Affiliation:
1. Fisheries and Oceans Canada Bedford Institute of Oceanography Dartmouth Nova Scotia Canada
2. Department of Engineering Mathematics and Internetworking, Department of Oceanography Dalhousie University Halifax Nova Scotia Canada
3. Department of Biological Sciences University of Manitoba Winnipeg Manitoba Canada
4. Fisheries and Oceans Canada Pacific Biological Station Nanaimo British Columbia Canada
Abstract
AbstractAimWe assess the role of contemporary oceanography and species traits in shaping observed patterns of biogeography over broad spatial scales.LocationOur study domain covers the east and west coasts of North America, from 30° to 73° N on the east coast and 33° to 73° N on the west coast.Time periodHydrodynamic models use climatological fields from 1990 to 2015 on the east coast, and 1993 to 2018 on the west coast.Major taxa studiedModel simulations represent larval dispersal for generalized benthic invertebrate species distributed in the subtidal zone from 10 to 100 m depth, with planktonic larval durations ranging from 21–60 days.MethodsWe conducted a literature review to identify major biogeographic barriers along the east and west coasts of North America, and then assessed the permeability of these barriers to larval dispersal using Lagrangian particle tracking. We ran a series of simulations in which we varied the suitable habitat distribution, planktonic larval duration, and spawning seasonality of simulated larvae (i.e., particles) to assess the effects of species traits on biogeography.ResultsOur results showed a strong alignment of observed biogeographic barriers with larval dispersal patterns, with high variation in barrier permeability depending on the traits of the species considered. The location of suitable habitat and the season during which particle release occurred were the biological traits that drove much of the variation in barrier permeability among simulations on both coasts.Main conclusionsOur results indicate an important role of contemporary oceanographic and geographic features in determining the biogeography of species whose primary dispersal is during larval stages, suggesting that climate change is likely to alter patterns of species biogeography. Our results also demonstrate that species traits play a strong role in determining the location and strength of biogeographic barriers.
Funder
Fisheries and Oceans Canada
Subject
Ecology,Ecology, Evolution, Behavior and Systematics,Global and Planetary Change
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献