MIRACLE SOIL CONDITIONER (MSC) is a liquid biodegradable soil conditioner, with all the secondary macro-nutrients, and all the necessary micro-nutrients needed for vigorous plant growth. It also has natural insect repellent ingredients which non-harmful to the farmer and environment-friendly.
2. CURRENT PROBLEMS IN FARMING:
1. Soil acidity
- limits the availability of some essential plant nutrients
- increases the soil solution’s toxic elements, such as
aluminum and manganese, the major cause of poor
crop performance and failure in acidic soils.
- Below soil pH5.5
aluminum maybe concentrated enough to limit or
stop root development. As a result, plants cannot
absorb water and nutrients, are stunted, and exhibit
nutrient deficiency symptoms.
Toxic levels of manganese interfere with normal
growth process in the aerial plant parts, which
stunts the plants, discolors it, and causes poor yields.
3. 2. LOW YIELD
3. Heavy applications of chemical fertilizers
alone, decline crops productivity (Food &
Fertilizer Technology Center, 2001).
4. HIGH EXPENSE due to price increase on
fertilizers and pesticides.
WHAT WE NEED?
4. WHAT WE NEED?
1. A product that can neutralize the soil acidity
- LIME :
Laborious and expensive
50 bags/has, P50.00/bag = P2,500.00
It will take 4 months upon application of lime before
you can use the soil.
** If only there is a product that can neutralize soil
acidity in one day, not expensive and not laborious.
2. A product that will decrease our expenses
3. A product that will increase our yield
4. A pesticide that is non-toxic/not harmful to our health.
IS THERE ANY SOLUTION?
5.
6.
7. DEPARTMENT OF AGRICULTURE
Report Shows Organic
Farming Enhances Food
Safety
A recent report released by the
Organic Center concludes that
organic farming practices can
lessen the risk of dangerous
mycotoxin contamination in foods,
especially grain-based products.
8. DEPARTMENT OF AGRICULTURE
NOTHERN MINDANAO ACCREDITED
RESEARCH CENTER
The Efficacy of MIRACLE SOIL CONDITIONER on the
AGRONOMIC PERFORMANCE ON TOMATO
by: LORENA V. DUNA
Accredited Researcher on Plant Nutrition /PNT 148
DA-NOMIARC, Dalwangan, Malaybalay City, Bukidnon
therefore, it is highly suggested that Miracle Soil Conditioner will be
registered as New Soil Conditioner for solanaceous family, specifically for
Tomato Crop.
9. BENEFITS:
• 50% DECREASE ON FERTILIZER USAGE
• INCREASES YIELD UP TO 60-80%
• INSECT REPELLANT
• NON-TOXIC & BIODEGRADABLE
• ENVIRONMENTALLY FRIENDLY
• NEUTRALIZES SOIL ACIDITY
• FOLIAR SOIL CONDITIONER
• ENHANCES THE AVAILABILITY OF
NUTRIENTS FOR PLANT’S USE
• HAS ESSENTIAL MICRONUTRIENTS
NEEDED FOR PLANT GROWTH AND
PRODUCTION
10. MIRACLE SOIL CONDITIONER
MSC Natural Liquid Soil Conditioner is an important
part of any soil fertility and plant nutrition program.
MSC Natural Liquid Soil conditioner contains 12.4%
(ph), to help neutralize acidic soil that aids in plant
establishment and production of prolific blooms and
high yields of top quality fruits.
MSC Natural Liquid Soil Conditioner is recommended
for application 3 days before planting of vegetable
and planting of bulbs and seeds.
It increases micro nutrients for plant needs and
development which produces faster
growing, healthier plants.
11. Application of MSC Natural Liquid
Soil Conditioner to Tomato crops
increases the size and quantity of
fruits.
Application to bulbs increases the
number and size of flowers, and the
bulbs can be split more frequently.
12. Increased phosphorus availability
during flowering and fruit
development lengthens the flowering
period and produces higher numbers
of flowers and fruits.
13. The fast release of micro nutrient in MSC
Natural Liquid Soil Conditioner makes it
an excellent source for foliar feeding fruit
trees, flowers, vegetables and crops that
require extra phosphorus during early
bud formation and fruit enlargement.
MSC Natural Liquid Soil Conditioner
is the key to early plant growth and
development and super yields of high
quality fruits, flowers, roots and field
crops that need extra phosphorus and
Calcium.
