THE MAIN CAUSES AND THE MAIN ADVANTAGES
Over-exploitation of soils by using conventional fertilizers.
With Silabaal no over-exploation of the soil, 100% natural product.
Diseases caused by the use of pesticides are harmful to health.
With Silabaal, the use of pesticides is drastically reduced and thus diseases are avoided.
Land reclamation through uncontrolled deforestation and slash-and-burn forest.
Not necessary because the yield with Silabaal is at least 10 - 40 % higher.
Ploughing up and intensive agriculture that is not adapted to the location.
Silabaal is very easy to use for any crop in any location.
Fertile and healthy soils are the prerequisite for our food supply. Soil degradation is a cause of hunger and malnutrition - and therefore also of conflict and migration.
The use of Silabaal improves soil quality, reduces CO2 emissions in the transport sector and increases yields. Rapid growth enables an additional cultivation phase and saves up to 70% water.
Mechanical effect keeps insects away from leaves:
The silicate particles look like small shards of glass and they do not change and remain on the surface of the leaf.
They have a very nice side effect:
The first effect of the silicate:
All insects that have touch organs in their legs find this unpleasant and will keep their distance from the plant because it is unpleasant. Here we have a repellent through a physical process.
The second effect of the silicate:
Particles are sometimes so fine that they disturb and block the respiratory organs of unwanted insects, i.e. mites, aphids. They don't like the silicate because it attacks the gills. We have a lot of insects that find the leaf fertilizer to be a repellent.
Significant increase in green mass
Increase in overall production up to 100%
Purely organic – 100% mineral product (calcite)
Reduced water consumption up to 70%
Reduced fertilizer consumption up to 98% and also transport costs
Shortening of the growing season to 30% (faster growth of seedlings)
Lower costs compared to conventional fertiliser treatment
Exceptional prophylactic action to combat fungi, insects and plant
diseases due to improved resistance
What is the fertilizer?
The basic component of fertilizer is activated micronised natural calcite, a sediment rock mineral of ocean origin formed by the collection of seaweed. Calcite consists of magnesium carbonates and shades of silicon, iron and other elements.
The fertilizer is of 100% NATURAL ORIGIN, thus not contaminating or damaging the environment and therefore suitable for biological agriculture and farming.
95.0%
2.0%
1.5%
8783mg/kg
156 mg/kg
0.24mg/kg
65
47
0.1μm to 20μm
-
Calciume Carbonate (CaCO3)
-
Silicon Dioxide (SiO2)
-
Magnesium Oxide (MgO)
-
Iron (Fe)
-
Manganese (Mn)
-
Selenium (Se)
-
Carbonate solubility
-
Neutral components
-
Granulate size
This cycle begins with each application of the fertilizer.
The more application, the better the tree or the plant.
1) Silabaal fertilizer is applied to the
leaves in the morning of a plant.
2) Within a short period of time, the photosynthesis of the leaves using sunlight
significantly increased by the fertiliser. The leaves produce more glucose and starch.
3) By producing sugars and starches in the leaves, the plant or tree stimulates its water and nutrient supply from the soil to take advantage of the extra sugars and starches.
4). The plant or tree consumes more water than the roots can provide. So it brings more roots. Even more roots can carry more water and more capture nutrients (N,P,K). The plants become healthier and stronger.
5). The extra roots are now transporting more nutrients. This is beneficial to the flowers as well as the fruits.
The plant or tree must not produce flowers or inflorescences.The result: more harvest, higher fruit quality (BRIX) and a healthy plant or tree.
This cycle begins with each application of the fertilizer.
The more application, the better the tree or the plant.
1) Silabaal fertilizer is applied to the leaves in the morning of a plant.
2) Within a short period of time,the photosynthesis of the leaves using sunlight significantly increased by
the fertiliser.
The leaves produce more glucose
and starch.
3) By producing sugars and
starches in the leaves, the plant
or tree stimulates it's water and nutrient supply from the soil to take advantage of the extra sugars and starches.
4). The plant or tree consumes more water than the roots can provide.
So it brings more roots.
Even more roots can carry more
water and more capture nutrients (N,P,K). The plants become healthier and stronger.
5). The extra roots are now transporting more nutrients.
This is beneficial to theflowers
as well as the fruits.
The plant or tree must not produce
flowers or inflores cences.
The result: more harvest, higher fruit quality (BRIX) and a healthy plant or tree.
Speed up the photosynthesis process
How does it work?
The fertilizer has been used in many countries and on various plants with stunning results. Following is a selection of success stories, where the use the fertilizer led to an increase of the harvest or rot a recovery from diseases and parasites.
Your commitment is requested for a healthy sustainable agriculture.
Become part of humanitarian projects.
Conventional fertilizer
Silabaal fertilizer
Max. 10 Tons
Max. 10 Tons
Fertilizer quantity/ 20
Consumtion/hectare:
approx. 50 kg/Hectare
approx. 8 Kg/Hectare
Productivity:
Max. 200 Hectare
Max. 1.250 Hectare
Depature
Production in Austria
Production in Austria
Arrival
South Africa
South Africa
Distance
13.388 km
13.388 km
CO2 Emissions
approx. 2.130 kg
approx. 640 kg
CO2 savings per month:
1.490 Kg/ CO2 / Month
CO2 savings per year:
17.720 Kg /CO2 / Year
Transport
20ft container
20ft container
100% CO2 neutral production.
