| Contributors | Affiliation | Role |
|---|---|---|
| Ahlgren, Nathan A. | Clark University | Co-Principal Investigator |
| Marston, Marcia | Roger Williams University (RWU) | Co-Principal Investigator |
| Rauch, Shannon | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
Water was collected at the reported time, and water collection was in nearly all cases taken on the incoming tide. Water was collected from a dock in a 1 liter (L) bottle, from which water temperature, salinity, and chlorophyll a was measured. Water samples for macronutrients were also taken from the 1 L sample bottle and filtered through a 0.45-micrometer (µm) filter and collected in duplicate and stored in 60-milliliter (mL) HDPE bottles at -20 degrees Celsius before being sent for analysis. Macronutrients (silicate, orthophosphate, ammonium, nitrite, and nitrate + nitrite) were measured from duplicate samples by the Center for Coastal Studies using a nutrient autosampler system. Duplicate 1 mL water samples were preserved with 0.125% EM grade glutaldehyde and frozen and stored at -80 degrees Celsius for flow cyometry analysis at a later time. Water temperature and salinity were measured with certified instruments. In situ chlorophyll a was measured by reading fluorescence of a whole water sample on a calibrated instrument.
Know Issues or Problems:
Sampling was done weekly in nearly all cases, and in most cases sampling was done on Wednesdays. There are a few exceptions and an additional sample on 2021-07-30 was taken two days after the 'normal' weekly sampling.
Duplicate samples for macronutrient measurements were made. This dataset reports the mean value of duplicate measurements when both measurements were above the detection limit (flag=0). In rare cases where one duplicate was measured as below detection limit and the other duplicate value was above the detection limit, the latter was reported and a flag value for that measurement is provided (flag=1).
- Imported original file named "RWU_cyanophage_timeseries_env_data.csv" into the BCO-DMO system.
- Renamed fields to comply with BCO-DMO naming conventions (replaced "." with underscore).
- Converted the original date/time field to ISO 8601 format (local time zone of EST/EDT).
- Created a date/time field in ISO 8601 format in UTC time zone.
- Removed the original date/time field.
- Added columns for the sampling site latitude and longitude.
- Saved the final file as "906562_v1_narragansett_bay_time-series.csv".
| File |
|---|
906562_v1_narragansett_bay_time-series.csv (Comma Separated Values (.csv), 9.83 KB) MD5:f861e10be10f01ffa222b81cc107b377 Primary data file for dataset ID 906562, version 1. |
| Parameter | Description | Units |
| ISO_DateTime_Local | Date and approximate time of water sampling in the local time zone (EST/EDT) in ISO 8601 format | unitless |
| ISO_DateTime_UTC | Date and approximate time of water sampling in UTC in ISO 8601 format | unitless |
| WaterTemp | Water temperature | degrees Celsius |
| AirTemp | Air temperature | degrees Celsius |
| Salinity | Water salinity | practical salinity units (PSU) |
| ChlA | Chlorophyll a | micrograms per liter (ug/L) |
| NO2NO3 | Water nitrate plus nitrite; BDL = below detection limit | micromolar (uM) |
| PO4 | Water orthophosphate; BDL = below detection limit | micromolar (uM) |
| SiO4 | Water silicate; BDL = below detection limit | micromolar (uM) |
| NH4 | Water ammonium; BDL = below detection limit | micromolar (uM) |
| NO2 | Water nitrite; BDL = below detection limit | micromolar (uM) |
| NH4_flag | Flag for ammonium data. 0 = mean of duplicate measurements; 1 = value of one of the duplicates, the other duplicate was BDL. | unitless |
| Latitude | Approximate latitude where sample was collected | decimal degrees |
| Longitude | Approximate longitude where sample was collected | decimal degrees |
| Dataset-specific Instrument Name | Turner Designs C-FLUOR Probe (Model: 2120-000) |
| Generic Instrument Name | Fluorometer |
| Dataset-specific Description | Used to measure in situ chlorophyll a; Fluorometer model: Turner Designs C-FLUOR Probe (Model: 2120-000) coupled with a Turner Designs DataBank Datalogger. |
| Generic Instrument Description | 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. |
| Dataset-specific Instrument Name | nutrient autosampler |
| Generic Instrument Name | Nutrient Autoanalyzer |
| Dataset-specific Description | Macronutrients (silicate, orthophosphate, ammonium, nitrite, and nitrate + nitrite) were measured from duplicate samples by the Center for Coastal Studies using a nutrient autosampler system. |
| Generic Instrument Description | Nutrient Autoanalyzer is a generic term used when specific type, make and model were not specified. In general, a Nutrient Autoanalyzer is an automated flow-thru system for doing nutrient analysis (nitrate, ammonium, orthophosphate, and silicate) on seawater samples. |
