A Synergistic Approach for Evaluating Climate Model Output for Ecological Applications

Cavanagh, Rachel D.; Murphy, Eugene J.; Bracegirdle, Thomas J.; Turner, John; Knowland, Cheryl A.; Corney, Stuart; Smith, Walker O; Waluda, Claire M.; Johnston, Nadine M.; Bellerby, R. G. J.; Constable, Andrew J.; Costa, Daniel P.; Hofmann, Eileen E.; Jackson, Jennifer A.; Staniland, Iain J.; Wolf‐Gladrow, Dieter; Xavier, José C.

doi:10.3389/fmars.2017.00308

Cited by 40 publications

(51 citation statements)

References 85 publications

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“…The Scotia Sea -Antarctic Peninsula region has experienced rapid climate-related change over recent decades including increases in sea surface temperature (Meredith and King, 2005;Whitehouse et al, 2008) and reductions in sea ice extent (Stammerjohn et al, 2008;Turner et al, 2015). Climate models suggest that further warming and sea ice loss is likely during the current century (Hill et al, 2013;Cavanagh et al, 2017). Antarctic krill is a stenothermic species, but its distribution in this region extends north of 55 • S, where present temperatures are already close to its thermal limits for growth .…”

Section: Impact Of Ocean-warming On Food Web Dynamicsmentioning

confidence: 99%

Myctophid Fish (Family Myctophidae) Are Central Consumers in the Food Web of the Scotia Sea (Southern Ocean)

et al. 2019

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Myctophids are the most abundant and diverse mesopelagic fishes in the Southern Ocean. They are a conduit of energy between primary consumers and higher marine predators, and between the surface layers and the mesopelagic depths. However, there remain major uncertainties about their ecology, particularly regarding their role in Southern Ocean food webs in waters south of the Antarctic Polar Front, which are often regarded as dominated by Antarctic krill. Limited data on the feeding ecology of myctophids has made it difficult to assess the importance of myctophids as consumers of krill and how they fit in the traditional view of a krill-dominated system (diatom-krillhigher predator). We provide a new assessment of the role of myctophids in Southern Ocean food webs using information from recent trophodynamic studies of myctophids conducted in the Scotia Sea, one of the most productive regions of the Southern Ocean and a region that sustains both major populations of higher predators (sea birds, seals, whales) and important commercial fisheries (krill, toothfish, and mackerel icefish). Collectively, these data show that myctophids have a central role in Southern Ocean food webs as both predators and prey. Large myctophid species are prevalent consumers of krill throughout their distributional range and in different seasons in the Scotia Sea. Moreover, best estimates of both myctophid and higher predator consumption of krill to date indicate that large myctophids are the greatest predators of krill in this region, consuming almost as much krill as do all other vertebrates. Nevertheless, there are several smaller myctophid species that do not eat krill, instead consuming copepods and other small euphausiids. Myctophids therefore link primary producers to higher predators through both krill-dependent and krill-independent trophic pathways, emphasizing their importance in regional food webs. Consequently, trophic pathways involving large myctophids are unlikely to be exempt from the direct consequences of projected redistribution and/or reduction in krill population biomass under scenarios of ocean-warming, whilst trophic pathways involving small myctophids may be more resilient to such effects and become increasingly important to higher trophic levels. Further studies are required to determine the extent to which myctophids can maintain food web stability and sustain higher predator populations Frontiers in Marine Science | www.frontiersin.org 1 September 2019 | Volume 6 | Article 530 Saunders et al. Trophodynamics of Scotia Sea Myctophidsduring periods of prolonged reductions in krill abundance. Including knowledge of the role of myctophids in Southern Ocean food webs will be important for developing robust projections of the impacts of future change to inform decision making for conservation and management.

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Section: Impact Of Ocean-warming On Food Web Dynamicsmentioning

confidence: 99%

Myctophid Fish (Family Myctophidae) Are Central Consumers in the Food Web of the Scotia Sea (Southern Ocean)

et al. 2019

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“…Figure 5 illustrates how the different system models described in Table 5 might fit together in a nested, ensemble of models. While not all the available models described in Table 5 will be used in the initial MEASO, the aim will be to utilise scenarios of environmental change from Earth System models (Cavanagh et al 2017), along with time-series of observations of physics, chemistry and biology, to drive regional food web and/or species models. These latter models can then be used to investigate the consequences, and their likelihoods, of the different scenarios on different parts of the ecosystem (see, for example, Klein et al 2018).…”

