Defining ecosystem thresholds for human activities and environmental pressures in the California Current
Jameal F. Samhouri,
Kelly S. Andrews,
Gavin Fay,
Chris J. Harvey,
Elliott L. Hazen,
Shannon M. Hennessey,
Kirstin Holsman,
Mary E. Hunsicker,
Scott I. Large,
Kristin N. Marshall,
Adrian C. Stier,
Jamie C. Tam,
Stephani G. Zador
Affiliations
Jameal F. Samhouri
Conservation Biology Division Northwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 2725 Montlake Boulevard Seattle Washington 98112 USA
Kelly S. Andrews
Conservation Biology Division Northwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 2725 Montlake Boulevard Seattle Washington 98112 USA
Gavin Fay
Department of Fisheries Oceanography School for Marine Science and Technology University of Massachusetts Dartmouth 200 Mill Road Fairhaven Massachusetts 02719 USA
Chris J. Harvey
Conservation Biology Division Northwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 2725 Montlake Boulevard Seattle Washington 98112 USA
Elliott L. Hazen
Environmental Research Division Southwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 99 Pacific Street, Suite 255A Monterey California 93940 USA
Shannon M. Hennessey
Department of Integrative Biology Oregon State University 3029 Cordley Hall Corvallis Oregon 97331 USA
Kirstin Holsman
Resource Ecology & Fisheries Management Division Alaska Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 7600 Sand Point Way N.E. Seattle Washington 98115 USA
Mary E. Hunsicker
Fish Ecology Division Northwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 2032 SE OSU Drive Newport Oregon 97365 USA
Scott I. Large
International Council for the Exploration of the Sea (ICES) H.C. Andersens Boulevard 44‐46 1553 Copenhagen V Denmark
Kristin N. Marshall
Conservation Biology Division Northwest Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 2725 Montlake Boulevard Seattle Washington 98112 USA
Adrian C. Stier
National Center for Ecological Analysis and Synthesis 735 State Street Santa Barbara California 93101 USA
Jamie C. Tam
Northeast Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 166 Water Street Woods Hole Massachusetts 02543 USA
Stephani G. Zador
Resource Ecology & Fisheries Management Division Alaska Fisheries Science Center National Marine Fisheries Service National Oceanic & Atmospheric Administration 7600 Sand Point Way N.E. Seattle Washington 98115 USA
Abstract The oceans are changing more rapidly than ever before. Unprecedented climatic variability is interacting with unmistakable long‐term trends, all against a backdrop of intensifying human activities. What remains unclear, however, is how to evaluate whether conditions have changed sufficiently to provoke major responses of species, habitats, and communities. We developed a framework based on multimodel inference to define ecosystem‐based thresholds for human and environmental pressures in the California Current marine ecosystem. To demonstrate how to apply the framework, we explored two decades of data using gradient forest and generalized additive model analyses, screening for nonlinearities and potential threshold responses of ecosystem states (n = 9) across environmental (n = 6) and human (n = 10) pressures. These analyses identified the existence of threshold responses of five ecosystem states to four environmental and two human pressures. Both methods agreed on threshold relationships in two cases: (1) the winter copepod anomaly and habitat modification, and (2) sea lion pup production and the summer mode of the Pacific Decadal Oscillation (PDO). Considered collectively, however, these alternative analytical approaches imply that as many as five of the nine ecosystem states may exhibit threshold changes in response to negative PDO values in the summer (copepods, scavengers, groundfish, and marine mammals). This result is consistent with the idea that the influence of the PDO extends across multiple trophic levels, but extends current knowledge by defining the nonlinear nature of these responses. This research provides a new way to interpret changes in the intensities of human and environmental pressures as they relate to the ecological integrity of the California Current ecosystem. These insights can be used to make more informed assessments of when and under what conditions intervention, preparation, and mitigation may enhance progress toward ecosystem‐based management goals.