| Dataset-specific Instrument Name | VEEGEE Scientific encapsulated thermometer model #80704E |
| Generic Instrument Name | Water Temperature Sensor |
| Dataset-specific Description | Used to measure water temperature; Thermometer model: VEEGEE Scientific encapsulated thermometer model #80704E. |
| Generic Instrument Description | General term for an instrument that measures the temperature of the water with which it is in contact (thermometer). |
| Dataset-specific Instrument Name | Portable Refractometer |
| Generic Instrument Name | Refractometer |
| Dataset-specific Description | Used to measure salinity; Portable Refractometer: Model RHS-10ATC. |
| Generic Instrument Description | A refractometer is a laboratory or field device for the measurement of an index of refraction (refractometry). The index of refraction is calculated from Snell's law and can be calculated from the composition of the material using the Gladstone-Dale relation.
In optics the refractive index (or index of refraction) n of a substance (optical medium) is a dimensionless number that describes how light, or any other radiation, propagates through that medium. |
| Dataset-specific Instrument Name | bottle |
| Generic Instrument Name | Bottle |
| Dataset-specific Description | Water was collected from a dock in a 1 L bottle. |
| Generic Instrument Description | A container, typically made of glass or plastic and with a narrow neck, used for storing drinks or other liquids. |
NSF Award Abstract:
Viral infection influences the flow of nutrients in the oceans and the diversity and structure of ecologically important microbial communities. Understanding which viruses infect which hosts is critical to understanding the exact impact of viruses, but there are still critical gaps in knowledge about how widely viruses can infect specific bacteria types and how this can change over time. This project includes the isolation and characterization of hundreds of co-occurring photosynthetic bacteria (cyanobacteria from the genus Synechococcus) and viruses that infect them (cyanophage) from Narragansett Bay, Rhode Island to assess the degree to which they can infect each other and identify specific genes that control cross-infection. DNA collected for over 10 years from Narragansett Bay is used to track Synechococcus and cyanophage communities to determine how virus-host interactions play out in shaping the diversity of natural Synechococcus and cyanophage communities over seasonal cycles and from year to year. This work provides knowledge of how individual viral-host interactions in a natural community can lead to the stable co-existence of particular species of viruses and bacteria in a coastal ecosystem over time. This project supports 15 undergraduate student researchers, a graduate student and a postdoctoral fellow who also receives training in effective practices in science teaching. Integration of the study's results into undergraduate courses and outreach activities facilitates authentic opportunities for students to contribute to research and engagement of local junior and senior high school students.
The team of scientists and students are conducting a phylogenetically-informed study of natural communities of co-occurring Synechococcus and cyanophage, a model tractable system in Narragansett Bay, to characterize phage-host interactions across different scales of diversity and time. The team's goal is to isolate a large collection of ~100 Synechococcus and ~200 cyanophage from Narragansett Bay and to conduct infection assays and comparative genomics on these isolates. They employ amplicon sequencing of highly variable loci for both Synechococcus and cyanophage to characterize community dynamics across broad to fine genetic scales - ecotypes to within-species variants - for 10 years of archived monthly samples and a new weekly time-series over two years. These studies address the following three key questions: 1) Are there inherent boundaries of genetic relatedness (i.e. ecotype, species, or finer levels) at which the patterns of infection networks fundamentally shift from being mostly nested to mostly modular? (2) What are the underlying mechanisms and genetic loci that determine the boundaries of infection, i.e., host range and phage susceptibility? and, (3) How do host-phage interactions at different phylogenetic levels influence community structure over short (weeks to months) and long (year-to-year) time scales? Results from this project help to better understand how phytoplankton and bacterioplankton communities are shaped by viral predation and how host and phage diversity is created, maintained, and structured in the oceans.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
| Funding Source | Award |
|---|---|
| NSF Division of Ocean Sciences (NSF OCE) |