Hygrozyme FEED or KILL pythium?

I have a problem with my systems, and I think it is pythium.

I have been trying to treat with H202, but it has not been working.

I have been told two very contridicting things about hygrozyme and pythium.

I was told DO NOT use hygrozyme if any problems are present, as the enzyme will feed the pythium, etc. and the problem will run wild.

I was also told to use hygrozyme specifically to kill the pythium. I was told, it would get worse before getting better, but that it would ultimitaly KILL the pythium.

I want to get a general concensus before making a move.

thanks
10

Thick, fat, white furry roots are what you most want to see - they are absolutely indicative of healthy root growth. Be aware however that the color of a nutrient solution will stain the roots, turning them yellow or brown. This is also true of many nutrient additives. Older, more mature plants will have a darker cream-colored root system, and some plants just tend to have a natural cream colored color pigment.
Root Zone Temperature
The temperature of the root zone and the temperature of the nutrient water solution can have a major effect on the healthy growth and appearance of the root system. In general the temperature should be between 68 and 72 degrees farenheit. Anywhee between 64 and 80 will be OK. Colder or warmer conditions can cause poor and stunted root growth, as the roots don't want to grow into the unhospitable nutrient solution. Major root death can occur in even brief periods of cold or heat stress. Poor temperature conditions leave the door open to root disease.

Some would argue that one of the strengths of hydroponics is its sterile environment, and the notion of exposing growing systems to bacterial and fungal organisms would be self-defeating, if not sacrilegious. These growers rely on sterile growing environments, strong disinfectants and a product like SM-90. Another option is Hydrogen Peroxide. Each of these offer their own protection and benefits. But NEITHER SM-90 or Hydrogen Peroxide works well with organic nutes or organic additives in the reservoir. You can not try to kill the organic algae or pythium and add organic materials back. That just won't work!
They do not work well together and SM-90 has also been known to react poorly with Superthrive.
In a sterile growing environment, your goal is to have a super clean reservoir. This is harder than it sounds. Folks who have been growing in the same area with the same equipment for years might find that they are suddenly having root problems when they never had them before. Or a new grower might begin having problems right from the beginning because of his water or temps.
Keeping your reservoir totally sterile can work very well, but once you get a population of icky badness it will keep coming back again and again. Some pathogens such as pythium are almost impossible to get rid of completelely. No matter how many times you sterilize everything with a bleach solution, the problem returns. It can get very frustrating and expensive to constanly be battling. More and more innovative growers are moving toward a more wholistic approach of using good microbes in the reservoir with organic nutes or staying with strickly chemical nutes..
One option is to use no organic additives at all and to rely strictly on chemical nutrients based on fertilizer salts. We think a better choice is to continue using organic material, but also using an enzymatic addtive like Hygrozyme that will break down the unwanted organic matter in the reservoir . If you would like to use additives such as bat guano, compost or fish-based products, you might consider run to waste instead of a recirculating system.

When and how much hydrogen peroxide should I use in my hydroponic solution?

Hydrogen peroxide is a powerful oxidizer that can be used to destroy fungi, molds, bacteria and other infectious agents as well as some pollutants. Adding it to your water helps plants by destroying infectious agents and by adding oxygen to the roots' environment.
Hydrogen peroxide is an essential ingredient in maintaining a clean growing room. It replaces chlorine bleach, which is antiseptic but harmful to breathe. When added to reservoirs, hydrogen peroxide slows the growth of algae and other water organisms so that trays and utensils need to be cleaned less frequently. Soil and water borne diseases such as pythium and other stem and root rots occur at much lower rates in hydrogen peroxide-enriched water. Hydrogen peroxide works because of the oxidative reaction, so micro-organisms are unlikely to develop a tolerance.
There are many ways to add hydrogen peroxide to the water. A measured amount every three days is the crudest method, but still effectively enriches the water. A smaller measured amount daily would even out the peaks and valleys of oxygen in the water. Another method is to use a drip similar to an IV bag, which continuously adds a regulated amount. The most sophisticated method is a probe which measures the oxygen content of the water as an indirect means of measuring the hydrogen peroxide, and adds an appropriate amount as needed.
When used properly, hydrogen peroxide can keep infections in the garden to a minimum and stimulate root growth by increasing the oxygen content of the water. Hydrogen peroxide degrades into free oxygen and water over a three-day period. Some of the oxygen dissolves in the reservoir water and is used by the roots.
Different concentrations of hydrogen peroxide solution are available. It is sold diluted to 3% in drug stores. Some indoor garden shops sell 10% grade and 35% grade is sold in a few health food stores and over the Internet. The 3% hydrogen peroxide solution can be used topically to sterilize cuts and infections. Hydrogen peroxide solution at 10% burns skin. 35% hydrogen peroxide solution acts much like a concentrated acid and is handled as a hazardous, corrosive liquid.
The 10% hydrogen peroxide solution is sometimes used at rates as low as one ounce per 10 gallons water; however, enrichment using an ounce per gallon is more effective for disease control. When 35% hydrogen peroxide solution is used, it can be added at the rate of three ounces per 10 gallons of water. If a 3% solution is used, use three ounces per gallon of water.
ZeroTol is a peroxide-based commercial sterilizing agent used in the greenhouse industry. Its active ingredient, HO2, also breaks down into oxygen and water, but it is even more active than 35% hydrogen peroxide. It is used at the rate of one part per 300, or three ounces per 10 gallons, for excellent prevention of diseases and infections. ZeroTol is available from Bio-Safe Systems in Connecticut (1-888-273-3088; www.biosafesystems.com) and through some other gardening supply stores.
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Thanks for the info.

I have been adding 35% h202 every 3 days since the start of my grow. The water turned cloudy overnight, the day after I drained my res and bleached everything (oddly enough).

I have been trying to fix it with h202, but it has not fixed the problem.

Tomorrow I am going to bleach everything and flush all the plants with a 5% solution of h202. Then I need to decide if I should keep on with the H202, or try the hygrozyme.

Hey fan boy how'd that work out for ya?