PRIMARY PRODUCTION AND GRAZING DYNAMICS IN THE ULTRA-OLIGOTROPHIC WATERS OF LAKE SUPERIOR ("CARGO" which stands for CArbon Gain and lOss)
All higher organisms including fish ultimately rely on carbon fixed by primary production for their growth. A major gap in our understanding of Lake Superior lies in a highly incomplete knowledge of the rates primary production and grazing in the lake's waters. This data gap impedes the progress of scientific understanding of the lake on many fronts. Primary production is the foundation for all food webs and is a large, perhaps the largest, term in the lake's carbon cycle. Over the years, there have been but a small handful of investigators who have measured primary production in this, Earth’s largest lake by area. Attempts to construct comprehensive carbon budgets using literature values for major terms such as DOC import, sedimentation, etc. indicate a large imbalance in the C cycle in the lake. According to current best estimates, organic carbon disappears at much faster rate (14-40, Cotner et al. 2005) or (13-81, Urban et al. 2005) than its rate of input (5.3 Tg/y, Cotner et al. 2004) or (3-8 Tg/y, Urban et al. 2005) (all values in Tg/y). The budget is out of balance by a factor of about 2 to 27. Unless the lake is metabolizing vast quantities of old, “fossilized” carbon (implausible), current out-of-balance budgets must be wrong, meaning we do not have good estimates for one or more of these fundamental processes in the lake.
Of the possible terms in the carbon budget of the lake, a focus on primary production is appropriate because of the large magnitude of this term plus the dearth of actual measurements that have been performed and the many untested assumptions that lurk behind those few measurements. At the same time, a major loss of particulate organic carbon has been almost entirely ignored until now. That loss is the grazing rate, the rate of consumption of lake particles (including bacteria and algae) by living organisms in the water column. As Banse (2002) has described for the oceans, though physical mixing and sinking contribute to the dynamics of phytoplankton and other small planktonic organisms, it is principally production and grazing which determine dynamics. To a first approximation, the rate of change of phytoplankton is equal to the difference between production and grazing.
This project comprises a two-year study that will focus on primary production and grazing in the world’s largest lake by area. Primary production will be measured using 14C additions to shipboard incubations using a photosynthetron device. P-I curves plus other data will be used as input for numerical models of areal production. Production numbers so obtained will be compared to in situ incubations. Grazing assays will be based on the dilution series methods developed by Landry and Hassett (1982) and since employed by many others, including myself and my students; this method provides an overall measure of in situ particle turnover.
Dataset | Latest Version Date | Current State |
---|---|---|
BioGeoChemistry from R/V Blue Heron BH07-09, BH07-17, BH07-19, BH08-01, BH08-11, BH08-19 in Lake Superior from 2007-2008 (CARGO project) | 2012-08-07 | Preliminary and in progress |
Standard station locations for repeat sampling in the Laurentian Great Lakes (LGL) - Superior, Huron, Erie from 2004 tp 2013 (SINC project, IRONMAN project, NILSS project, CARGO project) | 2012-08-03 | Final with updates expected |
Standard stations from R/V Blue Heron BH07-09, BH07-17, BH07-19, BH08-01, BH08-11, BH08-19 in Lake Superior from 2007-2008 (CARGO project) | 2012-08-03 | Final with updates expected |
CTD profiles from Lake Superior collected during various R/V Blue Heron cruises between 2007-2008 (CARGO project) | 2012-07-20 | Final no updates expected |
Cruise Track from R/V Blue Heron BH07-09, BH07-17, BH07-19, BH08-01, BH08-11, BH08-19 in the Lake Superior from 2007-2008 (CARGO project) | 2012-04-17 | Final no updates expected |
Principal Investigator: Dr Robert W. Sterner
University of Minnesota Twin Cities (UMTC)
Contact: Dr Robert W. Sterner
University of Minnesota Twin Cities (UMTC)
Technician: Ms Sandra Brovold
University of Minnesota Twin Cities (UMTC)
BCO-DMO Data Manager: Stephen R. Gegg
Woods Hole Oceanographic Institution (WHOI BCO-DMO)
Laurentian Great Lakes Ecosystem Studies [Laurentian Great Lakes Ecosystem Studies]