BCO-DMO ERDDAP
Accessing BCO-DMO data |
log in
Brought to you by BCO-DMO |
Row Type | Variable Name | Attribute Name | Data Type | Value |
---|---|---|---|---|
attribute | NC_GLOBAL | access_formats | String | .htmlTable,.csv,.json,.mat,.nc,.tsv |
attribute | NC_GLOBAL | acquisition_description | String | Corals from different treatment scenarios were IPAMed every other week for the\nduration of the two-month long experiment. All fragments were subjected to a\nlight curve where the initial pulse represents the max Yield after dark\nacclimation and the subsequent electron transport rate (ETR) values are\nrecorded after the corals were exposed to increasing light intensities over\ntime.\\u00a0 |
attribute | NC_GLOBAL | awards_0_award_nid | String | 642851 |
attribute | NC_GLOBAL | awards_0_award_number | String | OCE-1452538 |
attribute | NC_GLOBAL | awards_0_data_url | String | http://www.nsf.gov/awardsearch/showAward?AWD_ID=1452538&HistoricalAwards=false |
attribute | NC_GLOBAL | awards_0_funder_name | String | NSF Division of Ocean Sciences |
attribute | NC_GLOBAL | awards_0_funding_acronym | String | NSF OCE |
attribute | NC_GLOBAL | awards_0_funding_source_nid | String | 355 |
attribute | NC_GLOBAL | awards_0_program_manager | String | Michael E. Sieracki |
attribute | NC_GLOBAL | awards_0_program_manager_nid | String | 50446 |
attribute | NC_GLOBAL | cdm_data_type | String | Other |
attribute | NC_GLOBAL | comment | String | Imaging Pulse Amplitude Modulator Fluorometer data \n PI: Erinn Muller \n data version: 2017-08-08 |
attribute | NC_GLOBAL | Conventions | String | COARDS, CF-1.6, ACDD-1.3 |
attribute | NC_GLOBAL | creator_email | String | info at bco-dmo.org |
attribute | NC_GLOBAL | creator_name | String | BCO-DMO |
attribute | NC_GLOBAL | creator_type | String | institution |
attribute | NC_GLOBAL | creator_url | String | https://www.bco-dmo.org/ |
attribute | NC_GLOBAL | data_source | String | extract_data_as_tsv version 2.3 19 Dec 2019 |
attribute | NC_GLOBAL | date_created | String | 2017-08-08T15:47:44Z |
attribute | NC_GLOBAL | date_modified | String | 2019-10-18T16:31:56Z |
attribute | NC_GLOBAL | defaultDataQuery | String | &time<now |
attribute | NC_GLOBAL | doi | String | 10.1575/1912/bco-dmo.712388.1 |
attribute | NC_GLOBAL | infoUrl | String | https://www.bco-dmo.org/dataset/712388 |
attribute | NC_GLOBAL | institution | String | BCO-DMO |
attribute | NC_GLOBAL | instruments_0_acronym | String | Fluorometer |
attribute | NC_GLOBAL | instruments_0_dataset_instrument_nid | String | 716201 |
attribute | NC_GLOBAL | instruments_0_description | String | A fluorometer or fluorimeter is a device used to measure parameters of fluorescence: its intensity and wavelength distribution of emission spectrum after excitation by a certain spectrum of light. The instrument is designed to measure the amount of stimulated electromagnetic radiation produced by pulses of electromagnetic radiation emitted into a water sample or in situ. |
attribute | NC_GLOBAL | instruments_0_instrument_external_identifier | String | https://vocab.nerc.ac.uk/collection/L05/current/113/ |
attribute | NC_GLOBAL | instruments_0_instrument_name | String | Fluorometer |
attribute | NC_GLOBAL | instruments_0_instrument_nid | String | 484 |
attribute | NC_GLOBAL | instruments_0_supplied_name | String | IPAM MAXI/L Fluorometer with the IMAG-K6 camera |
attribute | NC_GLOBAL | keywords | String | alpha, available, bco, bco-dmo, biological, chemical, data, dataset, date, dmo, erddap, etr, genotype, management, mETR, mPAR, mYield, oceanography, office, par, photosynthetically, preliminary, radiation, tank, time, yield |
attribute | NC_GLOBAL | license | String | https://www.bco-dmo.org/dataset/712388/license |
attribute | NC_GLOBAL | metadata_source | String | https://www.bco-dmo.org/api/dataset/712388 |
attribute | NC_GLOBAL | param_mapping | String | {'712388': {}} |
attribute | NC_GLOBAL | parameter_source | String | https://www.bco-dmo.org/mapserver/dataset/712388/parameters |
attribute | NC_GLOBAL | people_0_affiliation | String | Mote Marine Laboratory |
attribute | NC_GLOBAL | people_0_affiliation_acronym | String | Mote |
attribute | NC_GLOBAL | people_0_person_name | String | Dr Erinn Muller |
attribute | NC_GLOBAL | people_0_person_nid | String | 642853 |
