Downloadable DataNational Coral Reef Monitoring Program: Bioerosion Monitoring Unit Data from BMUs deployed at Bird Key Reef in Florida Keys National Marine Sanctuary from 2018-07-11 to 2021-06-26. (NCEI Accession 0276237)
Metadata Thumbnail Ocean Acidification (OA) is expected to reduce the calcification rates of marine organisms, yet we have little understanding of how OA will manifest within dynamic, real-world systems, nor how to accurately measure said manifestation. The term bioerosion...
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Downloadable DataNational Coral Reef Monitoring Program: Bioerosion Monitoring Unit Data from BMUs deployed at coral reef sites in Guam and the Commonwealth of the Northern Marianas Islands from 2014-04-20 to 2022-08-08 (NCEI Accession 0287028)
Metadata Thumbnail Ocean Acidification (OA) is expected to reduce the calcification rates of marine organisms, yet we have little understanding of how OA will manifest within dynamic, real-world systems, nor how to accurately measure said manifestation. The term bioerosion...
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Downloadable DataNational Coral Reef Monitoring Program: Bioerosion Monitoring Unit data from BMUs deployed at coral reef sites in Hawaiian Archipelago from 2016-08-07 to 2019-09-05. (NCEI Accession 0236235)
Metadata Thumbnail Ocean Acidification (OA) is expected to reduce the calcification rates of marine organisms, yet we have little understanding of how OA will manifest within dynamic, real-world systems, nor how to accurately measure said manifestation. The term bioerosion...
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Downloadable DataNational Coral Reef Monitoring Program: Bioerosion Monitoring Unit Data from BMUs deployed at Cheeca Rocks in Florida Keys National Marine Sanctuary from 2016-04-27 to 2020-01-07. (NCEI Accession 0244988)
Metadata Thumbnail Ocean Acidification (OA) is expected to reduce the calcification rates of marine organisms, yet we have little understanding of how OA will manifest within dynamic, real-world systems, nor how to accurately measure said manifestation. The term bioerosion...
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Downloadable DataImages of coral colonies sampled at four time points in 2019: July (prior to bleaching), August (during a coral bleaching event), October (during the post-bleaching recovery period), and December (a cool-water period in which corals had fully recovered from bleaching). (NCEI Accession 0243645)
Metadata Thumbnail Reef-building corals (Orbicella faveolata) were sampled at both inshore (The Rocks and Cheeca Rocks) and offshore reefs (Little Conch and Crocker Reef) under Florida Keys National Marine Sanctuary (FKNMS) permit FKNMS-2019-067 to develop molecular biomark...
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Downloadable DataDifferential proteomic analysis of the massive star coral Orbicella faveolata exposed to experimentally elevated temperatures (NCEI Accession 0242879)
Metadata Thumbnail An inshore-to-offshore gradient in reef coral resilience to high temperatures exists in the Upper Florida Keys, with massive corals of the highly turbid nearshore reefs demonstrating higher capacity to resist summer bleaching than offshore conspecifics. A...
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Downloadable DataTowards predicting coral fate with a molecular biotechnology+machine-learning approach. (NCEI Accession 0254274)
Metadata Thumbnail Given the widespread decline of coral reefs across the globe on account of climate change-induced rises in seawater temperature, a series of temperature-focused models have been generated to predict when and where bleaching events may occur (e.g., NOAA’s ...
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