilia M., Meyer, Bettina, Murphy, Eugene J., Pakhomov, Evgeny A., Perry, Frances, Piñones, Andrea, Polito, Michael J., Reid, Keith, Reiss, Christian, Rombola, Emilce, Saunders, Ryan A., Schmidt, Katrin, Sylvester, Zephyr T., Takahashi, Akinori, Tarling, Geraint A., Trathan, Phil N., Veytia, Devi, Watters, George M., Xavier, José C., Yang, Guang, World Wildlife Fund, Natural Environment Research Council (UK), National Science Foundation (US), European Commission, Instituto Antártico Chileno, Instituto Milenio de Oceanografía (Chile), Korea Polar Research Institute, Ministry of Oceans and Fisheries (South Korea), Helmholtz Association, Natural Sciences and Engineering Research Council of Canada, Agencia Nacional de Investigación y Desarrollo (Chile), Fondo Nacional de Desarrollo Científico y Tecnológico (Chile), Japan Society for the Promotion of Science, University of Tasmania, Fundação para a Ciência e a Tecnologia (Portugal), Hill, Simeon L., Atkinson, Angus, Arata, Javier A., Belcher, Anna, Bengtson Nash, Susan, Bernard, Kim S., Cleary, Alison, Conroy, John A., Driscoll, Ryan, Fielding, Sophie, Flores, Hauke, Forcada, Jaume, Halfter, Svenja, Hinke, Jefferson T., Hückstädt, Luis, Johnston, Nadine M., Kane, Mary, Kawaguchi, So, Krafft, Bjørn A., Krüger, Lucas, La, Hyoung Sul, Liszka, Cecilia M., Meyer, Bettina, Murphy, Eugene J., Pakhomov, Evgeny A., Perry, Frances, Piñones, Andrea, Polito, Michael J., Reid, Keith, Reiss, Christian, Rombola, Emilce, Saunders, Ryan A., Schmidt, Katrin, Sylvester, Zephyr T., Takahashi, Akinori, Tarling, Geraint A., Trathan, Phil N., Veytia, Devi, Watters, George M., Xavier, José C., and Yang, Guang

Abstract

Understanding and managing the response of marine ecosystems to human pressures including climate change requires reliable large-scale and multi-decadal information on the state of key populations. These populations include the pelagic animals that support ecosystem services including carbon export and fisheries. The use of research vessels to collect information using scientific nets and acoustics is being replaced with technologies such as autonomous moorings, gliders, and meta-genetics. Paradoxically, these newer methods sample pelagic populations at ever-smaller spatial scales, and ecological change might go undetected in the time needed to build up large-scale, long time series. These global-scale issues are epitomised by Antarctic krill (Euphausia superba), which is concentrated in rapidly warming areas, exports substantial quantities of carbon and supports an expanding fishery, but opinion is divided on how resilient their stocks are to climatic change. Based on a workshop of 137 krill experts we identify the challenges of observing climate change impacts with shifting sampling methods and suggest three tractable solutions. These are to: improve overlap and calibration of new with traditional methods; improve communication to harmonise, link and scale up the capacity of new but localised sampling programs; and expand opportunities from other research platforms and data sources, including the fishing industry. Contrasting evidence for both change and stability in krill stocks illustrates how the risks of false negative and false positive diagnoses of change are related to the temporal and spatial scale of sampling. Given the uncertainty about how krill are responding to rapid warming we recommend a shift towards a fishery management approach that prioritises monitoring of stock status and can adapt to variability and change.

Published
2024

5. First description of in situ chlorophyll fluorescence signal within East Antarctic coastal polynyas during fall and winter

Author

Bourreau, Lucie, primary, Pauthenet, Etienne, additional, Le Ster, Loïc, additional, Picard, Baptiste, additional, Portela, Esther, additional, Sallée, Jean-Baptiste, additional, McMahon, Clive R., additional, Harcourt, Robert, additional, Hindell, Mark, additional, Guinet, Christophe, additional, Bestley, Sophie, additional, Charrassin, Jean-Benoît, additional, DuVivier, Alice, additional, Sylvester, Zephyr, additional, Krumhardt, Kristen, additional, Jenouvrier, Stéphanie, additional, and Labrousse, Sara, additional

Published
2023
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6. REPORT of the Online Workshop of the SCAR Krill Expert Group (SKEG), 20-24 March 2023

