Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Name: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016
Published: 2020-07-29
Keywords: biota, oceans

Final no updates expectedDOI: 10.26008/1912/bco-dmo.821783.1Version 1 (2020-07-29)Dataset Type:Other Field Results

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, Florida, July-August 2016

Cite Dataset

Spatial Extent: N:29.97 E:-84.33 S:29.67 W:-85.18
Temporal Extent: 2016-07-01 - 2016-08-31

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Oysters size and presence or absence of disease from surveys at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, Florida, July-August 2016

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Methods

Hanley, T., White, J., Stallings, C., & Kimbro, D. (2019). Environmental gradients shape the combined effects of multiple parasites on oyster hosts in the northern Gulf of Mexico. Marine Ecology Progress Series, 612, 111–125. doi:10.3354/meps12849

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Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Final no updates expectedDOI: 10.26008/1912/bco-dmo.821783.1Version 1 (2020-07-29)Dataset Type:Other Field Results

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, Florida, July-August 2016

Cite Dataset

Spatial Extent: N:29.97 E:-84.33 S:29.67 W:-85.18
Temporal Extent: 2016-07-01 - 2016-08-31

XXX

Views

XX

Downloads

X

Citations

Oysters size and presence or absence of disease from surveys at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, Florida, July-August 2016

Related Datasets

No Related Datasets

Related Publications

Methods

File(s)	Type	Description	Action
survey_disease_oysters.csv (52.21 KB)	Comma Separated Values (.csv)	Primary data file for dataset ID 821783	Download

Supplemental File(s)	Type	Description	Action
Habitat_and_species_codes.pdf (449.38 KB)	Portable Document Format (.pdf)	Habitat and species codes used in the project	Download

File(s)	Type	Description	Action
survey_disease_oysters.csv (52.21 KB)	Comma Separated Values (.csv)	Primary data file for dataset ID 821783	Download

Supplemental File(s)	Type	Description	Action
Habitat_and_species_codes.pdf (449.38 KB)	Portable Document Format (.pdf)	Habitat and species codes used in the project	Download

Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

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XX

X

Files

Supplemental Files

Related Datasets

Related Publications

Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

XXX

XX

X

Files

Supplemental Files

Related Datasets

Related Publications

Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

Metadata

XXX

XX

X

Files

Supplemental Files

Related Datasets

Related Publications

Dataset: Oysters size and presence or absence of disease at intertidal and subtidal reefs in Apalachicola Bay and Ocholckonee Bays, FL, July-August 2016

Principal Investigator: David L. Kimbro (Northeastern University)

Co-Principal Investigator: Christopher D. Stallings (University of South Florida)

Co-Principal Investigator: J. Wilson White (Oregon State University)

BCO-DMO Data Manager: Nancy Copley (Woods Hole Oceanographic Institution)

Project: Collaborative Research: RAPID: Quantifying mechanisms by which Hurricane Michael facilitates a stable-state reversal on oyster reefs (Oyster Reef Reversal)

Abstract

Metadata

XXX

XX

X

Files

Supplemental Files

Related Datasets

Related Publications