5731 Lexington Drive
Parrish Florida 34219 USA
Phone Domestic/International 336 306-0193/800 995-9203
In support of the US GOV the Farm Security Acts starting in 2002 for Biobased Technology. Soysoap 1 was a the product for companies to have their own private-label Ag products: Agriculture Soap, Agri-Nano, PicoTechnology, Agro-Boost, Agro-Maxx, Bio-Charge, BioGrowz, Biowash 1227, Biowash, BinBuster XP, Enhance 250, Equimend, Evergreen AG, Exciter, Greenyields, Heighten Plus, Immunity, Lectrol, MaxGreen, Maxigro, Micromix XP, MO-300, Mo360, Soysoap 1, Nugreen, Soysoap 1, Organica, Eco Win, Soysoap 1, Soysoap Surfactant, SuperPro Gro, Soysoap 1, Yield Power and many more!
Soysoap is trademarked with the US Government and is not a specific product, but a family of product made from a single formulation for many different applications (Agriculture, Home, Business and Industrial Cleaning), Animal Care, Human Care, Marine, Food Processing and Remediation of Soils and Water in support of the Clean Water Act.
The product can also be used within some products as an inert to provide a 21st century super surfactant. It can be sold as RTU (Ready to Use), Sub-Concentrates and 100% concentrate by our distribution so prices can vary because of it. Our product is sold commercially by distribution and importers for many applications abiding by the laws of each country.
Pico Ag is a Biotechnology company which specializes in making products out of Farm Grown biomass, Biobased US GOV FDA EAFUS Food Additive Database of ingredients. We sell to the public, distributors and dealers our Soysoap throughout the world now for 20 years.
Companies in turn private label these products and sell them to their customers. Our goals and mission to end world poverty and hunger, via Soysoap by creating more disease free, toxic free, pesticide free agricultural products. Our product line and is sold in different countries with specific labels and claims that abide by that countries and states laws.
How does NATURE 10 −12 control Pests?
As a pesticide you need a multipurpose control for different pests.
Bacteria has a cell membrane and you have to puncture it and drain proteins and lipid.
Fungi which is made of cellulose and chitin need elimination.
Viruses need elimination strands of nucleic acid, either DNA or RNA, and protective protein coat (the capsid), Or a lipid envelope, surrounding the protein.
Insects need elimination of chitin is a polysaccharide, a carbohydrate that has a chain sugar molecules, Chitin is a structure like cellulose. In addition to being found in exoskeletons.
Science suggests that NATURE 10 −12 can be mechanical in primary sequential steps:
The first step is a direct interaction between the surface and the pests outer membrane, causing the membrane to rupture and leak water, proteins and nutrients.
There can be a second step related to the holes in the outer membrane, through which the pests lose vital nutrients, protein, water and components, causing a general weakening of the pests.
Lastly a few more ways electromechanical can affect pests
Electromechanical in NATURE 10 −12 can affect pests by penetration and dissolve lipid cellular membranes. This causes cells desiccation to leak water, proteins and nutrients and collapse. By interfering with cellular metabolism during metamorphosis. By dissolving cuticles the lubrication in the insect’s joints leading to paralysis. By stripping the pests protective shields (wax, biofilm, etc), rendering it defenseless against subsequent treatment. The extracts impact the exoskeleton structure of pests upon contact by disrupting the molecular structure of the chitin and other protein substances that protect the insect. The extracts have the ability to penetrate complex hydrocarbon chains and disintegrate them. The extracts emulsify pests thus stopping their reproduction cycle. The change the environment for growth with PH from acidophiles and neutrophiles to alkaliphiles.
After punching holes, how does NATURE 10 −12 further damage the cell?
Now that the cells main defense (its outer envelope) has been breached, there is an unopposed stream of NATURE 10−12 entering the cell. This puts several vital processes inside the cell in danger. NATURE 10−12 literally overwhelms the inside of the cell and obstructs cell metabolism (i.e., the biochemical reactions needed for life). These reactions are accomplished and catalyzed by enzymes. When NATURE 10−12> binds to these enzymes, their activity grinds to a halt. Pests can no longer "breathe", "eat", "digest", “reproduce” or “exist”.
How can NATURE 10 −12 punch holes in a pests?