Author

Meyer, Bettina, Kawaguchi, So, Arata, Javier A., Atkinson, Angus, Bernard, Kim, Hill, Simeon, Parker, Steve, and Sylvester, Zephyr

Subjects
Antarctica, Southern Ocean, Krill
Abstract

Development of a Krill stock hypothesis (KSH) for CCAMLR area 48 REPORT of the online workshop of the SCAR Krill Expert Group (SKEG), 20-24th March 2023 Organisation committee: SKEG board: Bettina Meyer So Kawaguchi Javier A. Arata Angus Atkinson Kim Bernard Simeon Hill Steve Parker Zephyr Sylvester PEW host support: Nicole Bransome Nicholas Kirkham Summary: The SCAR Krill Expert Group (SKEG) aims to improve the understanding of krill biology and ecology and serve as a link between the scientific krill community and the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR), which manages the Antarctic krill fishery. SKEG also provides a platform for research direction, information exchange, and collaboration within the krill community, with a focus on early career researchers (ECRs). The 2023 SKEG annual workshop was held virtually over five days in March 2023, with 83 participants from 13 countries, including ECRs. The number of participants provided a sufficient sample size for polling questions to support CCAMLR in the process of developing a KSH for their revised krill fishery management approach. Its focal topic was the development of a Krill Stock Hypothesis for CCAMLR Area 48. The current document serves as a record of the workshop and a report to CCAMLR’s working group on Ecosystem Monitoring and Management (WG-EMM) which is tasked with developing advice on krill fishery management. The workshop developed a preliminary KSH and identified key data requirements to support further refinement of the KSH. These include more data on krill length distributions, standardized test hauls, and information on egg and larvae distribution, recruitment locations, and year-class strength. Several recommendations were made for WG-EMM, including reviewing and recommending the Krill Stock Hypothesis (KSH) as a tool for managing the krill fishery, to identify critical aspects of the KSH that need testing, considering ways to collect necessary information, and to identify data which can be collected by krill fishing vessels or scientific observers. These recommendations aim to develop robust management options for the krill fishery, including more data on krill length distributions, standardized test hauls, and information on egg and larvae distribution, recruitment locations, and year-class strength.

Published
2023
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7. First description of in situ chlorophyll fluorescence signal within East Antarctic coastal polynyas during fall and winter

Author

Bourreau, Lucie, Pauthenet, Etienne, Le Ster, Loïc, Picard, Baptiste, Portela, Esther, Sallée, Jean-baptiste, Mcmahon, Clive R., Harcourt, Robert, Hindell, Mark, Guinet, Christophe, Bestley, Sophie, Charrassin, Jean-benoît, Duvivier, Alice, Sylvester, Zephyr, Krumhardt, Kristen, Jenouvrier, Stéphanie, Labrousse, Sara, Bourreau, Lucie, Pauthenet, Etienne, Le Ster, Loïc, Picard, Baptiste, Portela, Esther, Sallée, Jean-baptiste, Mcmahon, Clive R., Harcourt, Robert, Hindell, Mark, Guinet, Christophe, Bestley, Sophie, Charrassin, Jean-benoît, Duvivier, Alice, Sylvester, Zephyr, Krumhardt, Kristen, Jenouvrier, Stéphanie, and Labrousse, Sara

Abstract

Antarctic coastal polynyas are persistent and recurrent regions of open water located between the coast and the drifting pack-ice. In spring, they are the first polar areas to be exposed to light, leading to the development of phytoplankton blooms, making polynyas potential ecological hotspots in sea-ice regions. Knowledge on polynya oceanography and ecology during winter is limited due to their inaccessibility. This study describes i) the first in situ chlorophyll fluorescence signal (a proxy for chlorophyll-a concentration and thus presence of phytoplankton) in polynyas between the end of summer and winter, ii) assesses whether the signal persists through time and iii) identifies its main oceanographic drivers. The dataset comprises 698 profiles of fluorescence, temperature and salinity recorded by southern elephant seals in 2011, 2019-2021 in the Cape-Darnley (CDP;67˚S-69˚E) and Shackleton (SP;66˚S-95˚E) polynyas between February and September. A significant fluorescence signal was observed until April in both polynyas. An additional signal occurring at 130m depth in August within CDP may result from in situ growth of phytoplankton due to potential adaptation to low irradiance or remnant chlorophyll-a that was advected into the polynya. The decrease and deepening of the fluorescence signal from February to August was accompanied by the deepening of the mixed layer depth and a cooling and salinification of the water column in both polynyas. Using Principal Component Analysis as an exploratory tool, we highlighted previously unsuspected drivers of the fluorescence signal within polynyas. CDP shows clear differences in biological and environmental conditions depending on topographic features with higher fluorescence in warmer and saltier waters on the shelf compared with the continental slope. In SP, near the ice-shelf, a significant fluorescence signal in April below the mixed layer (around 130m depth), was associated with fresher and warmer waters. We hypothesize

