Mykos Roots Paks beneficial soil fungi packs Mykos mycorrhizae conveniently packaged in 10g “Biodegradable Paks” for both soil and hydroponic applications. Simply place the pack at the base of the plant and the developing roots will grow through the biodegradable paper membrane and become rapidly inoculated.

Mykos Roots Paks beneficial soil fungi packs Mykos mycorrhizae conveniently packaged in 10g “Biodegradable Paks” for both soil and hydroponic applications. Simply place the pack at the base of the plant and the developing roots will grow through the biodegradable paper membrane and become rapidly inoculated.

Mykos beneficial soil fungi Mykos mycorrhizae is a natural and organic species of beneficial soil fungi that creates a “sponge-like” mass which collects and stores nutrients and water, increasing the uptake of both. This single species of arbuscular mycorrhizal fungi contains only Rhizophagus intraradices, formally known as Glomus intraradices. MYKOS does not contain any other microbes such as trichoderma or ecto-mycorrhizae

Mykos beneficial soil fungi Mykos mycorrhizae is a natural and organic species of beneficial soil fungi that creates a “sponge-like” mass which collects and stores nutrients and water, increasing the uptake of both. This single species of arbuscular mycorrhizal fungi contains only Rhizophagus intraradices, formally known as Glomus intraradices. MYKOS does not contain any other microbes such as trichoderma or ecto-mycorrhizae

Mykos beneficial soil fungi Mykos mycorrhizae is a natural and organic species of beneficial soil fungi that creates a “sponge-like” mass which collects and stores nutrients and water, increasing the uptake of both. This single species of arbuscular mycorrhizal fungi contains only Rhizophagus intraradices, formally known as Glomus intraradices. MYKOS does not contain any other microbes such as trichoderma or ecto-mycorrhizae

Azos nitrogen fixing bacteria Azos is an all-natural, growth promoting, nitrogen fixing bacteria ideal for cloning and transplanting. Azos converts nitrogen into a usable form that is readily available to the plant. Nitrogen is critical for forming vegetative matter and supporting abundant growth. Azos promotes growth, while boosting natural root development. Nitrogen-Fixing Bacteria - Of all the nutrients transported to plants through the soil, nitrogen is required in the greatest amount. It drives chlorophyll production in the foliage and keeps plants green and efficient. It is a fundamental part of amino acids and other compounds that assure crop health and productivity. It is a major part of every protein molecule and soils are often deficient of this element. However the atmosphere is comprised of around 80% nitrogen which is in a form (N2 or atmospheric nitrogen) that is not conventionally available to plants. Nitrogen From the Air! - Somewhere along the evolutionary development of the “Plant - Soil - Microbial Matrix”, certain bacteria began to specialize in tasks to enhance plant growth, which in return provided the microbes with a food source exchange opportunity. A select group of bacteria classified as “Diazotrophs” began to supply nitrogen to plants from a range of sources, including decomposed plant litter, dead micro-organisms, and sequestration of atmospheric nitrogen. Azos belongs to the last of these groups and functions primarily as an atmospheric nitrogen converter. Azos specializes in the highly-efficient conversion of the N2 form of nitrogen into plantavailable NH3 ammoniacal nitrogen. Azos is so efficient that between 50% and 70% of all the nitrogen required by most crops can be supplied by this organism.

