Agriculture Brochure 2009 - Victus Labs
Food Security-Crop Productivity in India-Fertilizer Use-Integrated Nutrient Management- Role of nutrition in pest and disease resistance- Products for improving soil fertility-Stress Biotechnology-Agricultural Surfactants-BioWish
2. About Us
TM
Victus is a Latin word meaning ‘to nourish’
Victus Labs core competency is nutrition, disease and pest management
We offer specialized products for agriculture
3. Working towards food security
The world population was 2 billion during 1950’s
World population during 2009 is 6.5 billion
4. Working towards food security
“We should use organic agriculture and promote it,
but you cannot feed six billion people today and nine
billion in 2050 without judicious use of chemical fertilizers.”
- Jacques Diouf, FAO Director-General, Dec 2007
5. Crop productivity in India
Let’s take the example of paddy cultivation in India
Highest productivity – Punjab
Average Yield - 3.69 Tonnes/Hectare
Lowest productivity – Madhya Pradesh
Average Yield - 1.00 Tonnes/Hectare
World’s Highest – 8-10 Tonnes/Hectare
6. Crop productivity in India
Maize cultivation in India
Highest productivity – Andhra Pradesh
Average Yield - 3.44 Tonnes/Hectare
Lowest productivity – Uttar Pradesh
Average Yield - 1.39 Tonnes/Hectare
World’s Highest – 10 Tonnes/Hectare
Request our Project Maize 2009 Brochure for additional information
7. Crop productivity in India
Groundnut cultivation in India
Highest productivity – Gujarat
Average Yield - 2.23 Tonnes/Hectare
Lowest productivity – Karnataka
Average Yield - 0.58 Tonnes/Hectare
World’s Highest – 3.5 Tonnes/Hectare
8. Crop productivity in India
Factors needing attention
Soil health and nutrient management
Water management
Seed management
Farm mechanization
9. Soil health and nutrient management
Soil health depends on
Physical fertility
Chemical fertility
Biological fertility
11. Food demand is driven by population growth and land scarcity
People fed per hectare
1960 – 2 people
1995 – 4 people
2025 – 5 people
12. Agricultural production at present is roughly 90% dependent
on oil inputs; Farming inputs are literally petroleum based.
Petroleum geologists say that the world is facing
peak world oil production.
Did you know this?
If all the countries in the world ate the way the
American eats, humanity would exhaust all known
global fossil-fuel reserves in just seven years.
- Harpers Magazine, February 2004.
www.harpers.org/Theoilweeat.html.
13. Food grain production in India is becoming stagnant
Up to 1997-1998:
Fertilizer consumption (N,P, K) = Food grain production
From 1998-Now:
Fertilizer consumption (N,P, K) ≠ Food grain production
14. Extent of nutrient deficiency in Indian Soils
50% of soil samples analyzed have high
Potassium deficiency
25% of soil samples analyzed have high
Sulphur deficiency
49% of soil samples analyzed are deficient
in Zinc, 33% in Boron and 12% in Iron
15. Micronutrient deficiency in Indian soils is increasing
Many experiments have proven significant increase in yields by
providing secondary and micronutrients along with NPK nutrients
16. Fertilizer Use in India in comparison to other countries
Fertilizer Usage Average yield of food grains
India: 105 Kg/Ha India: 2100 Kg/Ha
China: 275 Kg/Ha China: 4800 Kg/Ha
Egypt: 471 Kg/Ha Egypt: 7250 kg/Ha
17. Improving productivity by Integrated Nutrient Management
N P K + Ca Mg S + B Cu Fe Mn Zn Mo
Closing the nutrient gap through balanced fertilization
18. Improving productivity by Integrated Nutrient Management
N P K + Ca Mg S + B Cu Fe Mn Zn Mo
Closing the nutrient gap through balanced fertilization
19. Role of balanced nutrition in pest and disease resistance
Most important nutrients for disease resistance
K Ca S B Cu Mn
Indirectly involved in disease resistance
Zn
Some facts
K involved in mobilization of plant defense system
increases cuticle thickness
Ca fortifies middle lamella
slows the degradation by pathogens
B involved in metabolism of phenolics
24. specialized micronutrient mix for enhanced foliar uptake
and translocation of micronutrients
MicroJet spray droplets
optimized for foliar uptake
25. Surfactant based delivery system
Uniform suspension of micronutrients
unlike conventional foliar micronutrients.
