Hydroculture/Nutrition
Following pertains to plant minerals and pH levels. Dilute 1 tablespoon of fertilizer in a gallon container with water at a time before adding to system. (Adding too little is safer than adding too much). For non-hydroponic fertilizers use 1/10 of the dosing on the label, with the amount of water in the container in mind. The hoagland solution provides a basic reference point. (Please do more research on this).
Essential elements
[edit | edit source]Calcium, carbon, hydrogen, magnesium, nitrogen, oxygen, phosphorus, potassium, and sulfur are essential macro-elements. Oxygen, hydrogen, and carbon are obtained from water and air.[1]
Nitrogen, phosphorus and sulfur can be fixed by certain endophyte bacteria.
Boron, chlorine, copper, iron, magnesium, molybdenum, zinc and possibly nickel are essential micro-nutrients.[1]
Hard tap water contains many plant nutrients.[1]
Nonessential minerals
[edit | edit source]There are other minerals used or taken up by plants, but they are not considered essential.[1] Some nonessential minerals are contaminants to plant or human health.[1]
pH
[edit | edit source]Sodium bicarbonate helps buffer pH levels, and fortunately some may already be present in tap water.[1]
Testing
[edit | edit source]Measuring the conductivity of the water (using a multimeter) is a way of analyzing the total dissolved solids. This indicates whether the water solution is within range, but this method doesn't test for nutrient imbalances. Test paper, or a pH and nutrient meter is required for more testing.[1]
Formulations
[edit | edit source]- 1 ppm=1 mg/l [1]
The weight ratio of an essential element within a nutrient compound needs to be found, and the atomic weight of these elements and a chart is helpful to solve this.[1]
Hoagland solution
[edit | edit source]Advisories
[edit | edit source]Do not add mineral tablets (except calcium?) not made for fertilizer purposes to the nutrient solution. The nutrient solution should be clear when the system is set up.