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Predator-derived bioregions in the Southern Ocean: characteristics, drivers and representation in Marine Protected Areas (2022)

Reisinger, Ryan R. ; Brooks, Cassandra M. ; Raymond, Ben ; [et al.]

In: EPIC3SCAR 2022 Virtual Open Science Conference, Hyderabad, India, 2022-08-02-2022-08-02

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Publication Date: 2022-08-15

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , NonPeerReviewed

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Predator-derived bioregions in the Southern Ocean: Characteristics, drivers and representation in marine protected areas (2022)

Reisinger, Ryan R. ; Brooks, Cassandra M. ; Raymond, Ben ; [et al.]

Elsevier

In: EPIC3Biological Conservation, Elsevier, 272, pp. 109630, ISSN: 00063207

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Publication Date: 2022-06-19

Description: Multiple initiatives have called for large-scale representative networks of marine protected areas (MPAs). MPAs should be ecologically representative to be effective, but in large, remote regions this can be difficult to quantify and assess. We present a novel bioregionalization for the Southern Ocean, which uses the modelled circumpolar habitat importance of 17 marine bird and mammal species. The habitat-use of these predators indicates biodiversity patterns that require representation in Southern Ocean conservation and management planning. In the predator habitat importance predictions, we identified 17 statistical clusters, falling into four larger groups. We characterized and contrasted these clusters based on their predator, prey and oceanographic characteristics. Under the existing Southern Ocean MPA network, some clusters fall short of 10 % representation, yet others meet or exceed these targets. Implementation of currently proposed MPAs can in some cases contribute to meeting even 30 % spatial coverage conservation targets. However, the effectiveness of mixed-use versus no-take MPAs should be taken into consideration, since some clusters are not adequately represented by no-take MPAs. These results, combined with previous studies in the Southern Ocean, can help inform the continued design, implementation, and evaluation of a representative system of MPAs for Southern Ocean conservation and management.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Dynamic fine-scale sea icescape shapes adult emperor penguin foraging habitat in east Antarctica (2020)

Labrousse, Sara ; Fraser, Alexander D. ; Sumner, Michael ; [et al.]

American Geophysical Union

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Publication Date: 2022-05-26

Description: Author Posting. © American Geophysical Union, 2019. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geophysical Research Letters 46(20), (2019): 11206-11218, doi: 10.1029/2019GL084347.

Description: The emperor penguin, an iconic species threatened by projected sea ice loss in Antarctica, has long been considered to forage at the fast ice edge, presumably relying on large/yearly persistent polynyas as their main foraging habitat during the breeding season. Using newly developed fine‐scale sea icescape data and historical penguin tracking data, this study for the first time suggests the importance of less recognized small openings, including cracks, flaw leads and ephemeral short‐term polynyas, as foraging habitats for emperor penguins. The tracking data retrieved from 47 emperor penguins in two different colonies in East Antarctica suggest that those penguins spent 23% of their time in ephemeral polynyas and did not use the large/yearly persistent, well‐studied polynyas, even if they occur much more regularly with predictable locations. These findings challenge our previous understanding of emperor penguin breeding habitats, highlighting the need for incorporating fine‐scale seascape features when assessing the population persistence in a rapidly changing polar environment.