Fully soluble in water
prevents evaporation promotes leaf adhesion
promotes spreading efficient absorption
26. Victus Specialty Crop Care
Role of CalJet and MicroJet during flowering and reproduction
Shorten time to flowering
Increase number of reproductive buds ( flowers / fruiting positions)
Increase bud strength/viability
Increase pollination (pollen tube growth, transfer of pollen into stigma)
Reduce flower and fruit abortion
27. Foliar Products for improving crop productivity under stress
Stress Biotechnology
Abiotic Stress
Celer is a specialized product for abiotic stress
management in crops. Celer contains amino acids in a
concentrated formulation unlike other diluted liquid
formulations, providing easy to assimilate building blocks
for protein synthesis.
Celer enhances the protein synthesis and promotes cell
division and cell expansion. It improves plant vigor and
helps to withstand stress conditions. Celer improves shelf
life and yield of fruits and vegetables.
28. Foliar Products for improving crop productivity under stress
Stress Biotechnology
Biotic Stress
Fortress is a elicitor based product for biotic stress management.
Fortress improves the uptake and utilization of plant nutrients and
assists in the process of photosynthesis. Fortress improves the
overall plant rigidity by enriching the cell wall. Fortress enhances
resistance to infiltration by fungal pathogens and sap sucking pests.
30. Agricultural Surfactants
Adjuvant (Definition)
A material added to a tank mix solution to aid
or modify the action of an agrichemical or the
physical characteristics of the mixture
Adjuvant may be a surfactant, drift control agent, water conditioner, etc
Surfactant
Surface Active Agents; usually lowers the surface tension
of spray solution
31. Contact angle
• “Contact angle” (CA) is a profile measurement of a drop of water in contact with a solid surface.
• When a surfactant (wetting agent) is introduced into the solution, the surface tension is reduced
and the water droplet becomes flatter.
• Lower the CA, the greater the spreading and coverage properties
• Water has a CA of 93 degrees. A typical surfactant influences the contact angle 30-45 degrees, and
UltraWet can reduce contact angles to 25 degrees or less.
33. Qualities required for a superior foliar surfactant system
Non ionic nature:
contains no charge, does not react with active ingredient
Superior retention:
The spray droplet has to transfer its flight energy
to the surface within milliseconds
Superior spreading:
Increases wettability of foliar surface ensuring
better coverage
34. Qualities required for a superior foliar surfactant system
Factors influencing the foliar uptake:
Plant cuticle
(e.g. species, growth stage, growing conditions)
Active ingredient
(e.g. size and solubility)
Environmental conditions
(e.g. temperature, relative humidity, wind, rain)
Formulation system
35. Exploring inside the leaf
Waxy coating (hydrophobic) on the leaf surface makes it difficult to retain the spray droplets
Cuticle
Upper epidermis
Palisade
Note: mesophyll cells
Cuticle is present
on both sides of
Bundle sheath cells
the leaf surface
Xylem
Phloem
Lower epidermis
Spongy mesophyll cells
Guard cells
Stomata
Point to note:
Cuticle 1 cm = 10 mm
1mm= 1/1000 μm (micron)
1 μm = 1/1000 nm (nano)
Stomata when open, size = 50-100 μm ; cuticular pore sizes are in nanometers
38. Foliar sprays without high quality surfactants mostly enter
into the leaf through stomatal opening.
Our surfactants help the foliar spray droplets to be retained in
the leaf surface and get in through cuticular pores
40. UltraWet superior non-ionic surfactant
Lower surface tension than conventional non-ionic surfactants
Lower spray volume and lower active ingredients usage rates
Greater coverage over the leaf surface
Increased plant penetration
Enhanced cohesion
Shorter drying time
Reduced rainfall degradation
41. UltraWet Challenge
Can your surfactant spread water droplets
on any foliar surface?
To visualize the spreading effect of
UltraWet we recommend you to place a
drop of water on a leaf surface and add
a small droplet of UltraWet to the water
drop. The spreading also results in
penetration of the foliar spray into the
leaf.
To know more request video
demonstration CD of foliar spreading
and penetration demo.
42. Surfact-V multi component surfactant system
Spreader, Sticker, Anti-drying
Water droplet Water droplet + Surfact-V
Enhances
water wettability
450 Reduces the
contact angle
Even spreading
over leaf surface
Displaces air molecules over leaf surface
46. Victus labs does extensive field campaigns, educates farmers about improving soil
organic matter, role of humus in crop productivity, importance of macro and micro
nutrients in agriculture, stress and disease management.
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50. Our field staffs undergo intensive training in improving soil fertility,
nutrient and disease management
51. Contact Us
Victus Laboratories India Private Limited,
# 75 Gowtham Apartments,
Sundaresa Layout (Opp-Rainbow Manor),
Trichy Road, Coimbatore, Tamil Nadu,
INDIA- 641018
Phone : +91-422-4391916
Fax : +91-422-4391915
www.victuslabs.com