Thin-layer sediment placement (TLP) is a promising management tool for enhancing tidal marsh resilience to rising seas.
Resources
Resources
A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
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A peer-reviewed article describing several of the biosensor tools and the design process used to build them, as part of the 2021 Collaborative Research project incorporating bivalve biosensors into estuary monitoring infrastructure.
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This 2021 article which appeared in Estuaries and Coasts provides a synthesis of native oyster restoration projects conducted from California, USA, to British Columbia, Canada.
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This climate adaptation planning toolkit compiles lessons learned by five National Estuarine Research Reserves. It is designed to help communities set goals and identify specific indicators to evaluate progress toward a climate resilient future.
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The Native Olympia Oyster Collaborative is a coastwide network from Baja California to British Columbia to conserve and rebuild West coast native oyster populations.
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This paper, published in Biological Conservation, describes an innovative approach developed by the NERRS to evaluate the ability of tidal marshes to thrive as sea levels rise.
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This paper details findings presented at the U.S.-Iran Symposium on Wetlands in March 2016 about the increasing watershed influence and hypo-salinity in Los Penasquitos Lagoon.
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This 2017 article appeared in the journal Ecology, and presents findings from a study assessing the individual and synergistic effects of air temperature and salinity on Olympia oyster mortality across temporal patterns that accurately reflect the natural environment.
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This 2016 journal article was published in Proceedings of the Royal Society B. The study highlights how extreme precipitation events in 2011 may have contributed to near 100% mass mortality of wild oysters in northern San Francisco Bay.
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This journal article was published in Estuaries and Coasts in 2016, and decribes a study of how seasonal changes in temperature and salinity impact larval Olympia oyster recruitment across a range of sites and time intervals.