Published
2023
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9. Using models to improve our understanding of Antarctic krill and their ecological role in the Southern Ocean

Author

Murphy, Eugene, Corney, Stuart, Hofmann, Eileen, Meyer, Bettina, Johnston, Nadine, Thorpe, Sally, Brooks, Cassandra, Veytia, Devi, Bahl, Alexis, Sylvester, Zephyr, and Bahlburg, Domink

Subjects
Antarctica, Southern Ocean, Krill
Abstract

REPORT of the online Integrating Climate and Ecosystem Dynamics of the Southern Ocean (ICED) workshop, 17-20 May 2021 Organizing committee: ECRs: Devi Veytia, Alexis Bahl, Zephyr Sylvester, Dominik Bahlburg Along with Eugene Murphy, Stuart Corney, Eileen Hofmann, Bettina Meyer, Nadine Johnston, Sally Thorpe, Cassandra Brooks Supporting ECRs: Tracey Dornan, Andréa Mesquita, Cecilia Liszka, Mauricio González Díaz, Akeem Olaniyu, Nicole Hellessey, Katherine Hudson, Onur Karakus, Sara Labrousse, Denise O’Sullivan, Elisa Seyboth and Svenja Halfter Summary: The Integrating Climate and Ecosystem Dynamics in the Southern Ocean program (ICED) provides a framework for research by identifying key science priorities and delivering targeted research and activities to understand the interactions between climate and ecosystem dynamics, their links to the Earth System, and generate scenarios and projections of the impacts of future change to support conservation and management. Over the coming decades major shifts in Southern Ocean ecosystems are expected in response to multiple stressors including climate-driven change and harvesting, with consequences for marine ecosystems and societies around the world. Understanding and predicting the response of Southern Ocean ecosystems is crucial for conservation and sustainable management. This report summarizes the ICED-sponsored workshop, 17-20 May 2021, focussed on improving our modelling of Antarctic krill (hereafter krill) which is a keystone species in Southern Ocean food webs and the subject of an international fishery. The workshop also aimed to provide Early Career Researchers (ECRs) with opportunities to network and highlight their work, as part of ICED’s wider goal of including ECRs in ICED activities to foster career development and shape the future of ICED research. This was also timely in providing opportunities for this cohort of researchers that have been limited during the COVID-19 pandemic. The workshop included background talks together with three themed sessions focussing on key aspects of krill modelling. Each themed session contained the main components: (1) speed talks presenting ongoing research projects; (2) tutorials on current approaches/best practices on methods for modelling krill; and (3) zoom polls and guided discussions on advancing understanding. Workshop attendees represented a broad cross-section of the international krill modelling community, in addition to researchers focussed on other species, comprising 81 registered participants across all career stages. This report summarises initial findings for research priorities, data requirements, facilitation methods for integrating modelling approaches, and ideas forfostering ECR networks and involvement within the ICED community.

Published
2022
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10. SKAG Annual Meeting 2022 Report

Author

Meyer, Bettina, Kawaguchi, So, Hill, Simeon, Atkinson, Angus, Arata, Javier, Driscoll, Ryan, Conroy, Jack, and Sylvester, Zephyr

Subjects
Antarctica, Krill
Abstract

The annual meeting of the SCAR Krill Action Group (SKAG) was held online from 7 to 11 March 2022 at 1500-1700 UTC, with a series of Zoom meetings. The key aims ofSKAGare to Deliver critical scientific information relevant to krill fishery management Provide a forum to guide research directions and to promote collaboration Improve understanding of krill biology and ecology Provide a forum for information exchange on upcoming cruises and funding opportunities, as well as laboratory facilities for experimental krill work Serve as a platform for early career researchers (ECRs) and the development of future international collaborative research proposals and programmes.

