Lynne J. Shannon scite author profile

Determining the form of key predator-prey relationships is critical for understanding marine ecosystem dynamics. Using a comprehensive global database, we quantified the effect of fluctuations in food abundance on seabird breeding success. We identified a threshold in prey (fish and krill, termed "forage fish") abundance below which seabirds experience consistently reduced and more variable productivity. This response was common to all seven ecosystems and 14 bird species examined within the Atlantic, Pacific, and Southern Oceans. The threshold approximated one-third of the maximum prey biomass observed in long-term studies. This provides an indicator of the minimal forage fish biomass needed to sustain seabird productivity over the long term.

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Impacts of Fishing Low–Trophic Level Species on Marine Ecosystems

Smith¹,

Brown

Bulman³

et al. 2011

Science

475

409

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Low-trophic level species account for more than 30% of global fisheries production and contribute substantially to global food security. We used a range of ecosystem models to explore the effects of fishing low-trophic level species on marine ecosystems, including marine mammals and seabirds, and on other commercially important species. In five well-studied ecosystems, we found that fishing these species at conventional maximum sustainable yield (MSY) levels can have large impacts on other parts of the ecosystem, particularly when they constitute a high proportion of the biomass in the ecosystem or are highly connected in the food web. Halving exploitation rates would result in much lower impacts on marine ecosystems while still achieving 80% of MSY.

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The Benguela Current: An ecosystem of four components

Hutchings

Lingen

Shannon

et al. 2009

Progress in Oceanography

355

316

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End‐To‐End Models for the Analysis of Marine Ecosystems: Challenges, Issues, and Next Steps

et al. 2010

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There is growing interest in models of marine ecosystems that deal with the effects of climate change through the higher trophic levels. Such end-to-end models combine physicochemical oceanographic descriptors and organisms ranging from microbes to higher-trophic-level (HTL) organisms, including humans, in a single modeling framework. The demand for such approaches arises from the need for quantitative tools for ecosystem-based management, particularly models that can deal with bottom-up and top-down controls that operate simultaneously and vary in time and space and that are capable of handling the multiple impacts expected under climate change. End-to-end models are now feasible because of improvements in the component submodels and the availability of sufficient computing power. We discuss nine issues related to the development of end-to-end models. These issues relate to formulation of the zooplankton submodel, melding of multiple temporal and spatial scales, acclimation and adaptation, behavioral movement, software and technology, model coupling, skill assessment, and interdisciplinary challenges. We urge restraint in using end-to-end models in a true forecasting mode until we know more about their performance. End-to-end models will challenge the available data and our ability to analyze and interpret complicated models that generate complex behavior. End-to-end modeling is in its early developmental stages and thus presents an opportunity to establish an open-access, community-based approach supported by a suite of true interdisciplinary efforts

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Next-generation ensemble projections reveal higher climate risks for marine ecosystems

et al. 2021

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Projections of climate change impacts on marine ecosystems have revealed long-term declines in global marine animal biomass and unevenly distributed impacts on fisheries. Here we apply an enhanced suite of global marine ecosystem models from the Fisheries and Marine Ecosystem Model Intercomparison Project (Fish-MIP), forced by new-generation Earth system model outputs from Phase 6 of the Coupled Model Intercomparison Project (CMIP6), to provide insights into how projected climate change will affect future ocean ecosystems. Compared with the previous generation CMIP5-forced Fish-MIP ensemble, the new ensemble ecosystem simulations show a greater decline in mean global ocean animal biomass under both strong-mitigation and high-emissions scenarios due to elevated warming, despite greater uncertainty in net primary production in the high-emissions scenario. Regional shifts in the direction of biomass changes highlight the continued and urgent need to reduce uncertainty in the projected responses of marine ecosystems to climate change to help support adaptation planning.

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Trophic flows in the southern Benguela during the 1980s and 1990s

Shannon

Moloney

Jarre

et al. 2003

Journal of Marine Systems

159

100

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Regime shifts in upwelling ecosystems: observed changes and possible mechanisms in the northern and southern Benguela

Cury

Shannon²

2004

Progress in Oceanography

190

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Lynne J. Shannon

Small pelagics in upwelling systems: patterns of interaction and structural changes in “wasp-waist” ecosystems

Global Seabird Response to Forage Fish Depletion—One-Third for the Birds

Impacts of Fishing Low–Trophic Level Species on Marine Ecosystems

The Benguela Current: An ecosystem of four components

End‐To‐End Models for the Analysis of Marine Ecosystems: Challenges, Issues, and Next Steps

Next-generation ensemble projections reveal higher climate risks for marine ecosystems

Trophic flows in the southern Benguela during the 1980s and 1990s

Regime shifts in upwelling ecosystems: observed changes and possible mechanisms in the northern and southern Benguela

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