| Contributors | Affiliation | Role |
|---|---|---|
| Sterner, Robert W. | University of Minnesota Twin Cities (UMTC) | Principal Investigator, Contact |
| Brovold, Sandra | University of Minnesota Twin Cities (UMTC) | Technician |
| Gegg, Stephen R. | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
The project research team identified named sampling locations to facilitate repeat occupation of those locations and develop time-series data sets.
This is the list of all the standard stations occupied during the SINC Project.
No attempt is made to make them cruise specific so any of the SINC deployments will return all of the SINC stations occupied.
Cruise specific station locations can be retrieved from datasets such as CTD Profiles or BioGeoChem using the CruiseId or CRUISE_CODE.
Complied by Sterner, et al
The list of repeat sampling locations was contributed originally as an Excel spreadsheet. Some information was moved to the notes field, and negative signs prepended to longitudes to make them compatible with BCO-DMO database conventions.
BCO-DMO Edit History:
- Added station CH3 (occupied on CARGO2). Using lat/lon from Sterner e-mail - 03August2012/srg
- Added "Project" column identifying on which project(s) the station was occupied - 27July2012/srg
- Added station CB. Using Lat/Lon from CTD profile data - 25July2012/srg
- Added stations Grab 01 - Grab 10 and UMW from Sterner e-mail - 14June2012/srg
- Corrected Latitude position(degs) for WM7 (48 -> 46) - 07June2012/srg
- Changed stations Sterner A thru G to STE-A thru STE-G - 07June2012/srg
- Added stations UW1 - UW15, GRAB #9, GRAB #10 - 06June2012/srg
- Added station GRAB5 - 06March2012/srg
| File |
|---|
Standard_Stations_Project.csv (Comma Separated Values (.csv), 1.56 KB) MD5:12e8462766a10af23d3c39168420d19c Primary data file for dataset ID 3681 |
| Parameter | Description | Units |
| Lake_location | name of the lake | dimensionless |
| Station | Name of the standard station location. | dimensionless |
| lat | latitude in decimal degrees (positive is North) | decimal degrees |
| lon | longitude in decimal degrees (negative is West) | decimal degrees |
| water_col_depth | estimated depth of the water column at location | meters |
| dist_to_land | distance to land from location; estimated using Google Earth | kilometers |
| notes_and_comments | notes and comments | dimensionless |
| Project | Project or Projects on which the standard station was occupied for sampling | dimensionless |
| Website | |
| Platform | R/V Blue Heron |
| Report | |
| Start Date | 2009-11-10 |
| End Date | 2009-11-12 |
| Description | Cruise Name: SINC 1
Dates: 10 - 12 November 2009
Vessel: R/V Blue Heron
UNOLS Cruise ID: (tbd)
Participants: R. Sterner, S. Brovold, Aaron Myers, Brenda Scott, Nick Sterner |
| Website | |
| Platform | R/V Blue Heron |
| Report | |
| Start Date | 2010-05-14 |
| End Date | 2010-05-16 |
| Description | Cruise Name: SINC 5
Dates: May 14-16, 2010
Vessel: R/V Blue Heron
UNOLS Cruise ID: BH10-01
Participants: R. Sterner, B. Beall, S. Brovold, S. Queen, B. Scott, C. Small
Cruise information and original data are available from the NSF R2R data catalog. |
| Website | |
| Platform | R/V Blue Heron |
| Report | |
| Start Date | 2010-06-25 |
| End Date | 2010-06-27 |
| Description | Cruise Name: SINC 6
Dates: June 25-27, 2010
Vessel: R/V Blue Heron
UNOLS Cruise ID: BH10-06 (Not verified srg/13April2012)
Participants: R. Sterner, B. Beall, S. Brovold, O. Kutovaya, C. Small, H. Carrick
Cruise information and original data are available from the NSF R2R data catalog. |
| Website | |
| Platform | R/V Blue Heron |
| Report | |
| Start Date | 2010-08-18 |
| End Date | 2010-08-20 |
| Description | Cruise Name: SINC 10
Dates: August 18-20, 2010
Vessel: R/V Blue Heron
UNOLS Cruise ID: BH10-13
Participants: J. Finlay, G. Bullerjahn, S. Brovold, C. Small, B. Scott, M. Mukherjee
Cruise information and original data are available from the NSF R2R data catalog. |
| Website | |
| Platform | R/V Blue Heron |
| Report | |
| Start Date | 2010-10-05 |
| End Date | 2010-10-07 |
| Description | Cruise Name: SINC 11
Dates: October 05-07, 2010
Vessel: R/V Blue Heron
UNOLS Cruise ID: BH10-22
Participants: R. Sterner, H. Carrick, S. Brovold, C. Small, B. Scott, B. Beall
Cruise information and original data are available from the NSF R2R data catalog. |
This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5).
