Organic-inorganic compound fertilizer
A compound fertilizer and inorganic technology, applied in fertilizer mixture, fertilization device, application, etc., can solve the problems that the actual utilization rate of chemical fertilizer is less than 30%, it is not sustainable, and the content of heavy metals is increased, so as to improve plant disease resistance Strength and immunity, reduce the chance of sick and weak plants, and promote the effect of fermentation
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Embodiment 1
[0022] (1) Sun-dried 15 parts of soybean meal and 10 parts of bagasse to 30-100 mesh, and crushed 1.5 parts of dolomite to 50-100 mesh;
[0023] (2) Mix 1.5 parts of rice bran, 10 parts of peat soil and 5 parts of peat moss and crush them through a 1cm-2cm sieve;
[0024] (3) 0.1 part of Bacillus subtilis, 0.1 part of phosphate-solubilizing bacterium Bacillus megaterium, and 0.1 part of potassium-solubilizing bacterium jelly-like spores are fermented and produced respectively;
[0025] (4) The bacterial liquid obtained by fermenting step (3) is adsorbed with the mixture obtained in step (2) respectively, and the adsorbed bacterial agent is mixed;
[0026] (5) Mix the substances obtained in step (1) into the fermentation tank, and at the same time put the bacterial agent obtained in step (4), and put in 10 parts of humic acid, 8 parts of ammonium sulfate, 0.1 part of alum, sulfuric acid 3 parts of ferrous iron, fermented at 25°C for 48 hours;
[0027] (6) Add 0.1 part of indo...
Embodiment 2
[0029] (1) Sun-dried 25 parts of soybean meal and 12 parts of bagasse to 30-100 mesh, and crushed 3.5 parts of dolomite to 50-100 mesh;
[0030] (2) Mix 2 parts of rice bran, 10 parts of peat soil and 6 parts of peat moss and crush them through a 1cm-2cm sieve;
[0031] (3) 0.8 parts of Bacillus subtilis, 0.8 parts of phosphate-solubilizing bacteria Bacillus megaterium, and 0.8 parts of potassium-solubilizing bacteria jelly-like spores were fermented and produced respectively;
[0032] (4) The bacterial liquid obtained by fermenting step (3) is adsorbed with the mixture obtained in step (2) respectively, and the adsorbed bacterial agent is mixed;
[0033] (5) Mix the substances obtained in step (1) into the fermentation tank, and at the same time put the bacterial agent obtained in step (4), and put in 15 parts of humic acid, 10 parts of ammonium sulfate, 3 parts of alum, sulfuric acid 5 parts of ferrous iron, fermented at 30°C for 48 hours;
[0034] (6) Add 0.2 parts of ind...
Embodiment 3
[0036] (1) Sun-dried 35 parts of soybean meal and 15 parts of bagasse to 30-100 mesh, and crushed 5.5 parts of dolomite to 50-100 mesh;
[0037] (2) Mix 2 parts of rice bran, 10 parts of peat soil and 6 parts of peat moss and crush them through a 1cm-2cm sieve;
[0038] (3) 1.2 parts of Bacillus subtilis, 1.5 parts of phosphate-solubilizing bacteria Bacillus megaterium, and 1.0 parts of potassium-solubilizing bacteria jelly-like spores were fermented and produced respectively;
[0039] (4) The bacterial liquid obtained by fermenting step (3) is adsorbed with the mixture obtained in step (2) respectively, and the adsorbed bacterial agent is mixed;
[0040] (5) Mix the substances obtained in step (1) into the fermentation tank, and at the same time put the bacterial agent obtained in step (4), and put in 20 parts of humic acid, 12 parts of ammonium sulfate, 4 parts of alum, sulfuric acid 7 parts of ferrous iron, fermented at 35°C for 48 hours;
[0041] (6) Add 0.3 parts of ind...
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