Vulnerability to climate change of United States marine mammal stocks in the western North Atlantic, Gulf of Mexico, and Caribbean

Matthew D. Lettrich; Michael J. Asaro; Diane Borggaard; Dorothy M. Dick; Roger B. Griffis; Jenny A. Litz; Christopher Orphanides; Debra L. Palka; Melissa S. Soldevilla; Brian C. Balmer; Samuel Chavez; Danielle Cholewiak; Diane Claridge; Ruth Y. Ewing; Kristi L. Fazioli; Dagmar Fertl; Erin Fougeres; Damon P. Gannon; Lance Garrison; James R. Gilbert; Antoinette M. Gorgone; Aleta A. Hohn; Stacey Horstman; Beth Josephson; Robert D. Kenney; Jérémy J. Kiszka; Katherine Maze-Foley; Wayne E. McFee; Keith D. Mullin; Kimberly T. Murray; Daniel E. Pendleton; Jooke Robbins; Jason J. Roberts; Grisel Rodríguez Ferrer; Errol I. Ronje; Patricia E. Rosel; Todd Speakman; Joy E. Stanistreet; Tara S. Stevens; Megan Stolen; Reny B. Tyson; Nicole L. Vollmer; Randall S. Wells; Heidi R. Whitehead; Amy Whitt

doi:10.1371/journal.pone.0290643

Vulnerability to climate change of United States marine mammal stocks in the western North Atlantic, Gulf of Mexico, and Caribbean

Matthew D. Lettrich(NOAA National Marine Fisheries Service), Michael J. Asaro(NOAA National Marine Fisheries Service), Diane Borggaard(NOAA National Marine Fisheries Service), Dorothy M. Dick(NOAA National Marine Fisheries Service), Roger B. Griffis(NOAA National Marine Fisheries Service), Jenny A. Litz(NOAA National Marine Fisheries Service), Christopher Orphanides(NOAA National Marine Fisheries Service), Debra L. Palka(NOAA National Marine Fisheries Service), Melissa S. Soldevilla(NOAA National Marine Fisheries Service), Brian C. Balmer, Samuel Chavez(Integrated Statistics (United States)), Danielle Cholewiak(NOAA National Marine Fisheries Service), Diane Claridge(Bahamas Marine Mammal Research Organisation), Ruth Y. Ewing(NOAA National Marine Fisheries Service), Kristi L. Fazioli(University of Houston - Clear Lake), Dagmar Fertl, Erin Fougeres(NOAA National Marine Fisheries Service), Damon P. Gannon(University of Georgia), Lance Garrison(NOAA National Marine Fisheries Service), James R. Gilbert(University of Maine), Antoinette M. Gorgone(NOAA National Marine Fisheries Service), Aleta A. Hohn(NOAA National Marine Fisheries Service), Stacey Horstman(NOAA National Marine Fisheries Service), Beth Josephson(Integrated Statistics (United States)), Robert D. Kenney(University of Rhode Island), Jérémy J. Kiszka(Florida International University), Katherine Maze-Foley(NOAA National Marine Fisheries Service), Wayne E. McFee(National Oceanic and Atmospheric Administration), Keith D. Mullin(NOAA National Marine Fisheries Service), Kimberly T. Murray(NOAA National Marine Fisheries Service), Daniel E. Pendleton(New England Aquarium), Jooke Robbins(Center for Coastal Studies), Jason J. Roberts(Duke University), Grisel Rodríguez Ferrer(University of Puerto Rico-Mayaguez), Errol I. Ronje(Stennis Space Center), Patricia E. Rosel(NOAA National Marine Fisheries Service), Todd Speakman(National Marine Mammal Foundation), Joy E. Stanistreet(Fisheries and Oceans Canada), Tara S. Stevens, Megan Stolen, Reny B. Tyson(Chicago Zoological Society), Nicole L. Vollmer(NOAA National Marine Fisheries Service), Randall S. Wells(Chicago Zoological Society), Heidi R. Whitehead(Texas Marine Mammal Stranding Network), Amy Whitt

PLoS ONE

September 20, 2023

10.1371/journal.pone.0290643

Cited by 28Open Access

Full Text

Abstract

Climate change and climate variability are affecting marine mammal species and these impacts are projected to continue in the coming decades. Vulnerability assessments provide a framework for evaluating climate impacts over a broad range of species using currently available information. We conducted a trait-based climate vulnerability assessment using expert elicitation for 108 marine mammal stocks and stock groups in the western North Atlantic, Gulf of Mexico, and Caribbean Sea. Our approach combined the exposure (projected change in environmental conditions) and sensitivity (ability to tolerate and adapt to changing conditions) of marine mammal stocks to estimate vulnerability to climate change, and categorize stocks with a vulnerability index. The climate vulnerability score was very high for 44% (n = 47) of these stocks, high for 29% (n = 31), moderate for 20% (n = 22), and low for 7% (n = 8). The majority of stocks (n = 78; 72%) scored very high exposure, whereas 24% (n = 26) scored high, and 4% (n = 4) scored moderate. The sensitivity score was very high for 33% (n = 36) of these stocks, high for 18% (n = 19), moderate for 34% (n = 37), and low for 15% (n = 16). Vulnerability results were summarized for stocks in five taxonomic groups: pinnipeds (n = 4; 25% high, 75% moderate), mysticetes (n = 7; 29% very high, 57% high, 14% moderate), ziphiids (n = 8; 13% very high, 50% high, 38% moderate), delphinids (n = 84; 52% very high, 23% high, 15% moderate, 10% low), and other odontocetes (n = 5; 60% high, 40% moderate). Factors including temperature, ocean pH, and dissolved oxygen were the primary drivers of high climate exposure, with effects mediated through prey and habitat parameters. We quantified sources of uncertainty by bootstrapping vulnerability scores, conducting leave-one-out analyses of individual attributes and individual scorers, and through scoring data quality for each attribute. These results provide information for researchers, managers, and the public on marine mammal responses to climate change to enhance the development of more effective marine mammal management, restoration, and conservation activities that address current and future environmental variation and biological responses due to climate change.

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