| Contributors | Affiliation | Role |
|---|---|---|
| Arnosti, Carol | University of North Carolina at Chapel Hill (UNC-Chapel Hill) | Principal Investigator |
| Copley, Nancy | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
This dataset includes polysaccharide hydrolysis rates to measure microbial enzyme activities and bacterial productivity at multiple time points. The water was from gravity filtration samples.
See Niskin Bottle and Cast List EN556 to link specific casts and bottles to each experiment: https://www.bco-dmo.org/dataset/717427.
Seawater was transferred to 20 L carboys that were rinsed three times with water from the sampling depth and then filled with seawater from a single Niskin bottle, using silicone tubing that had been acid washed then rinsed with distilled water prior to use. From each carboy, water was dispensed into smaller glass containers that were cleaned and pre-rinsed three times with water from the carboy prior to dispensing. This water was used to measure cell counts, bacterial productivity, and the activities of polysaccharide hydrolases, peptidases, and glucosidases. A separate glass Duran bottle was filled with seawater from the carboy and sterilized in an autoclave for 20-30 minutes to serve as a killed control for microbial activity measurements.
Experiments on (operationally defined) particles were carried out by gravity-filtering water through 3 µm pore size filters. 1/12th sections of the 3 µm pore-size filters were submerged in 15 mL artificial seawater; enzyme activities were measured as described below.
Two substrates, -glucose and -glucose linked to a 4-methylumbelliferyl (MUF) fluorophore, were used to measure glucosidase activities. Five substrates linked to a 7-amido-4-methyl coumarin (MCA) fluorophore, one amino acid – leucine – and four oligopeptides – the chymotrypsin substrates alanine-alanine-phenylalanine (AAF) and alanine-alanine-proline-phenylalanine (AAPF), and the trypsin substrates glutamine-alanine-arginine (QAR) and phenylalanine-serine-arginine (FSR) – were used to measure exo- and endo-acting peptidase activities, respectively. Hydrolysis rates of the substrates were measured as an increase in fluorescence as the fluorophore was hydrolyzed from the substrate over time [as in Hoppe, 1993; Obayashi and Suzuki, 2005]. Incubations with the seven low molecular weight substrates were set up in a 96-well plate. For each substrate, triplicate wells were filled with a total volume of 200 L seawater for experimental incubations; triplicate wells were filled with 200 L autoclaved seawater for killed control incubations. Substrate was added at saturating concentrations. A saturation curve was determined with surface water from each station to determine saturating concentrations of substrate. The saturating concentration was identified as the lowest tested concentration of substrate at which additional substrate did not yield higher rates of hydrolysis. Fluorescence was measured over 24-48 hours incubation time with a plate reader (TECAN spectrafluor plus; 360 nm excitation, 460 emission), with timepoints taken every 4-6 hours. Hydrolysis rates were calculated from the rate of increase of fluorescence in the incubation over time relative to a set of standards of known concentration of fluorophore. Scripts to calculate hydrolysis rates and produce the figures shown here are available in the associated Github repository [Hoarfrost, 2017].
BCO-DMO Processing Notes:
- added conventional header with dataset name, PI name, version date
- modified parameter names to conform with BCO-DMO naming conventions
- removed 'cast00' and 'stn0' from data records for the cast and station columns
- reduced decimal precision of time_elapsed_hr from up to 8 to 1 place right of decimal
| File |
|---|
EN556_GF_incubation.csv (Comma Separated Values (.csv), 12.08 KB) MD5:5c9add507ffd0ced211e1fa791f9fddc Primary data file for dataset ID 720307 |
| Parameter | Description | Units |
| cruise_id | cruise identifier | unitless |
| cast | cast number | unitless |
| station | station number | unitless |
| depth_no | depth description: sequence of depths sampled with 1 is surface and higher numbers at greater depths | unitless |
| depth_m | actual depth at which water collected | meters |
| substrate | substrates for measurement of enzymatic activities: | unitless |
| timepoint | sampling time point (0; 1; 2; etc.) post-incubation | unitless |
| time_elapsed_hr | hours elapsed to reach a specific timepoint | hours |
| rep1_rate | replicate 1 of enzymatic hydrolysis rate | nanomol monosaccharide/liter/hour |
| rep2_rate | replicate 2 of enzymatic hydrolysis rate | nanomol monosaccharide/liter/hour |
| average | average of the hydrolysis rates | nanomol monosaccharide/liter/hour |
| std_dev | standard deviation of the hydrolysis rates | nanomol monosaccharide/liter/hour |
| filter_um | nominal pore size of filter | microns |
| Dataset-specific Instrument Name | TECAN spectrafluor plus |
| Generic Instrument Name | Fluorometer |
| Dataset-specific Description | Settings: 360 nm excitation, 460 emission. |
| 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 | 20 liter Niskin bottles |
| Generic Instrument Name | Niskin bottle |
| Dataset-specific Description | Used to collect water for large volume mesocosm experiments |
| Generic Instrument Description | A Niskin bottle (a next generation water sampler based on the Nansen bottle) is a cylindrical, non-metallic water collection device with stoppers at both ends. The bottles can be attached individually on a hydrowire or deployed in 12, 24, or 36 bottle Rosette systems mounted on a frame and combined with a CTD. Niskin bottles are used to collect discrete water samples for a range of measurements including pigments, nutrients, plankton, etc. |
| Dataset-specific Instrument Name | |
| Generic Instrument Name | Shipboard Incubator |
| Generic Instrument Description | A device mounted on a ship that holds water samples under conditions of controlled temperature or controlled temperature and illumination. |
| Website | |
| Platform | R/V Endeavor |
| Start Date | 2015-04-27 |
| End Date | 2015-05-02 |
| Description | Project: Latitudinal and Depth-Related Contrasts in Enzymatic Capabilities of Pelagic Microbial Communities.
Cruise track obtained from rvdata.us control-point navigation (http://www.rvdata.us/catalog/EN556) |
NSF Award Abstract:
Heterotrophic microbial communities are key players in the marine carbon cycle, transforming and respiring organic carbon, regenerating nutrients, and acting as the final filter in sediments through which organic matter passes before long-term burial. Microbially-driven carbon cycling in the ocean profoundly affects the global carbon cycle, but key factors determining rates and locations of organic matter remineralization are unclear. In this study, researchers from the University of North Carolina at Chapel Hill will investigate the ability of pelagic microbial communities to initiate the remineralization of polysaccharides and proteins, which together constitute a major pool of organic matter in the ocean. Results from this study will be predictive on a large scale regarding the nature of the microbial response to organic matter input, and will provide a mechanistic framework for interpreting organic matter reactivity in the ocean.
Broader Impacts: This study will provide scientific training for undergraduate and graduate students from underrepresented groups. The project will also involve German colleagues, thus strengthening international scientific collaboration.
| Funding Source | Award |
|---|---|
| NSF Division of Ocean Sciences (NSF OCE) |