attribute | NC_GLOBAL | people_0_role | String | Principal Investigator |
attribute | NC_GLOBAL | people_0_role_type | String | originator |
attribute | NC_GLOBAL | people_1_affiliation | String | Woods Hole Oceanographic Institution |
attribute | NC_GLOBAL | people_1_affiliation_acronym | String | WHOI BCO-DMO |
attribute | NC_GLOBAL | people_1_person_name | String | Amber York |
attribute | NC_GLOBAL | people_1_person_nid | String | 643627 |
attribute | NC_GLOBAL | people_1_role | String | BCO-DMO Data Manager |
attribute | NC_GLOBAL | people_1_role_type | String | related |
attribute | NC_GLOBAL | project | String | Resilient Acerv |
attribute | NC_GLOBAL | projects_0_acronym | String | Resilient Acerv |
attribute | NC_GLOBAL | projects_0_description | String | ABSTRACT\nCaribbean staghorn coral was one of the most common corals within reefs of the Florida Keys several decades ago. Over the last 40 years disease, bleaching, overfishing and habitat degradation caused a 95% reduction of the population. Staghorn coral is now listed as threatened under the U.S. Endangered Species Act of 1973. Within the past few years, millions of dollars have been invested for the purpose of restoring the population of staghorn coral within Florida and the U.S. Virgin Islands. Significant effort has been placed on maintaining and propagating corals of known genotypes within coral nurseries for the purpose of outplanting. However, little is known about the individual genotypes that are currently being outplanted from nurseries onto coral reefs. Are the genotypes being used for outplanting resilient enough to survive the three major stressors affecting the population in the Florida Keys: disease, high water temperatures, and ocean acidification? The research within the present study will be the first step in answering this critically important question. The funded project will additionally develop a research-based afterschool program with K-12 students in the Florida Keys and U.S. Virgin Islands that emphasizes an inquiry-based curriculum, STEM research activities, and peer-to-peer mentoring. The information from the present study will help scientists predict the likelihood of species persistence within the lower Florida Keys under future climate-change and ocean-acidification scenarios. Results of this research will also help guide restoration efforts throughout Florida and the Caribbean, and lead to more informative, science-based restoration activities.\nAcropora cervicornis dominated shallow-water reefs within the Florida Keys for at least the last half a million years, but the population has recently declined due to multiple stressors. Understanding the current population level of resilience to three major threats - disease outbreaks, high water temperatures, and ocean acidification conditions - is critical for the preservation of this threatened species. Results from the present study will answer the primary research question: will representative genotypes from the lower Florida Keys provide enough phenotypic variation for this threatened species to survive in the future? The present proposal will couple controlled laboratory challenge experiments with field data and modeling applications, and collaborate with local educators to fulfill five objectives: 1) identify A. cervicornis genotypes resistant to disease, 2) identify A. cervicornis genotypes resilient to high water temperature and ocean acidification conditions, 3) quantify how high water temperature and ocean acidification conditions impact disease dynamics on A. cervicornis; 4) determine tradeoffs in life-history traits because of resilience factors; and 5) apply a trait-based model, which will predict genotypic structure of a population under different environmental scenarios. |
attribute | NC_GLOBAL | projects_0_end_date | String | 2020-05 |
attribute | NC_GLOBAL | projects_0_geolocation | String | Florida Keys, Summerland Key, FL 24.563595°, -81.278572° |
attribute | NC_GLOBAL | projects_0_name | String | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys |
attribute | NC_GLOBAL | projects_0_project_nid | String | 642850 |
attribute | NC_GLOBAL | projects_0_start_date | String | 2015-04 |
attribute | NC_GLOBAL | publisher_name | String | Biological and Chemical Oceanographic Data Management Office (BCO-DMO) |