14. HOW TO USE MSC
MIX 1 Liter OF MSC TO 100 liters of water
Good for ½ hectare
Spray 3 days before Planting
( spray directly to soil plots)
2nd application 30 days after planting
( spray both leaves and soil for best result)
3rd application during booting stage
( Recommended especially to vegetables crops)
15. INPUT EXPENSES W/O MSC W/MSC
SEEDS 2,000.00 2,000.00
LAND PREP 3,500.00 3,500.00
PULLING & TRANSPLANTING 5,000.00 5,000.00
FERTILIZER 12,000.00 6,000.00
PESTICIDES 5,000.00 -
HARVESTING 8,000.00 12,000.00
MSC(4LITERS) - 3,000.00
TOTAL 35,500.00 31,500.00
EXPECTED YIELD(SACKS) 100 SACKS 175 SACKS
AVERAGE WT (KG) 50 KLS 50 KLS
GROSS WT/HA 5,000 KLS 8,750 KLS
FINALLY... PRICE/KG 15.00 15.00
A GROSS SALES 75,000.00 131,250.00
SOLUTION
TO
LESS EXPENSES 35,500.00 31,500.00
FARMER’S NET INCOME 39,500.00 99,750.00
PROBLEM
ADDITIONAL INCOME: 60,250.00
18. Calcium: A Central Regulator of Plant Growth
and Development
Today no one questions the assertion
that Ca2+ is a crucial regulator of growth
and development in plants.
The myriad processes in which this ion
participates is large and growing and
involves nearly all aspects of plant
development. (recent reviews in Harper et
al., 2004
19. Several defects that can be associated
with low levels of this ion, including:
poor root development
leaf necrosis and curling
blossom end rot
bitter pit
fruit cracking
poor fruit storage
water soaking (Simon, 1978
20. Magnesium is part of the chlorophyll in
all green plants and essential for
photosynthesis.
Magnesium is found in algal pigments
(known as chlorophyll) and is used in
the metabolism of
plants, algae, fungi, and bacteria.
Magnesium is found in many enzymes in
both plants and animals.
21. An enzyme is a catalyst in a living organism.
It speeds up the rate at which certain
changes.
Without magnesium it would die because it
would not be able to photosynthesize.
So it would not have any food which is
glucose as energy for growth and repair.
The magnesium is needed so that the
chlorophyll in the chloroplasts can capture
the sun's light energy and use it for
photosynthesis.
22. Deficiency of the nutrient results in :
disease in the affected organism.
In single-celled organisms such as
bacteria and yeast, low levels of magnesium
manifests in greatly reduced growth rates.
In magnesium transport knockout strains
of bacteria, healthy rates are maintained only
with exposure to very high external
concentrations of the ion.[14] [15]
In yeast, mitochondrial magnesium
deficiency also leads to disease.[16]
23. Deficiency of the nutrient results in :
Plants deficient in magnesium show stress
responses.
The first observable signs of both
magnesium starvation and overexposure in
plants is a decrease in the rate of
photosynthesis. This is due to the central
position of the Mg++ ion in the chlorophyll
molecule.
The later effects of magnesium deficiency
on plants are a significant reduction in
growth and reproductive viability.[3]
24. Space-filling model of the chlorophyll a
molecule, with the Magnesium ion (bright green)
visible at the center of the porphyrin group
26. Zinc (Zn) is one mineral or micronutrient
that plants need in very minute amounts.
This metal is naturally found in soil and
water and is found throughout plant
tissues, including leaves or fruits that
humans and other animals consume.
Problems arise when plants are both
deprived of zinc molecules.
27. The Role of Zinc in Plant Health
1. Zinc plays a central role in healthy plant metabolism and
growth processes.
2. Zinc is not needed in as large amounts as nitrogen,
potassium or phosphorus. Molecules are absorbed by the
roots and are transported in the vascular tissues in plants,
which are called phloem and xylem, especially in
conjunction with movement of nitrogen molecules.
3. Zinc is needed for the creation of the plant growth hormone
auxin and for creation of the green chlorophyll and
cytochrome pigments.
4. It also has a role in formation of enzymes and carbohydrates,
regulation of starches and proper root development.
5. Zinc also helps plants assimilate to cold temperatures
across the growing season.
28. Zinc Deficiency
When soils are devoid of zinc molecules,
physical changes manifest themselves on
the plant.
Soils that are arid, calcareous or highly
weathered but acidic often have deficient
zinc contents for healthy plant growth.
29. Visual cues on plants lacking adequate
zinc:
1. Young leaves may be yellowed or reduced in
normal size (called "little leaf")
2. Narrower than normal leaves with wavy
edges or abnormally expanding and
puckered.
3. Another cue is what is called "rosetting"--
space between new leaves is very small, and
tiny leaves and shoots bunch up into a
clustered tuft.
40. Result of the efficacy test on MSC
conducted in Adtuyon clay soil at
NOMIARC, Dalwangan, Malaybalay
Variety: (Dwarf Tomato) 64.77%
Per hectare (highest yield)
without MSC = 27.604 tons
with MSC = 45.208 tons
difference: 17.604 tons
highest number of fruits per plant:
without MSC = 25.4
with MSC = 39.8
difference = 14.40
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LICENSE NO. 285
FPA CONTROL NO. 011112008
MSC REG. NO. W284, CONTROL NO. 0563F