90% less transportation volume.
0% less CO2 emissions.
By replacing conventional fertilizer with Silabaal, the amount to be transported is reduced by up to 90%. This reduces CO2 emissions in the transport sector, from the place of production to the consumer, by up to 60%, depending on the type of transport.
The production of Silabaal is 100% CO2 neutral. The use of drones for the application of Silabaal is another advantage to reduce CO2 emissions.
Conventional fertilizer
Max. 50 Kg/ Hectare
Max. 12 Kg/ Hectare
You can find some answers to your enquiries in the FAQ
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Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
100% CO2 neutral production.
90% less transportation volume.
0% less CO2 emissions.
By replacing conventional fertilizer with Silabaal, the amount to be transported is reduced by up to 90%. This reduces CO2 emissions in the transport sector, from the place of production to the consumer, by up to 60%, depending on the type of transport.
The production of Silabaal is 100% CO2 neutral. The use of drones for the application of Silabaal is another advantage to reduce CO2 emissions.
Conventional fertilizer
Max. 50 Kg/ Hectare
Max. 12 Kg/ Hectare
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
Conventional fertilizer
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Transport:
20ft container
20ft container
Significant increase in green mass
Increase in overall production up to 100%
Purely organic – 100% mineral product
Reduced water consumption up to 70%
Reduced fertilizer consumption up to
98% and also transport costs
Shortening of the growing season to 30%
(faster growth of seedlings)
Lower costs compared to conventional
fertiliser treatment
Exceptional prophylactic action to combat
fungi, insects and plant diseases due to
improved resistance
Mechanical effect keeps insects away from leaves:
The silicate particles look like small shards
of glass and they do not change and remain on the surface of the leaf.
They have a very nice side effect:
The first effect of the silicate:
All insects that have touch organs in their legs find this unpleasant and will keep their distance from the plant because it is unpleasant.
Here we have a repellent through a physical process.
The second effect of the silicate:
Particles are sometimes so fine that they disturb and block the respiratory organs of unwanted insects, i.e. mites, aphids.
They don't like the silicate because it attacks the gills.
We have a lot of insects that find the leaf fertilizer to be a repellent.
100% CO2 neutral production.
90% less transportation volume.
0% less CO2 emissions.
The production of Silabaal is 100% CO2 neutral. The use of drones for the application of Silabaal is another advantage to reduce CO2 emissions.
By replacing conventional fertilizer with Silabaal, the amount to be transported is reduced by up to 90%. This reduces CO2 emissions in the transport sector, from the place of production to the consumer, by up to 60%, depending on the type of transport.
Max. 12 Kg/ Hectare
Conventional fertilizer
Max. 50 Kg/ Hectare
- Calciume Carbonate (CaCO3)
- Silicon Dioxide (SiO2)
- Iron (Fe)
- Manganese (Mn)
- Selenium (Se)
- Carbonate solubility
- Neutral components
- Granulate size
- Magnesium Oxide (MgO)
- Magnesium Oxide (MgO)
95.0 %
2.0 %
1.5 %
8783 mg/kg
156 mg/kg
0.24 mg/kg
65
47
0.1μm to 20μm
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
CO2 COMPARISON
What is the fertilizer?
The basic component of fertilizer is activated micronised natural calcite, a sediment rock mineral of ocean origin formed by the collection of seaweed. Calcite consists of magnesium carbonates and shades of silicon, iron and other elements.
The fertilizer is of 100% NATURAL ORIGIN, thus not contaminating or damaging the environment and therefore suitable for biological agriculture and farming.
The fertilizer has been used in many countries and on various plants with stunning results. Following is a selection of success stories, where the use the fertilizer led to an increase of the harvest or rot a recovery from diseases and parasites.
Your commitment is requested for a healthy sustainable agriculture.
Become part of humanitarian projects.
Speed up the photosynthesis process
How does it work?
You can find some answers to your enquiries here in the FAQ
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Fertilizer quantity/ 20ft:
Max. 10 Tons
Max. 10 Tons
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Productivity:
Max. 200 Hectare
Max. 1.250 Hectare
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Consumption/hectare:
approx. 8 Kg/Hectae
approx. 50 Kg/Hectae
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Departure:
Austria
Austria
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
CO2 savings / Year:
17.720 Kg /CO2 / Year
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
CO2 emissions:
approx, 640 Kg
approx, 2.130 Kg
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Arrival:
South Africa
South Africa
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
CO2 savings / month:
1.490 Kg/ CO2 / Month
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Distance:
13.388 Km
13.388 Km
Conventional fertilizer
SILABAAL
20ft container
Max. 10 Tons
approx. 8 Kg/Hectare
Max. 1.250 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 640 Kg
1.490 Kg/ CO2 / Month
17.720 Kg /CO2 / Year
20ft container
Max. 10 Tons
approx. 50 Kg/Hectare
Max. 200 Hectare
Produktion in Austria
South Africa
13.388 Km
approx, 2.130 Kg
Transport:
Fertilizer quantity/ 20ft:
Consumption/hectare:
Productivity:
Departure:
Arrival:
Distance:
CO2 emissions:
CO2 savings per month:
CO2 savings per year:
Conventional fertilizer
SILABAAL