Integrating Biodiversity and Environmental Observations in Support of National Marine Sanctuary and Large Marine Ecosystem Assessments

Ruhl, Henry; Mbari,; Brown, Jennifer; Harper, Alexandra; Hazen, Elliot; deWitt, Lynn; Daniel, Patrick; DeVogelaere, Andrew; Kudela, Raphael M.; Ryan, John Charles; Fischer, A.; Estes, Maurice G.; Chávez, Francisco

doi:10.5670/oceanog.2021.221

Cited by 2 publications

(1 citation statement)

References 56 publications

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“…By including both discrete and validated autonomous sensor observations across depths and targeting all carbonate system and OAH-relevant parameters, this synthesis can complement the strengths of tightly focused compilations such as SOCAT (Bakker et al, 2016) and CODAP-NA (Jiang et al, 2021). Additionally, by applying uniform QC standards and formatting to data across the CCS, this compilation builds on the usability, reliability, and spatiotemporal scale of currently available public nearshore compilations (e.g., Ruhl et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

A high-resolution synthesis dataset for multistressor analyses along the US West Coast

Kennedy,

Zulian,

Hamilton

et al. 2024

Earth Syst. Sci. Data

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Abstract. Global trends of ocean warming, deoxygenation, and acidification are not easily extrapolated to coastal environments. Local factors, including intricate hydrodynamics, high primary productivity, freshwater inputs, and pollution, can exacerbate or attenuate global trends and produce complex mosaics of physiologically stressful or favorable conditions for organisms. In the California Current System (CCS), coastal oceanographic monitoring programs document some of this complexity; however, data fragmentation and limited data availability constrain our understanding of when and where intersecting stressful temperatures, carbonate system conditions, and reduced oxygen availability manifest. Here, we undertake a large data synthesis to compile, format, and quality-control publicly available oceanographic data from the US West Coast to create an accessible database for coastal CCS climate risk mapping, available from the National Centers for Environmental Information (accession 0277984) at https://doi.org/10.25921/2vve-fh39 (Kennedy et al., 2023). With this synthesis, we combine publicly available observations and data contributed by the author team from synoptic oceanographic cruises, autonomous sensors, and shore samples with relevance to coastal ocean acidification and hypoxia (OAH) risk. This large-scale compilation includes 13.7 million observations from 66 sources and spans 1949 to 2020. Here, we discuss the quality and composition of the synthesized dataset, the spatial and temporal distribution of available data, and examples of potential analyses. This dataset will provide a valuable tool for scientists supporting policy- and management-relevant investigations including assessing regional and local climate risk, evaluating the efficacy and completeness of CCS monitoring efforts, and elucidating spatiotemporal scales of coastal oceanographic variability.

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Section: Introductionmentioning

confidence: 99%

A high-resolution synthesis dataset for multistressor analyses along the US West Coast

Kennedy,

Zulian,

Hamilton

et al. 2024

Earth Syst. Sci. Data

View full text Add to dashboard Cite

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Building on a human-centred, iterative, and agile co-design strategy to facilitate the availability of deep ocean data

LaScala-Gruenewald

Low

Barry

et al. 2022

ICES Journal of Marine Science

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Current information on the status and trends of ocean change is needed to support effective and responsive management, particularly for the deep ocean. Creating consistent, collaborative and actionable mechanisms is a key component of the Deep Ocean Observing Strategy, a program of the United Nations Decade of Ocean Science for Sustainable Development. Here, we share an iterative, agile, and human-centred approach to co-designing datastreams for deep-sea indicators that serves stakeholders, including US National Marine Sanctuaries, presented as a four-phase project roadmap initially focused on the Monterey Bay National Marine Sanctuary, and then generalized to other areas such as the US West Coast, offshore wind development areas, and managed marine spaces globally. Ongoing efforts to provide key physical, biogeochemical, biological, and ecosystem variables for California's Marine Protected Areas are informing this co-design process. We share lessons learned so far and present co-design as a useful tool for (1) assessing the availability of information from deep ecosystems, (2) ensuring interoperability, and (3) providing essential information on the status and trends of indicators. Documenting and sharing this co-design strategy and scalable four-phase roadmap will further the aims of DOOS and other initiatives, including the Deep Ocean Stewardship Initiative and Challenger 150.

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Integrating Biodiversity and Environmental Observations in Support of National Marine Sanctuary and Large Marine Ecosystem Assessments

Cited by 2 publications

References 56 publications

A high-resolution synthesis dataset for multistressor analyses along the US West Coast

A high-resolution synthesis dataset for multistressor analyses along the US West Coast

Building on a human-centred, iterative, and agile co-design strategy to facilitate the availability of deep ocean data

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