Posts tagged ##algaecontrol

Is Enough Copper Too Much?

By Patrick Simmsgeiger, Founder of DWI

Copper (Cu) products are able to control algae and cyanobacteria in aquatic environments by discouraging their life cycle. To kill 100% of a microorganism is impossible, so we toxify the water with trace elements of Cu until they retract colony growth. Chelated Cu products present an advantage in this control application compared to solid Copper-Sulfates. A further technology plateau exists in a double-chelated Cu molecule.

Many aquatic environments are rich in limestone, chalk or gypsum. Cu molecules attract these minerals like a magnet, but on a chemical level under ambient conditions. The resulting compound is a heavy Cu-Carbonate (Cu2CO3) which will fall or ‘precipitate’ out of the water column. Cu2CO3 molecules have a specific gravity greater than water so they sink into the sediment layer. This bonding diminishes the amount of Cu intended for the target species that live in the water column. Many applicators simply put more product into the water until the intended control is reached. Unchelated Cu can be toxic to many types of aquatic life when higher levels are used to compensate for precipitation. This old-school product also combines with free hydrogen ions in the water to form sulphuric acid (H2SO4), which is highly corrosive to lifeforms and equipment, and smells like rotten eggs. Needless to say, the application of a solid into the water column requires the crystal to dissolve, which may not occur before a portion of the product reaches the bottom. But tradition is difficult to overcome; many applicators like the feel and even the sound of solid Cu as it hits water.

Chelated Cu solutions do not combine as easily with the aqueous minerals present because a portion of the ions are already bonded. These liquid algaecides deliver better value by remaining suspended within the water column longer. A lower weight of Cu is needed for the same outcome compared to over-dosing with the blue crystal form. The fortunate side-effect is less precipitate at the bottom, which will need to be removed when toxicity is too high. Limnology science is discovering that lake bottoms may account for more than the majority of their own annual nutrient loading and toxicity issues. There is also an associated labor savings when using less product and chelated products are safer to handle because of the lower Cu molecular weight.

A double-chelated Cu formulation bonds most of the remaining ions, representing the latest in technology. One might ask, “How is the algae affected if most of the ions are already bonded?” Algae do not swim to or away from sources as they are not technically mobile. Rather than consume the algaecide, the presence of diffusing Cu interrupts the colony life-cycle of microorganisms. There is a lower incidence of Cu exhaustion while realizing the same level of control with chelated products. This allows the delivery of persistent Cu molecular-weight to the water column, from a product that is safer to apply and healthier for the biosphere, with other tertiary advantages.

Because a lower Cu concentration can be used, the result is better in the current season and over the long-term ecologically to the waterscape. Less Cu within the water is less toxic for fish and reduces plating-out and corrosion. This finer focus of Cu lasts longer, allowing for better control toward the 1.0ppm of Cu potable water limit (see EPA - Lead and Copper Rule, 1991). The user has more control and less labor in application and product handling/storage. In real-world experience, chelated Cu is targeted on the problem species at a higher ratio, decreasing the need for more efforts to interrupt the life-cycle of target species, also reducing long-term soil toxicity.

Not all chelator ingredients are the same. The best Cu products maintain potency in high alkalinity waters, even in colder temperatures. A good test is to freeze a gallon of product and then thaw it. If less than 100% returns to solution, then the formulation is inefficient and/or the chelator is not high quality. Microorganisms have different growth characteristics in different water chemistries. Performance should be consistent versus a broad range of species. The best product also has delivers control over a variety of geographic features with unique water chemistries, including ‘hard water’ environments.

Technology presents better tools, and chelated Cu is a prime example. Make sure your facility is using a highly controllable and cost-efficient compound. The availability of a double-chelated product allows ease of application, greater ppm control, and lower water toxicity as first-stage advantages. Overall Cu weight can be reduced, the algae will be kept to a healthy minimum, and long-term sediment cleaning events can be extended up to three times into the future. The results will speak for themselves while the application cost is equivalent to the older Cu products.