Published
2022
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12. Simulations With the Marine Biogeochemistry Library (MARBL)

Author

Long, Matthew C., primary, Moore, J. Keith, additional, Lindsay, Keith, additional, Levy, Michael, additional, Doney, Scott C., additional, Luo, Jessica Y., additional, Krumhardt, Kristen M., additional, Letscher, Robert T., additional, Grover, Maxwell, additional, and Sylvester, Zephyr T., additional

Published
2021
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13. Simulations With the Marine Biogeochemistry Library (MARBL)

Author

Long, Matthew C., Moore, J. Keith, Lindsay, Keith, Levy, Michael, Doney, Scott C., Luo, Jessica Y., Krumhardt, Kristen M., Letscher, Robert T., Grover, Maxwell, Sylvester, Zephyr T., Long, Matthew C., Moore, J. Keith, Lindsay, Keith, Levy, Michael, Doney, Scott C., Luo, Jessica Y., Krumhardt, Kristen M., Letscher, Robert T., Grover, Maxwell, and Sylvester, Zephyr T.

Abstract

The Marine Biogeochemistry Library (MARBL) is a prognostic ocean biogeochemistry model that simulates marine ecosystem dynamics and the coupled cycles of carbon, nitrogen, phosphorus, iron, silicon, and oxygen. MARBL is a component of the Community Earth System Model (CESM); it supports flexible ecosystem configuration of multiple phytoplankton and zooplankton functional types; it is also portable, designed to interface with multiple ocean circulation models. Here, we present scientific documentation of MARBL, describe its configuration in CESM2 experiments included in the Coupled Model Intercomparison Project version 6 (CMIP6), and evaluate its performance against a number of observational data sets. The model simulates present-day air-sea CO2 flux and many aspects of the carbon cycle in good agreement with observations. However, the simulated integrated uptake of anthropogenic CO2 is weak, which we link to poor thermocline ventilation, a feature evident in simulated chlorofluorocarbon distributions. This also contributes to larger-than-observed oxygen minimum zones. Moreover, radiocarbon distributions show that the simulated circulation in the deep North Pacific is extremely sluggish, yielding extensive oxygen depletion and nutrient trapping at depth. Surface macronutrient biases are generally positive at low latitudes and negative at high latitudes. CESM2 simulates globally integrated net primary production (NPP) of 48 Pg C yr(-1) and particulate export flux at 100 m of 7.1 Pg C yr(-1). The impacts of climate change include an increase in globally integrated NPP, but substantial declines in the North Atlantic. Particulate export is projected to decline globally, attributable to decreasing export efficiency associated with changes in phytoplankton community composition. Plain Language Summary Numerical models of the ocean carbon cycle and biogeochemistry play a key role in understanding the fate of human carbon dioxide emissions and the magnitude of expected clima

Published
2021
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16. Progress towards a representative network of Southern Ocean protected areas

Author

Brooks, Cassandra M., Chown, Steven L., Douglass, Lucinda L., Raymond, Ben P., Shaw, Justine D., Sylvester, Zephyr T., Torrens, Christa L., Brooks, Cassandra M., Chown, Steven L., Douglass, Lucinda L., Raymond, Ben P., Shaw, Justine D., Sylvester, Zephyr T., and Torrens, Christa L.

Abstract

Global threats to ocean biodiversity have generated a worldwide movement to take actions to improve conservation and management. Several international initiatives have recommended the adoption of marine protected areas (MPAs) in national and international waters. National governments and the Commission for the Conservation of Antarctic Marine Living Resources have successfully adopted multiple MPAs in the Southern Ocean despite the challenging nature of establishing MPAs in international waters. But are these MPAs representative of Southern Ocean biodiversity? Here we answer this question for both existing and proposed Antarctic MPAs, using benthic and pelagic regionalizations as a proxy for biodiversity. Currently about 11.98% of the Southern Ocean is protected in MPAs, with 4.61% being encompassed by no-take areas. While this is a relatively large proportion of protection when compared to other international waters, current Antarctic MPAs are not representative of the full range of benthic and pelagic ecoregions. Implementing additional protected areas, including those currently under negotiation, would encompass almost 22% of the Southern Ocean. It would also substantially improve representation with 17 benthic and pelagic ecoregions (out of 23 and 19, respectively) achieving at least 10% representation.

Published
2020

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