| Site | Temp. Co | mmHg | DO %L | DO mg/L | Conductivity µS/cm | pH |
| Reek Road | 4.3 | 734.7 | 118 | 14.8 | 255.2 | 8.32 |
| Black Bridge | 4.3 | 735.3 | 111 | 13.9 | 276.9 | 8.42 |
| WF Backyard | 4.1 | 735.4 | 107 | 13.4 | 266.6 | 8.35 |
| Wega Dam | 4.0 | 735.4 | 114 | 14.5 | 261.8 | 8.64 |
| Site | Temp. Co | mmHg | DO %L | DO mg/L | Conductivity µS/cm | pH |
| Reek Road | 4.3 | 734.7 | 118 | 14.8 | 255.2 | 8.32 |
| Black Bridge | 4.3 | 735.3 | 111 | 13.9 | 276.9 | 8.42 |
| WF Backyard | 4.1 | 735.4 | 107 | 13.4 | 266.6 | 8.35 |
| Wega Dam | 4.0 | 735.4 | 114 | 14.5 | 261.8 | 8.64 |
Wow those DO readings are pretty high considering the air we breath has about 9.8 mg/L O2. It’s from all that algae. I would love to see some chlorophyll (indicates algae growth) and phosphorus (limiting nutrient of algae growth) data. I bet you would see that skyrocket into the summer. I study phosphorus dynamics in lake sediments. My interest in water resources started with growing up next to Lake Weyauwega…I hope all of the communities effort pay off and the lake regains it’s health. The lake I am studying went from hypereutrophic to what may now be considered oligotrophic. It can be done..keep the faith!