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Row Type | Variable Name | Attribute Name | Data Type | Value |
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attribute | NC_GLOBAL | access_formats | String | .htmlTable,.csv,.json,.mat,.nc,.tsv |
attribute | NC_GLOBAL | acquisition_description | String | Prorocentrum minimum culturing: All cultures were maintained routinely in\nF/2-Si in 32 PSU seawater, at 18C and 14:10 light:dark cycle at 50 uE (u =\nmicro). All cultures were transferred once every two weeks.\\u00a0\n \nAt each time point, 2 ml of cells were removed from experimental culture\nflasks and preserved with gluteraldehyde (1% final concentration) and stored\nat 4C until used to make microscopy slides. To make slides, 1 ml of preserved\nsample was filtered onto a black 2 um nucleopore polycarbonate filter, and\nthen mounted on a glass microscope slide with fluorescence grade immersion\noil. Slides were then counted using fluorescence microscopy and stored at\n-20C.\n \nCulturing and experimental methods can be found in Johnson 2015. |
attribute | NC_GLOBAL | awards_0_award_nid | String | 615829 |
attribute | NC_GLOBAL | awards_0_award_number | String | OCE-1436169 |
attribute | NC_GLOBAL | awards_0_data_url | String | http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1436169 |
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 | Pmin strain feeding \n Data from experiment measuring feeding among 4 Prorocentrum minimum \n strains on the cryptophyte Teleaulax amphoxeia \n PI: Matthew D. Johnson (WHOI) \n Version date: 06 December 2018 |
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 | 2018-12-04T20:18:51Z |
attribute | NC_GLOBAL | date_modified | String | 2019-03-15T15:32:39Z |
attribute | NC_GLOBAL | defaultDataQuery | String | &time<now |
attribute | NC_GLOBAL | doi | String | 10.1575/1912/bco-dmo.750795.1 |
attribute | NC_GLOBAL | infoUrl | String | https://www.bco-dmo.org/dataset/750795 |
attribute | NC_GLOBAL | institution | String | BCO-DMO |
attribute | NC_GLOBAL | instruments_0_dataset_instrument_nid | String | 750814 |
attribute | NC_GLOBAL | instruments_0_description | String | Instruments that generate enlarged images of samples using the phenomena of fluorescence and phosphorescence instead of, or in addition to, reflection and absorption of visible light. Includes conventional and inverted instruments. |
attribute | NC_GLOBAL | instruments_0_instrument_external_identifier | String | https://vocab.nerc.ac.uk/collection/L05/current/LAB06/ |
attribute | NC_GLOBAL | instruments_0_instrument_name | String | Microscope-Fluorescence |
attribute | NC_GLOBAL | instruments_0_instrument_nid | String | 695 |
attribute | NC_GLOBAL | keywords | String | bco, bco-dmo, biological, chemical, count, culture, data, dataset, dmo, erddap, management, oceanography, office, ofi, pmin, Pmin_COUNT, Pmin_OFI_COUNT, preliminary, rep, time, time2 |
attribute | NC_GLOBAL | license | String | https://www.bco-dmo.org/dataset/750795/license |
attribute | NC_GLOBAL | metadata_source | String | https://www.bco-dmo.org/api/dataset/750795 |
attribute | NC_GLOBAL | param_mapping | String | {'750795': {}} |
attribute | NC_GLOBAL | parameter_source | String | https://www.bco-dmo.org/mapserver/dataset/750795/parameters |
attribute | NC_GLOBAL | people_0_affiliation | String | Woods Hole Oceanographic Institution |
attribute | NC_GLOBAL | people_0_affiliation_acronym | String | WHOI |
attribute | NC_GLOBAL | people_0_person_name | String | Matthew D. Johnson |
attribute | NC_GLOBAL | people_0_person_nid | String | 51232 |
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 | Shannon Rauch |
attribute | NC_GLOBAL | people_1_person_nid | String | 51498 |
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 | Mixo Foodwebs |
attribute | NC_GLOBAL | projects_0_acronym | String | Mixo Foodwebs |
attribute | NC_GLOBAL | projects_0_description | String | Marine phytoplankton are responsible for about half of global primary production despite being seasonally or chronically nutrient limited. To cope with this, many phytoplankton supplement their nutritional needs through mixotrophy, which involves feeding on bacteria or other algae. These microscopic Venus Fly Traps of the ocean are major players in marine microbial food webs, yet we know so little about when they feed and how their eating is balanced with photosynthesis. This research will shed light on how environmental and cellular factors control mixotrophy, and how mixotrophy and photosynthesis are integrated in the overall metabolism. While understanding the ecological role of mixotrophy in ocean food webs is center to this work, results from this study will also shed light on the evolution of mixotrophy by identifying potential tradeoffs between feeding and photosynthesis.