Ocean Futures Under Ocean Acidification, Marine Protection, and Changing Fishing Pressures Explored Using a Worldwide Suite of Ecosystem Models

Erik Olsen; Isaac C. Kaplan; Cameron Ainsworth; Gavin Fay; Sarah Gaichas; Robert Gamble; Raphael Girardin; Cecilie H. Eide; Thomas F. Ihde; Hem Nalini Morzaria-Luna; Hem Nalini Morzaria-Luna; Hem Nalini Morzaria-Luna; Kelli F. Johnson; Marie Savina-Rolland; Howard Townsend; Mariska Weijerman; Elizabeth A. Fulton; Elizabeth A. Fulton; Jason S. Link

doi:10.3389/fmars.2018.00064

Frontiers in Marine Science (Mar 2018)

Ocean Futures Under Ocean Acidification, Marine Protection, and Changing Fishing Pressures Explored Using a Worldwide Suite of Ecosystem Models

Erik Olsen,
Isaac C. Kaplan,
Cameron Ainsworth,
Gavin Fay,
Sarah Gaichas,
Robert Gamble,
Raphael Girardin,
Cecilie H. Eide,
Thomas F. Ihde,
Hem Nalini Morzaria-Luna,
Hem Nalini Morzaria-Luna,
Hem Nalini Morzaria-Luna,
Kelli F. Johnson,
Marie Savina-Rolland,
Howard Townsend,
Mariska Weijerman,
Elizabeth A. Fulton,
Elizabeth A. Fulton,
Jason S. Link

Affiliations

Erik Olsen: Institute of Marine Research, Bergen, Norway
Isaac C. Kaplan: Conservation Biology Division, Northwest Fisheries Science Center, National Marine Fisheries Service, NOAA, Seattle, WA, United States
Cameron Ainsworth: College of Marine Science, University of South Florida, St. Petersburg, FL, United States
Gavin Fay: Department of Fisheries Oceanography, School for Marine Science and Technology, University of Massachusetts Dartmouth, New Bedford, MA, United States
Sarah Gaichas: NOAA NMFS Northeast Fisheries Science Center, Woods Hole, MA, United States
Robert Gamble: NOAA NMFS Northeast Fisheries Science Center, Woods Hole, MA, United States
Raphael Girardin: Long Live the Kings, Northwest Fisheries Science Center, National Marine Fisheries Service, NOAA, Seattle, WA, United States
Cecilie H. Eide: Institute of Marine Research, Bergen, Norway
Thomas F. Ihde: PEARL, Morgan State University, St. Leonard, MD, United States
Hem Nalini Morzaria-Luna: CEDO Intercultural, Tucson, AZ, United States
Hem Nalini Morzaria-Luna: CEDO Intercultural, Puerto Peñasco, Mexico
Hem Nalini Morzaria-Luna: 0Northwest Resource Analysis and Monitoring Division, Northwest Fisheries Science Center, National Marine Fisheries Service, NOAA, Seattle, WA, United States
Kelli F. Johnson: 1Fishery Resource Analysis and Monitoring Division, Northwest Fisheries Science Center, National Marine Fisheries Service, NOAA, Seattle, WA, United States
Marie Savina-Rolland: 2French Research Institute for Exploitation of the Sea, Brest, France
Howard Townsend: 3Cooperative Oxford Lab, Office of Science and Technology, National Marine Fisheries Service, Oxford, MD, United States
Mariska Weijerman: 4Ecosystem Sciences Division, Pacific Islands Fisheries Science Center, National Marine Fisheries Services, NOAA, Honolulu, HI, United States
Elizabeth A. Fulton: 5CSIRO Oceans and Atmosphere, Hobart, TAS, Australia
Elizabeth A. Fulton: 6Centre for Marine Socioecology, University of Tasmania, Hobart, TAS, Australia
Jason S. Link: 7National Marine Fisheries Service (NMFS) - NOAA, Woods Hole, MA, United States

DOI: https://doi.org/10.3389/fmars.2018.00064
Journal volume & issue: Vol. 5

Abstract

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Ecosystem-based management (EBM) of the ocean considers all impacts on and uses of marine and coastal systems. In recent years, there has been a heightened interest in EBM tools that allow testing of alternative management options and help identify tradeoffs among human uses. End-to-end ecosystem modeling frameworks that consider a wide range of management options are a means to provide integrated solutions to the complex ocean management problems encountered in EBM. Here, we leverage the global advances in ecosystem modeling to explore common opportunities and challenges for ecosystem-based management, including changes in ocean acidification, spatial management, and fishing pressure across eight Atlantis (atlantis.cmar.csiro.au) end-to-end ecosystem models. These models represent marine ecosystems from the tropics to the arctic, varying in size, ecology, and management regimes, using a three-dimensional, spatially-explicit structure parametrized for each system. Results suggest stronger impacts from ocean acidification and marine protected areas than from altering fishing pressure, both in terms of guild-level (i.e., aggregations of similar species or groups) biomass and in terms of indicators of ecological and fishery structure. Effects of ocean acidification were typically negative (reducing biomass), while marine protected areas led to both “winners” and “losers” at the level of particular species (or functional groups). Changing fishing pressure (doubling or halving) had smaller effects on the species guilds or ecosystem indicators than either ocean acidification or marine protected areas. Compensatory effects within guilds led to weaker average effects at the guild level than the species or group level. The impacts and tradeoffs implied by these future scenarios are highly relevant as ocean governance shifts focus from single-sector objectives (e.g., sustainable levels of individual fished stocks) to taking into account competing industrial sectors' objectives (e.g., simultaneous spatial management of energy, shipping, and fishing) while at the same time grappling with compounded impacts of global climate change (e.g., ocean acidification and warming).

Published in Frontiers in Marine Science

ISSN: 2296-7745 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Natural history (General): General. Including nature conservation, geographical distribution
Website: https://www.frontiersin.org/journals/marine-science

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