ATMOSPHERIC EXCHANGE OF CARBON-DIOXIDE IN A LOW-WIND OLIGOTROPHIC LAKE MEASURED BY THE ADDITION OF SF6

Many freshwater lakes are supersaturated in CO2 with respect to the at mosphere. This concentration gradient implies a net flux of CO2 from t he water to the air. The actual rate of gas exchange is governed by bo th this concentration gradient and the gas transfer coefficient, k. To directly measure k, we added the chemically and biologically inert ga s, sulfur hexaflouride (SF6), to the epilimnion of Minor Lake, New Ham pshire, a small (15 ha), low-wind softwater lake. k was independent of wind speed over the 50-d summer stratification period and averaged 2. 65 +/- 0.12 cm h(-1) (95% CI; normalized to a Schmidt number of 600); k(800) was better correlated to precipitation events than it was to wi nd speed. Our data support the idea that gas exchange across the air-w ater interface is largely independent of wind at low wind speeds. The surface water of Mirror Lake was persistently supersaturated in CO2 wi th respect to the atmosphere. During a 3.5-year period the partial pre ssure of CO2 in the surface waters of the lake averaged 726 +/- 39 mu atm (95% CI) and showed substantial seasonal variation (360-2,000 mu a tm). Diel and day-to-day variation in CO2 were very small compared to the CO2 pool. We combined our estimates of k with weekly measurements of the partial pressure of CO2 to estimate CO2 gas exchange in the lak e. Mirror Lake released from 26 to 50 g C m(-2) to the atmosphere each year, depending on the method of calculating k. Atmospheric CO2 excha nge is a large term in the C economy of the lake-the most conservative gas flux estimate is about four times as large as outflow plus seepag e of total dissolved inorganic carbon and 1.5 times as large as the ex port of dissolved organic C from the lake.