\nMixotrophy refers to species that combine some level of phagotrophy and phototrophy, and represents a diverse array of ecological interactions and cellular and metabolic adaptations. While often perceived as an exception to the norm, mixotrophy is commonplace in marine food webs, affording phytoplankton greater ecological fitness during periods of low or limiting nutrients while stabilizing food webs. Many mixotrophs have a low chlorophyll: carbon ratio, which tends to make them poor phototrophic competitors. In turn, feeding allows these species to achieve maximum growth while in some cases also eliminating their competitors. Other mixotrophs are strong phototrophic competitors, and only feed when severely nutrient limited. This research will determine the cellular and environmental factors that lead to feeding by marine phytoplankton, and how the contrasting metabolisms of heterotrophy and photosynthesis are integrated within a cell. This research will involve laboratory-based experiments on model dinoflagellate and chrysophyte cultures. Using microscopy, physiology, proteomics and metabolomics approaches, this work will test hypotheses about the ultimate causes and consequences of mixotrophy. The major objectives are to determine 1) environmental controls for inducing mixotrophy, 2) the role of prey quality on predator selection, 3) cellular and molecular controls of mixotrophy, and 4) nutrient assimilation and integrated metabolism. Using these various research approaches, this work will produce a comprehensive view of several mixotrophs and provide new insights into cellular, ecological, and evolutionary aspects of mixotrophy. Results from this research will improve our understanding of the physiological and ecological role of mixotrophy in marine phytoplankton, and provide much needed molecular markers for studying this process in both the laboratory and field. |
attribute | NC_GLOBAL | projects_0_end_date | String | 2017-09 |
attribute | NC_GLOBAL | projects_0_geolocation | String | laboratory: Woods Hole, Mass. USA |
attribute | NC_GLOBAL | projects_0_name | String | Exploring the physiological and ecological basis of mixotrophy in marine food webs |
attribute | NC_GLOBAL | projects_0_project_nid | String | 615830 |
attribute | NC_GLOBAL | projects_0_start_date | String | 2014-10 |
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 data from an experiment that measured the occurrence of feeding among 4 Prorocentrum minimum strains on the cryptophyte Teleaulax amphoxeia. |
attribute | NC_GLOBAL | title | String | [Pmin strain feeding] - Data from an experiment that measured the occurrence of feeding among 4 Prorocentrum minimum strains on the cryptophyte Teleaulax amphoxeia (Exploring the physiological and ecological basis of mixotrophy in marine food webs) |
attribute | NC_GLOBAL | version | String | 1 |
attribute | NC_GLOBAL | xml_source | String | osprey2erddap.update_xml() v1.3 |
variable | CULTURE | String | ||
attribute | CULTURE | bcodmo_name | String | sample |
attribute | CULTURE | description | String | Prorocentrum minimum culture strain name |
attribute | CULTURE | long_name | String | CULTURE |
attribute | CULTURE | nerc_identifier | String | https://vocab.nerc.ac.uk/collection/P02/current/ACYC/ |
attribute | CULTURE | units | String | unitless |
variable | time2 | short | ||
attribute | time2 | _FillValue | short | 32767 |
attribute | time2 | actual_range | short | 5, 1320 |
attribute | time2 | bcodmo_name | String | time_elapsed |
attribute | time2 | description | String | Sample time |
attribute | time2 | long_name | String | TIME |
attribute | time2 | nerc_identifier | String | https://vocab.nerc.ac.uk/collection/P01/current/ELTMZZZZ/ |
attribute | time2 | units | String | minutes |
variable | REP | byte | ||
attribute | REP | _FillValue | byte | 127 |
attribute | REP | actual_range | byte | 1, 3 |
attribute | REP | bcodmo_name | String | replicate |
attribute | REP | description | String | Replicate for each strain (treatment) n=3 |
attribute | REP | long_name | String | REP |
attribute | REP | units | String | unitless |
variable | Pmin_COUNT | short | ||
attribute | Pmin_COUNT | _FillValue | short | 32767 |
attribute | Pmin_COUNT | actual_range | short | 165, 545 |
attribute | Pmin_COUNT | bcodmo_name | String | count |
attribute | Pmin_COUNT | colorBarMaximum | double | 100.0 |
attribute | Pmin_COUNT | colorBarMinimum | double | 0.0 |
attribute | Pmin_COUNT | description | String | Total number of P. minimum cells counted |
attribute | Pmin_COUNT | long_name | String | Pmin COUNT |
attribute | Pmin_COUNT | units | String | unitless |
variable | OFI | short | ||
attribute | OFI | _FillValue | short | 32767 |
attribute | OFI | actual_range | short | 0, 155 |
attribute | OFI | bcodmo_name | String | count |
attribute | OFI | description | String | Number of orange fluorescent inclusions (OFIs); OFIs are food vacuoles from ingesting phycoerythrin-containing cryptophyte prey |
attribute | OFI | long_name | String | OFI |
attribute | OFI | units | String | unitless |
variable | Pmin_OFI_COUNT | byte | ||
attribute | Pmin_OFI_COUNT | _FillValue | byte | 127 |
attribute | Pmin_OFI_COUNT | actual_range | byte | 0, 43 |
attribute | Pmin_OFI_COUNT | bcodmo_name | String | count |
attribute | Pmin_OFI_COUNT | colorBarMaximum | double | 100.0 |
attribute | Pmin_OFI_COUNT | colorBarMinimum | double | 0.0 |
attribute | Pmin_OFI_COUNT | description | String | Total number of P. minimum cells with OFIs |
attribute | Pmin_OFI_COUNT | long_name | String | Pmin OFI COUNT |
attribute | Pmin_OFI_COUNT | units | String | unitless |