Azos nitrogen fixing bacteria Azos is an all-natural, growth promoting, nitrogen fixing bacteria ideal for cloning and transplanting. Azos converts nitrogen into a usable form that is readily available to the plant. Nitrogen is critical for forming vegetative matter and supporting abundant growth. Azos promotes growth, while boosting natural root development. Nitrogen-Fixing Bacteria - Of all the nutrients transported to plants through the soil, nitrogen is required in the greatest amount. It drives chlorophyll production in the foliage and keeps plants green and efficient. It is a fundamental part of amino acids and other compounds that assure crop health and productivity. It is a major part of every protein molecule and soils are often deficient of this element. However the atmosphere is comprised of around 80% nitrogen which is in a form (N2 or atmospheric nitrogen) that is not conventionally available to plants. Nitrogen From the Air! - Somewhere along the evolutionary development of the “Plant - Soil - Microbial Matrix”, certain bacteria began to specialize in tasks to enhance plant growth, which in return provided the microbes with a food source exchange opportunity. A select group of bacteria classified as “Diazotrophs” began to supply nitrogen to plants from a range of sources, including decomposed plant litter, dead micro-organisms, and sequestration of atmospheric nitrogen. Azos belongs to the last of these groups and functions primarily as an atmospheric nitrogen converter. Azos specializes in the highly-efficient conversion of the N2 form of nitrogen into plantavailable NH3 ammoniacal nitrogen. Azos is so efficient that between 50% and 70% of all the nitrogen required by most crops can be supplied by this organism.

Azos nitrogen fixing bacteria Azos is an all-natural, growth promoting, nitrogen fixing bacteria ideal for cloning and transplanting. Azos converts nitrogen into a usable form that is readily available to the plant. Nitrogen is critical for forming vegetative matter and supporting abundant growth. Azos promotes growth, while boosting natural root development. Nitrogen-Fixing Bacteria - Of all the nutrients transported to plants through the soil, nitrogen is required in the greatest amount. It drives chlorophyll production in the foliage and keeps plants green and efficient. It is a fundamental part of amino acids and other compounds that assure crop health and productivity. It is a major part of every protein molecule and soils are often deficient of this element. However the atmosphere is comprised of around 80% nitrogen which is in a form (N2 or atmospheric nitrogen) that is not conventionally available to plants. Nitrogen From the Air! - Somewhere along the evolutionary development of the “Plant - Soil - Microbial Matrix”, certain bacteria began to specialize in tasks to enhance plant growth, which in return provided the microbes with a food source exchange opportunity. A select group of bacteria classified as “Diazotrophs” began to supply nitrogen to plants from a range of sources, including decomposed plant litter, dead micro-organisms, and sequestration of atmospheric nitrogen. Azos belongs to the last of these groups and functions primarily as an atmospheric nitrogen converter. Azos specializes in the highly-efficient conversion of the N2 form of nitrogen into plantavailable NH3 ammoniacal nitrogen. Azos is so efficient that between 50% and 70% of all the nitrogen required by most crops can be supplied by this organism.

Azos nitrogen fixing bacteria Azos is an all-natural, growth promoting, nitrogen fixing bacteria ideal for cloning and transplanting. Azos converts nitrogen into a usable form that is readily available to the plant. Nitrogen is critical for forming vegetative matter and supporting abundant growth. Azos promotes growth, while boosting natural root development. Nitrogen-Fixing Bacteria - Of all the nutrients transported to plants through the soil, nitrogen is required in the greatest amount. It drives chlorophyll production in the foliage and keeps plants green and efficient. It is a fundamental part of amino acids and other compounds that assure crop health and productivity. It is a major part of every protein molecule and soils are often deficient of this element. However the atmosphere is comprised of around 80% nitrogen which is in a form (N2 or atmospheric nitrogen) that is not conventionally available to plants. Nitrogen From the Air! - Somewhere along the evolutionary development of the “Plant - Soil - Microbial Matrix”, certain bacteria began to specialize in tasks to enhance plant growth, which in return provided the microbes with a food source exchange opportunity. A select group of bacteria classified as “Diazotrophs” began to supply nitrogen to plants from a range of sources, including decomposed plant litter, dead micro-organisms, and sequestration of atmospheric nitrogen. Azos belongs to the last of these groups and functions primarily as an atmospheric nitrogen converter. Azos specializes in the highly-efficient conversion of the N2 form of nitrogen into plantavailable NH3 ammoniacal nitrogen. Azos is so efficient that between 50% and 70% of all the nitrogen required by most crops can be supplied by this organism.