Over large scales encompassing heterogeneous conditions, biogeochemical mechanisms act to achieve a stoichiometric balance between nitrogen and phosphorus. Locally, however, imbalances can develop. The Laurentian Great Lakes are a vast freshwater system where nitrate has been steadily accumulating for decades. Previous work has shown that in Lake Superior, the headwaters of the system, nitrate enters the lake water primarily due to in-lake biogeochemical processes, not due to passive accumulation of nitrate as a conservative substance as previously believed. An extreme stoichiometric imbalance of nitrate/phosphate ratios (~ 10,000 by moles) is present and is apparently growing. This set of prior findings opens up two major questions. First, what are the principal biogeochemical control points that tip the N cycle toward buildup of excess nitrate? And second, how does the extreme stoichiometric imbalance affect the ecology and evolution of Lake Superior's biota?
In this project, researchers at the University of Minnesota - Twin Cities and the Bowling Green State University, who previously documented the nitrate buildup in Lake Superior, will continue their research program and address these two questions. The project is organized around making comparative measurements of N assimilation, nitrification, denitrification, anammox, and microbial community structure in Lake Superior and in the central basin of Lake Erie. These two environments differ greatly in many ways including redox state and organic carbon production rates. From the standpoint of N balancing mechanisms, they can be considered end members within the Laurentian Great Lakes. Additional data will be collected across a larger region of the Upper Great Lakes including Lake Huron. Up-to-date mass balance budgets of nitrogen of the most of the Great Lakes (Lake Superior is already done) will be constructed and linked with hydrologic fluxes to gain insights into the dynamics of N across the entire Laurentian Great Lakes System. Observations of water chemistry will be made with ship-board sampling together with field-deployed nitrate sensors in shallow and deep waters. Process studies will be performed in the water column and at the sediment-water interface and will involve sensitive stable isotope techniques. These will include measurements of NO3 and NH4+ uptake into different size fractions, exchanges of different forms of N and C between the water column and sediments, nitrification, denitrification, and anammox. The diversity and abundance of ammonia oxidizing Archea (AOA) and bacteria (AOB) will be studied using quantitative real time PCR and DGGE. Similarly, the genetic composition of denitrifyers and anammox bacteria will be studied to see if they too are represented by novel clades in Lake Superior. Cultured nitrifyers will be characterized in terms of growth under different conditions typically encountered across the Great Lakes. The project will yield valuable information and insight into the operation of the nitrogen cycle under conditions that promote stoichiometric imbalances.
Previous work (2004-2007) by this team of investigators and others investigated the intersection of the nitrogen cycle with the phosphorus and iron cycles in Lake Superior and included studying the responses of plankton communities to differing nutrient supply regimes. Prior to 2004, many of the same investigators conducted research on the existence, mechanisms, spatial-temporal extent, and significance of trace metal limitation to primary production in Lake Superior. This early research was designed to quantify and characterize total and bioactive trace metal concentrations of Al, Fe, Mn, Zn, Cu, Cd, and Co in Lake Superior. The project included immunological and fluorescence assays to assess metal deficiency in algae in the natural environment and trace metal enrichment experiments in the laboratory to assess limitation experimentally.
The Laurentian Great Lakes are a valuable regional resource and an immense reservoir of planetary fresh water. Lake Superior is often considered to be relatively pristine but the ultimate source of the N converted to nitrate in the lake is as yet unknown and may involve past changes to the watershed or other anthropogenic factors.
A series of studies concerned with the chemistry and biology of the Laurentian Great Lakes. These different studies share a focus on the dynamics of organic pools of carbon, nitrogen and phosphorus, and the stoichiometric linkages among these elements. At different times, work also has focused on trace metal dynamics and interactions with biota, the rates of primary production and herbivory, rates and patterns of primary productivity, and the century-long, steady trend of increasing nitrate in Earth's largest lake by area. Microbial populations have been investigated and linked to these chemical properties.
This Program was created by BCO-DMO staff to bring various Laurentian Great Lakes Research projects under one umbrella for improved discovery and access.
Dates: 1998 - 2014
Funding: NSF/OCE and Minnesota Sea Grant
| Funding Source | Award |
|---|---|
| NSF Division of Ocean Sciences (NSF OCE) | |
| NSF Division of Ocean Sciences (NSF OCE) |