Section: Specific Interaction Modelsmentioning

confidence: 99%

“…Earth System models can provide the state of habitat variables and primary producers across the Southern Ocean, although sea ice may not be well described at present (Cavanagh et al 2017). The ability for these models to represent the actual state of the Southern Ocean can be assessed as to their fit to time series of ocean observations; the relative ability for representing reality is termed 'model skill'.…”

Section: Specific Interaction Modelsmentioning

confidence: 99%

Observations and models to support the first Marine Ecosystem Assessment for the Southern Ocean (MEASO)

Brasier

Constable

Melbourne-Thomas

et al. 2019

Journal of Marine Systems

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Assessments of the status and trends of habitats, species and ecosystems are needed for effective ecosystem-based management in marine ecosystems. Knowledge on imminent ecosystem changes (climate change impacts) set in train by existing climate forcings are needed for adapting management practices to achieve conservation and sustainabililty targets into the future. Here, we describe a process for enabling a marine ecosystem assessment (MEA) by the broader scientific community to support managers in this way, using a MEA for the Southern Ocean (MEASO) as an example. We develop a framework and undertake an audit to support a MEASO, involving three parts. First, we review available syntheses and assessments of the Southern Ocean ecosystem and its parts, paying special attention to building on the SCAR Antarctic Climate Change and Environment report and the SCAR Biogeographic Atlas of the Southern Ocean. Second, we audit available field observations of habitats and densities and/or abundances of taxa, using the literature as well as a survey of scientists as to their current and recent activities. Third, we audit available system models that can form a nested ensemble for making, with available data, circumpolar assessments of habitats, species and food webs. We conclude that there is sufficient data and models to undertake, at least, a circumpolar assessment of the krill-based system. The auditing framework provides the basis for the first MEASO but also provides a repository (www.SOKI.aq/display/MEASO) for easily amending the audit for future MEASOs. We note that an important outcome of the first MEASO will not only be the assessment but also to advise on priorities in observations and models for improving subsequent MEASOs. Highlights • An audit of the survey data and models available to assess the status of Southern Ocean biota • This audit will inform the first Marine Ecosystem Assessment for the Southern Ocean (MEASO) • An ensemble of models can be used for circumpolar assessments of krill based system • MEASO-1 will identify risks of climate change impacts and needs for management

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“…Over the seasonal cycle, it changes in area by a factor of 6 through highly coupled ice, atmosphere, and ocean processes. Variability and trends in ice extent are of major importance to regional climate (e.g., Turner, Bracegirdle, et al, 2013), ecosystems (e.g., Cavanagh et al, 2017;Jenouvrier et al, 2014), and near-surface atmospheric conditions across the continent (e.g., Krinner et al, 2014) which have implications for the mass balance of the ice sheet. Sea ice formation, transport, and melt play an important role in setting the salinity structure of the Southern Ocean, affecting global ocean circulation (e.g., Abernathey et al, 2016;Haumann et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Compensating Biases and a Noteworthy Success in the CMIP5 Representation of Antarctic Sea Ice Processes

Holmes

Holland

Bracegirdle

2019

Geophysical Research Letters

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Coupled Model Intercomparison Project phase 5 (CMIP5) climate models simulate a wide range of historical sea ice areas. Even models with areas close to observed values may contain compensating errors, affecting reliability of their projections. This study focuses on the seasonal cycle of sea ice, including analysis of model concentration budgets. Many models have insufficient autumn ice growth, leading to large winter biases. A subset of models accurately represent sea ice evolution year‐round. However, comparing their winter ice concentration budget to observations reveals a range of behaviors. At least one model has an accurate ice budget, which is only possible due to realistic ice drifts. The CMIP5 generation of model physics and resolution is therefore structurally capable of accurately representing processes in Antarctic sea ice. This implies that substantially improved projections of Antarctic dense ocean water formation and ice sheet melting are possible with appropriate subsetting of existing climate models.

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A Synergistic Approach for Evaluating Climate Model Output for Ecological Applications

Cited by 40 publications

References 85 publications

Myctophid Fish (Family Myctophidae) Are Central Consumers in the Food Web of the Scotia Sea (Southern Ocean)

Myctophid Fish (Family Myctophidae) Are Central Consumers in the Food Web of the Scotia Sea (Southern Ocean)

Observations and models to support the first Marine Ecosystem Assessment for the Southern Ocean (MEASO)

Compensating Biases and a Noteworthy Success in the CMIP5 Representation of Antarctic Sea Ice Processes

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