Bioalga 5 l

T14660
As the weather changes, plants become more vulnerable. We need to respond to these changes. As soil conditions deteriorate, foliar fertilisation of crops is an option. This makes the role of foliar fertilisation more important. It does matter what we do and how we do it. Unfortunately, current foliar fertilisation has many shortcomings. Nutrient... Long description
HUF 15,192 * (nettó: HUF 11,962)

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As the weather changes, plants become more vulnerable. We need to respond to these changes. As soil conditions deteriorate, foliar fertilisation of crops is an option. This makes the role of foliar fertilisation more important. It does matter what we do and how we do it. Unfortunately, current foliar fertilisation has many shortcomings. Nutrients are the "building blocks" of plants. It is not just the few nutrients on which today's nutrient supply is concentrated, but the total nutrient supply that produces results that are stress tolerant, high yielding, less susceptible to disease and high yielding. However, if we consider today's foliar fertilisation practices, we see that a lot of materials would have to be used to achieve this, and we are using synthetic materials whose utilisation is further degraded by changes in biological conditions (weather and environmental factors).

Furthermore, foliar fertilisation practices have to take into account the effect of Liebig's law. In other words, whatever the active ingredient content, it can only be utilised to the extent that it is the smallest available nutrient in the plant. In other words, it is useless to "overfeed" the plant because the plant can absorb the other elements in the same proportion as the smallest amount of the element. This is the reason for the low uptake of the active substances used (e.g. fertilisers). Until these deficiencies are eliminated, we will continue to pay high additional costs and losses. The most important thing to understand is that at today's cost price we need to turn to materials that eliminate the adverse effects of Liebig's Law. We can only do this by using an all-inclusive and organic material. Organic material is needed because it is less vulnerable to environmental impacts. In this way we can both replace all the elements and ensure utilisation. This is particularly important because the role of microelements is essential for high yields and outstanding yield security. Because enzymes and vitamins - which the plant can produce itself - can only fulfil their physiological role if they are activated by a specific microelement. However, microelements cannot be produced by the plant. So they must be replaced.

However, environmental changes mean that foliar fertilisation must increasingly focus not only on providing complete nutrients and micronutrient uptake, but also on plant protection. With the increase in fungi and pathogenic organisms, the costs of plant protection and the risk of crop failure are increasing. The question is, how long can we tolerate all this?

Bioalga technology offers a solution to these problems in several ways. Bioalgae is a living microalgae fertiliser. They are cultivated in a specific, controlled way, the microalgae are themselves plants. They synthesize all the nutrients, micro-, macro-, meso-elements, vitamins, enzymes, essential amino acids and minerals in their own body. Unlike crops, fruit or horticultural crops, they are the only ones in the entire plant kingdom that can do this and do it most efficiently. In developing Bioalgae technology, we have sought to create a technology that can provide all the nutrients simultaneously, all in an organic form that not only ensures rapid and complete uptake but, unlike inorganic materials, is not vulnerable to changes in environmental factors. Bioalgae technology is a form of smart foliar fertilization. This means that it is able to react to the effects and stresses on the plant and provide the plant with the nutrients it needs to withstand the stress.


The microalgae in Bioalgae microalgae technology, once applied, enter the plant through the gas channels and can be utilised at the cellular level through the lymphatic system. As the plant's leaf cover transmits sunlight, Bioalgae microalgae are able to photosynthesise continuously, using solar energy to ensure a continuous supply of nutrients to the plant. Since we are talking about living matter, its effectiveness lies precisely in the fact that it synthesises nutrients continuously, feeding the plant from the inside. Because of this continuity, it has a long-lasting effect, unlike the substances used today. Bioalgae microalgae produce large quantities of chlorophyll thanks to a special production technology. It produces up to 100 times more chlorophyll than field crops. The physiological role of chlorophyll is indispensable: it transports oxygen and is the "blood" of plants. Pathogenic organisms cannot colonise an oxygen-rich plant. It also produces antioxidants that can be used to prevent or treat certain diseases. Bioalga's complexity has opened up a new horizon in plant nutrition and plant protection. Its application over many years at the farm level has proven this, as have the laboratory experiments carried out over the years.

That is why Bioalgae is used in herds:
complete, complex nutrient supply
organic form, immediate utilisation, no weather exposure
eliminates deficiency states, which increases the utilisation of all other substances
continuous nutrient production, long-lasting lasting effect
higher green weight, higher yield
inhibits cell senescence, keeping the plant "young", life-saving in drought
inhibits chlorophyll degradation, ensuring adequate oxygen uptake
rapidly regenerates weakened plants
efficient CO2 fixation, making more oxygen available for photosynthesis
stress tolerant plants
drought tolerance
lower drying costs due to more ideal water drainage
higher nutritional value, higher marketability for plants
cannot be overdosed, does not burn
0 day health waiting time
meets the highest environmental and food safety standards in all respects
Bioalgae technology proposal
Autumn crops
Wheat, barley, triricale, rye Autumn treatment: 10 litres/ha before winter
Spring 1st treatment: 15-20 litres/ha at emergence
spring treatment 2: 15 litres/ha before flowering
Oilseed rape autumn treatment: before winter 10 litres/ha
spring treatment 1: 20 litres/ha at emergence
spring treatment 2: 20 litres/ha at the beginning of seedling maturation
Weight: 5 kg
Width: 180 mm
Height: 180 mm
Length: 260 mm
Aviability: 1-4 nap
Basic sales unit: db
Culture: Díszkert, Dísznövény, Gyümölcs, Pázsit, Szobanövény, Szőlő, Zöldség

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