attribute | NC_GLOBAL | publisher_type | String | institution |
attribute | NC_GLOBAL | sourceUrl | String | (local files) |
attribute | NC_GLOBAL | standard_name_vocabulary | String | CF Standard Name Table v55 |
attribute | NC_GLOBAL | summary | String | This dataset contains Imaging Pulse Amplitude Modulator (IPAM) Fluorometer data collected during various Acropora cervicornis treatment experiments. The data include photosynthetic maximum yield (mY), maximum electron transport rate (mETR), the irradiance at which maximum ETR is reached (mPAR), and the initial slope of the ETR curve (alpha). The experiments were conducted in tanks at Summerland Key, Florida (24.6616,-81.4538) between 2016-07-12 and 2016-09-09 with corals from a nursery located near Looe Key Reef (24.5636, -81.2786). |
attribute | NC_GLOBAL | title | String | [Imaging Pulse Amplitude Modulator Fluorometer Data 2016] - Imaging pulse amplitude modulator fluorometer data collected during Acropora cervicornis experiments at Summerland Key, Florida from July to September of 2016 (CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys) |
attribute | NC_GLOBAL | version | String | 1 |
attribute | NC_GLOBAL | xml_source | String | osprey2erddap.update_xml() v1.3 |
variable | Date | String | ||
attribute | Date | bcodmo_name | String | date |
attribute | Date | description | String | Day the measurement took place in format yyyy-mm-dd |
attribute | Date | long_name | String | Date |
attribute | Date | nerc_identifier | String | https://vocab.nerc.ac.uk/collection/P01/current/ADATAA01/ |
attribute | Date | source_name | String | Date |
attribute | Date | time_precision | String | 1970-01-01 |
attribute | Date | units | String | unitless |
variable | Genotype | byte | ||
attribute | Genotype | _FillValue | byte | 127 |
attribute | Genotype | actual_range | byte | 1, 67 |
attribute | Genotype | bcodmo_name | String | sample_descrip |
attribute | Genotype | description | String | Genotype number of the coral animal for each fragment |
attribute | Genotype | long_name | String | Genotype |
attribute | Genotype | units | String | unitless |
variable | Tank | byte | ||
attribute | Tank | _FillValue | byte | 127 |
attribute | Tank | actual_range | byte | 1, 20 |
attribute | Tank | bcodmo_name | String | tank |
attribute | Tank | description | String | Tank number that held the particular coral fragment |
attribute | Tank | long_name | String | Tank |
attribute | Tank | units | String | unitless |
variable | mYield | float | ||
attribute | mYield | _FillValue | float | NaN |
attribute | mYield | actual_range | float | 0.409, 0.714 |
attribute | mYield | bcodmo_name | String | photosynthesis |
attribute | mYield | description | String | Photosynthetic yield after dark acclimation |
attribute | mYield | long_name | String | M Yield |
attribute | mYield | units | String | unitless but represents the proportion of electrons being used for photosynthesis; potential values range from 0 - 1 |
variable | mETR | float | ||
attribute | mETR | _FillValue | float | NaN |
attribute | mETR | actual_range | float | 3.4, 32.7 |
attribute | mETR | bcodmo_name | String | unknown |
attribute | mETR | description | String | Maximum level of electron transport rate |
attribute | mETR | long_name | String | M ETR |
attribute | mETR | units | String | micromoles of electrons per meter per second (umol electrons/m/s) |
variable | mPAR | short | ||
attribute | mPAR | _FillValue | short | 32767 |
attribute | mPAR | actual_range | short | 55, 530 |
attribute | mPAR | bcodmo_name | String | PAR |
attribute | mPAR | description | String | Level of photosynthetically active radiation (PAR) at maximum electron transfer rate (ETR) |
attribute | mPAR | long_name | String | M PAR |
attribute | mPAR | units | String | micromoles of photons per meter per second (umol photons/m/s) |
variable | alpha | float | ||
attribute | alpha | _FillValue | float | NaN |
attribute | alpha | actual_range | float | 0.037, 0.164 |
attribute | alpha | bcodmo_name | String | alpha |
attribute | alpha | description | String | Slope of the electron transport rate (ETR); units represent the change in ETR over increasing values of PAR |
attribute | alpha | long_name | String | Alpha |
attribute | alpha | units | String | micromoles of electrons per meter per second (umol electrons/m/s) |