Mapping oysters on the Pacific coast of North America: A coast-wide collaboration to inform enhanced conservation

To conserve coastal foundation species, it is essential to understand patterns of distribution and abundance and how they change over time. We synthesized oyster distribution data across the west coast of North America to develop conservation strategies for the native Olympia oyster ( Ostrea lurida...

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Bibliographic Details
Published in:PLOS ONE
Main Authors: Kornbluth, Aaron, Perog, Bryce D., Crippen, Samantha, Zacherl, Danielle, Quintana, Brandon, Grosholz, Edwin D., Wasson, Kerstin
Other Authors: Bugnot, Ana Barbara, Pew Charitable Trusts
Format: Article in Journal/Newspaper
Language:English
Published: Public Library of Science (PLoS) 2022
Subjects:
Canada
Pacific
Pacific oyster
Online Access:http://dx.doi.org/10.1371/journal.pone.0263998
https://dx.plos.org/10.1371/journal.pone.0263998
Description
Summary:To conserve coastal foundation species, it is essential to understand patterns of distribution and abundance and how they change over time. We synthesized oyster distribution data across the west coast of North America to develop conservation strategies for the native Olympia oyster ( Ostrea lurida ), and to characterize populations of the non-native Pacific oyster ( Magallana gigas ). We designed a user-friendly portal for data entry into ArcGIS Online and collected oyster records from unpublished data submitted by oyster experts and from the published literature. We used the resulting 2,000+ records to examine spatial and temporal patterns and made an interactive web-based map publicly available. Comparing records from pre-2000 vs. post-2000, we found that O . lurida significantly decreased in abundance and distribution, while M . gigas increased significantly. Currently the distribution and abundance of the two species are fairly similar, despite one species being endemic to this region since the Pleistocene, and the other a new introduction. We mapped the networks of sites occupied by oysters based on estimates of larval dispersal distance, and found that these networks were larger in Canada, Washington, and southern California than in other regions. We recommend restoration to enhance O . lurida , particularly within small networks, and to increase abundance where it declined. We also recommend restoring natural biogenic beds on mudflats and sandflats especially in the southern range, where native oysters are currently found most often on riprap and other anthropogenic structures. This project can serve as a model for collaborative mapping projects that inform conservation strategies for imperiled species or habitats.

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