Guys that was awesome. You should have 100k followers. Love your products, and Dr Faust. Great to meet the current team and see why you guys are still killing it.
The Plant Biochemical Sequence begins with: 1 - Boron: Boron is the gas pedal of the sequence. It creates sap pressure which allows vascular fluids to move up and down your plant. It also activates Silicon - an often overlooked element in plant nutrition, but most definitely an essential one. 2 - Silica/Silicon: Boron provided the gas to move, but without a good highway system you would still get nowhere. Silicon provides the highway that facilitates efficient transport of all other nutrients. 3 - Calcium: Now we have gas and a highway system, we need something to travel our highway with. That’s where Calcium comes in. Calcium is the truck that travels on the silicon highway, collecting and carrying the nutrients that follow in the sequence. 4 - Nitrogen: Our Calcium truck holds precious cargo, our Nitrogen. Nitrogen is the basis of amino acid formation, protein chemistry and DNA replication. Once Nitrogen enters the equation, all sorts of proteins, enzymes, and hormones are produced, and other complex processes are set in motion. 5 - Magnesium: When the calcium truck arrives at its destination, the next thing on the agenda becomes the harvesting of energy. Plants do this with their chlorophyll, which ‘catch’ the energy from the sun in the process we know as “photosynthesis” (you know, our source of oxygen). Magnesium is essential in photosynthesis, and can be looked at as the power plant, allowing chlorophyll to function. 6 - Phosphorus: After the chlorophyll caught the energy, this energy needs to be put to good use. As you may remember from high school biology: In photosynthesis, light, carbon dioxide and water are used to produce carbohydrates (sugars). Phosphorus plays an essential role here, as it allows an energy transfer from the chlorophyll. In this regard, we can look at Phosphorus as the gas station providing chlorophyll a place to store energy during photosynthesis. 7 - Carbon: Carbon, as Carbon dioxide (CO2), combines with water, making carbohydrates (sugar) and releasing oxygen. 8 - Potassium: And finally the produced sugars need to find their way to wherever they are needed most. Potassium is the tour guide in charge of just that! Pocket version Biochemical Process of Plant Nutrition Biochemical Process of plant Nutrition (oversimplified) for the plant kicks off at with Boron Boron, which then activates Silicon, which carries all other nutrients including Calcium, which binds Nitrogen, to form necessary amino acids, DNA and cell division.Amino Acids form proteins such as Chlorophyll and tag trace elements, especially Magnesium, which transfers energy via Phosphorous, to Carbon, to form sugars which go where Potassium carries them.
Guys that was awesome. You should have 100k followers. Love your products, and Dr Faust. Great to meet the current team and see why you guys are still killing it.
Thank you for the kind words!
Great conversation 👍🙌
The Plant Biochemical Sequence begins with:
1 - Boron: Boron is the gas pedal of the sequence. It creates sap pressure which allows vascular fluids to move up and down your plant. It also activates Silicon - an often overlooked element in plant nutrition, but most definitely an essential one.
2 - Silica/Silicon: Boron provided the gas to move, but without a good highway system you would still get nowhere. Silicon provides the highway that facilitates efficient transport of all other nutrients.
3 - Calcium: Now we have gas and a highway system, we need something to travel our highway with. That’s where Calcium comes in. Calcium is the truck that travels on the silicon highway, collecting and carrying the nutrients that follow in the sequence.
4 - Nitrogen: Our Calcium truck holds precious cargo, our Nitrogen. Nitrogen is the basis of amino acid formation, protein chemistry and DNA replication. Once Nitrogen enters the equation, all sorts of proteins, enzymes, and hormones are produced, and other complex processes are set in motion.
5 - Magnesium: When the calcium truck arrives at its destination, the next thing on the agenda becomes the harvesting of energy. Plants do this with their chlorophyll, which ‘catch’ the energy from the sun in the process we know as “photosynthesis” (you know, our source of oxygen). Magnesium is essential in photosynthesis, and can be looked at as the power plant, allowing chlorophyll to function.
6 - Phosphorus: After the chlorophyll caught the energy, this energy needs to be put to good use. As you may remember from high school biology: In photosynthesis, light, carbon dioxide and water are used to produce carbohydrates (sugars). Phosphorus plays an essential role here, as it allows an energy transfer from the chlorophyll. In this regard, we can look at Phosphorus as the gas station providing chlorophyll a place to store energy during photosynthesis.
7 - Carbon: Carbon, as Carbon dioxide (CO2), combines with water, making carbohydrates (sugar) and releasing oxygen.
8 - Potassium: And finally the produced sugars need to find their way to wherever they are needed most. Potassium is the tour guide in charge of just that!
Pocket version
Biochemical Process of Plant Nutrition
Biochemical Process of plant Nutrition (oversimplified) for the plant kicks off at with Boron
Boron, which then activates
Silicon, which carries all other nutrients including
Calcium, which binds
Nitrogen, to form necessary amino acids, DNA and cell division.Amino Acids form proteins such as Chlorophyll and tag trace elements, especially
Magnesium, which transfers energy via
Phosphorous, to
Carbon, to form sugars which go where
Potassium carries them.
which products do you mean, that are not enough declarated?