Description: This study was supported financially and logistically by the Australian Antarctic Division, the Australian Government's Cooperative Research Centre program through the Antarctic Climate & Ecosystems Cooperative Research Centre, and by the Australian Research Council's Special Research Initiative for Antarctic Gateway Partnership (Project ID SR140300001), the French Polar Institute (Institut Paul Emile Victor, IPEV) research projects, and the postdoctoral scholar award from Woods Hole Oceanographic Institution. S. J. acknowledges support from NSF award 1744794 and 1643901. C. B. and Y. R.‐C. acknowledge support from the BNP Paribas Foundation as part of program SENSEI (SENtinels of the SEa Ice). Y. R.‐C. and R. R. R. acknowledge support from the WWF‐UK through R. Downie. Special thanks go to Y. le Maho in charge of the research program in Terre Adelie in 1996/1997, M. LaRue for the field opportunity in the Ross Sea, illuminating sea icescapes and movements of emperor penguins during the breeding season, D. Ainley for interesting discussions, D. Iles for the proofreading and all colleagues and volunteers involved in the research on emperor penguins in Terre Adélie and at the Mawson Coast, especially D. Rodary and W. Bonneau. All animals in this study were treated in accordance with the IPEV and Polar Environment Committees guidelines, and Australian Antarctic Program Animal Ethics Committee permits. Data and data products related to the paper are available on the following repository http://www.usap‐dc.org/view/dataset/601209 with the doi: 10.15784/601209.

Description: 2020-03-16

Keywords: emperor penguin ; sea ice ; iceberg ; fast ice ; polynya ; foraging ecology

Repository Name: Woods Hole Open Access Server

Type: Article

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Marine ecosystem assessment for the Southern Ocean: birds and marine mammals in a changing climate (2020)

Bestley, Sophie ; Ropert-Coudert, Yan ; Bengtson Nash, Susan ; [et al.]

Frontiers Media

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Publication Date: 2022-05-26

Description: © The Author(s), 2020. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Bestley, S., Ropert-Coudert, Y., Bengtson Nash, S., Brooks, C. M., Cotte, C., Dewar, M., Friedlaender, A. S., Jackson, J. A., Labrousse, S., Lowther, A. D., McMahon, C. R., Phillips, R. A., Pistorius, P., Puskic, P. S., Reis, A. O. d. A., Reisinger, R. R., Santos, M., Tarszisz, E., Tixier, P., Trathan, P. N., Wege, M., & Wienecke, B. Marine ecosystem assessment for the Southern Ocean: birds and marine mammals in a changing climate. Frontiers in Ecology and Evolution, 8, (2020): 566936, doi:10.3389/fevo.2020.566936.

Description: The massive number of seabirds (penguins and procellariiformes) and marine mammals (cetaceans and pinnipeds) – referred to here as top predators – is one of the most iconic components of the Antarctic and Southern Ocean. They play an important role as highly mobile consumers, structuring and connecting pelagic marine food webs and are widely studied relative to other taxa. Many birds and mammals establish dense breeding colonies or use haul-out sites, making them relatively easy to study. Cetaceans, however, spend their lives at sea and thus aspects of their life cycle are more complicated to monitor and study. Nevertheless, they all feed at sea and their reproductive success depends on the food availability in the marine environment, hence they are considered useful indicators of the state of the marine resources. In general, top predators have large body sizes that allow for instrumentation with miniature data-recording or transmitting devices to monitor their activities at sea. Development of scientific techniques to study reproduction and foraging of top predators has led to substantial scientific literature on their population trends, key biological parameters, migratory patterns, foraging and feeding ecology, and linkages with atmospheric or oceanographic dynamics, for a number of species and regions. We briefly summarize the vast literature on Southern Ocean top predators, focusing on the most recent syntheses. We also provide an overview on the key current and emerging pressures faced by these animals as a result of both natural and human causes. We recognize the overarching impact that environmental changes driven by climate change have on the ecology of these species. We also evaluate direct and indirect interactions between marine predators and other factors such as disease, pollution, land disturbance and the increasing pressure from global fisheries in the Southern Ocean. Where possible we consider the data availability for assessing the status and trends for each of these components, their capacity for resilience or recovery, effectiveness of management responses, risk likelihood of key impacts and future outlook.

Description: SoB is supported by Australian Research Council DECRA DE180100828. PT is supported by Australian Research Council LP160100329. We thank the WWF-UK for financial support during the original workshop and to RR and YR-C.

Keywords: marine ecosystem assessment ; marine predators ; climate change ; fisheries interactions ; conservation management ; Antarctic

Repository Name: Woods Hole Open Access Server

Type: Article

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