Posted on October 20, 2020 by DWI Water and filed under Algae Control, Aquatic Maintenance, Lake Maintenance, Pond Maintenance, Water Feature and tagged copper sulfate #algaecontrol doublechelatedcopper.

Understanding Lake Algae

By Patrick Simmsgeiger, Founder of DWI

They have existed for nearly 4 billion years. With names such as mustard, red, moss, fungi, green, and mold, many structures, both man-made and natural have succumbed to their wrath. These outlaws take no prisoners, clogging any screen, filter, or pipeline mobilized in their path. They derive special pleasure from staining and rotting wood, doing so with noxious resolve.

Welcome to the wonderful world of algae. Algae are nothing more than simple plants, only microscopic in proportion. Most noticeable in water, they are also present in the air and on earth, and require similar nurturing to plants for chlorophyll production.

When not ravaging lakes, streams, and the like, their primary function is to maintain the natural balance of life cycles. As humans interject discord into the cycle by constructing recreational or aesthetic water barriers, these single-celled organisms consider this an open invitation to linger and multiply.

With well over 30,000 varieties, algae have been discovered thriving in the severest of environments. They are quite comfortable in mountain glaciers, hot springs, and even in waters whose high salinity content obstructs other plant life from prospering. Algae tend to concentrate in the shallowest areas and outward into deeper water, always aspiring to attach themselves to a well ventilated damp well.

It is painfully obvious that algae have been afflicted with dual personalities. Although they are engaged in the thankless responsibility of giving life, they insist on creating quite a “stink” during the process. Long after humanity vanishes, however, algae will continue to plunder just as they have since the beginning of time.

Algae is everywhere. Without it our waters would not sustain life and mankind would not benefit from its countless qualities and boundless beauty. But what happens when our precious ecosystems are not in balance? We’ve all seen it. Algae can turn your pristine reflection pond into a stagnant bowl of pea soup or perhaps plug your irrigation lake and pumping equipment with its slimy strands. Even minor growth around your shoreline can cause loss of water flow and trap debris. So, do you Love it or Leave it?

The answer, Don’t Love it and Don’t Leave it. Appreciate it and Control it. How? Educate yourself and follow these simple guidelines:

  1. Consult with an experienced Aquatic PCA (Pest Control Advisor).

  2. Establish a seasonal history. It’s likely that your body of water has repeated algae growth season after season.

  3. Learn to anticipate its growth. This is where the history comes in handy. Early treatment will save you much time and money.

You may be telling yourself, yes I’ve experienced some of perhaps all of the problems listed about but no one is complaining and it’s not hurting anything. Right? Wrong!

Every body of water has a life span. Man made and natural. Eventually all that algae you’re allowing to proliferate and then die off at the season’s end are forming sludge. A lot of sludge. Left untreated, a couple acre-feet of water can easily sustain growth of several tons of algae a season. Sooner or later your water volume will decrease substantially necessitating dredging long before its time.

What is the best product for training algae? For best results, a highly refined copper chelate is still the most effective. It’s environmentally friendly and is cost effective. Copper has been given a bad rap lately and for good reason. For years applications of copper sulfate have been used to control algae and its done a good job. However, copper sulfate in a non-chelated form will produce copper carbonates and other toxic precipitates that will accumulate on the pond or lake bottom causing disposal nightmares and stifling aquatic life. So be sure the formula you’re using is chelated. Now, not all chelated copper algaecides are the same. Take your time to choose and be selective. Most algaecides on the market have weak chelating agents that will cause them to break down in high pH and high alkaline water. Look for an algaecide with a low pH and high active ingredient. With proper use, this will ensure safe for the environment applications and effective algae control.

Lastly, don’t be afraid to be aggressive when tackling your project. Follow all manufacturer directions for application and if you are unsure of dosage rates or would like some application advise, pick up the phone and call the manufacturers technical support. They will be happy to give you a few tips.

Posted on October 16, 2020 by DWI Water and filed under Algae Control, Lake Maintenance, Pond Maintenance, Aquatic Maintenance, Water Feature and tagged #algae #algaecontrol.