Alum Lake Treatments - Tech Talk 102
Every lake/pond is unique. If the water is clear, with little submerged weed growth, we'd call it "clean" and its primary productivity would be low. You might think of it as starving for plant nutrients. If the water is turbid, due to planktonic algae, its productivity would be high. This would be considered bad if you wanted to swim in it. It could be considered good, if you were using it for aquaculture. To some small farm ponds and fishing ponds that are 100 percent on private property, with no outflow, the owners actually add phosphorus to increase their productivity so they will grow more fish when stocked with the appropriate species. If you want to have clear water, you must reduce the productivity. In short, you need to withhold nutrients that feed the algae. Phosphorus is typically the nutrient that can limit plant and algae growth in freshwater lakes. To reduce the phosphorus level is to reduce the plant and algae growth, resulting in clear water. Phosphorus, nitrogen and other nutrients enter the lake from four sources:
- Watershed runoff
- Sediment cycling.
- Atmosphoric loading.
- Point source (typically sources known by the owner-can be things such as fish food, cleaning stations, fertilizer addtions, etc.)
To identify and quantify the sources of phosphorus, it is necessary to do a total nutrient budget. Since most people can't afford that professional service, they typically ask a limnologist or other lake expert to "eyeball it" and give them their recommendation. Some remedial action can be inexpensive and other suggestions can be cost-prohibitive. If the low-cost fixes are not sufficient to bring about the desired improvement in water clarity, consider an alum treatment to reduce phosphorus in the water and reduce its cycling out of the sediments. It is probably cheaper than you think. Phosphorus binds tightly to the alum, which becomes incorporated into the sediments of the lake. It is totally safe from a human, animal and environmental standpoint. Aluminum, like silica sand, is one of the most common elements on the face of the earth. It is used in cooking and drinking water filtration.