Every cell's outer membrane, including that of a single cell organism like a pests, is characterized by a stable electrical micro-current. This is often called "transmembrane potential", and is literally, a voltage difference between the inside and the outside of a cell. It is strongly suspected that when a pests comes in contact with a NATURE 10 −12 surface, a short circuiting of the current in the cell membrane can occur. This weakens the membrane and creates holes and leak water, proteins and nutrients.
How can NATURE 10 −12 effect be so fast, and affect such a wide range of pests?
Experts explain the speed with which pests and other pests perish on NATURE 10 −12 surfaces by the multi-targeted NATURE 10 −12 effects. After membrane perforation, NATURE 10 −12 can inhibit any given enzyme that "stands in its way," and stop the cell from transporting or digesting nutrients, from repairing its damaged membrane, from breathing or multiplying. Harmless to Environment Air, Water, Soil, Humans, Birds and Animals. This new science has no side effects or harm on human, birds and animal health. These solutions do not harm mammal cells nor do they attack neurological systems of humans, birds and animals.
ABOUT Pico Ag Soysoap
A Non GMO Organic Plant Biostimulant resulting in enhanced quantity and higher nutrient density quality production of all Agricultural Major crops! Ask for Nurseries, Fruits, Rare Fruits Presentations.
Soysoap is an unique and powerful agro input capable of enhancing the health of plants & increase crop yield developed by Biobased, USA. It’ a Non-GMO and organic product made of plant extracts. It dramatically boosts production in any soil, any region and works in all kinds of Crops and vegetable. This eliminates the health hazards for farmers and consumers.
Picotechnology (physics energy based not Chemistry) is only about particle size 1000 times smaller than nanotechnology. This technology can be highly beneficial to agricultural sector and nutrient density.
The product is made mostly of Carbon and Nitrogen and trace elements.
Field studies in SE Asia and North America demonstrate shorter and higher plant germination time, increased growth, more yield and improves disease and pest resistance. The product is made of the highest grade of food ingredients .
Yield increase ranging from 40% - 300% occurred in numerous field trials and commercial agricultural application on crops and vegetable in Vietnam, Thailand, Philippines, India, Cambodia, the Caribbean, USA & Central America etc.
The product does not contain any toxic or hazardous components, hormones, chemicals, pesticides, any synthetic material and is safe for all plants, humans and animals. It is non-carcinogenic.
It is Physics based next generation of agriculture technology and we are working since 1997.
Now some our major crop yield contests awards against hundreds farmers!
2015 1st Place New York: Robert Pawlowski Central Region Soybeans, We also got 74.99 Bu/Acre
2015 1st Place New York: Robert Pawlowski Central Region Corn: We also got 263.87 Bu/Acre
2014 1st Place New York: Robert Pawlowski Central Region Soybeans, We also got 68 Bu/Acre
2014 2nd Place New York: Robert Pawlowski Central Region Corn: We also got 262 Bu/Acre
Note: 2012 - 2013 New York Farmer Robert Pawlowski Central Region has placed 1st or 2nd on Soybeans and or Corn last 4 years
2012 NCGA: Maryland: Corn: NCGA Class A No-Till Yield Contest 207 Bu/Acre
2016 NCGA: New Work: Corn: NCGA Class Non-Irrageted Yield Contest 264 Bu/Acre
2012 Univ of Tenn: Ext Agent Certified Wheat at 150 Bu Acre
2012 Univ of Tenn Ext Agent Certified Canola at 100 Bu Acre
2011 NC A&T Silage Increased from 200 to 400 Tons 16 acres.
2011 NC A&T Alfalfa Increased from 3 to 5 cuttings annually
2011 NC A&T Wheat Increased from 27 to 72 Bu/Acre.
2011 NC A&T Grain production Increased 50 Bu/Acre.
2011 NC A&T Soybeans production 19 Bu/Acre to 57 Bu/Acre.
2012 NCSU Barley 103 Bu/Acre
2012 NCSU Oats 133 Bu/Acre
2012 NCSU Wheat 125 Bu/Acre
2010-2012 NCSU Yield Enhancement Trails: An accomplishment over 3 years was winning the trails over some great companies with physical chemistry! AgraQuest-Ballad Plus, ABM-Excalibre, Agri-Gro-Foliar Blend, Arysta-Evito 480, Arysta-Evito T, BASF-Headline, Bayer-Stratego YLD, Bayer-Trilex 6000, Bayer-Votivo, Becker Underwood-Vault HP, Conklin-Magnify, Eden-ProAct, EMD-Optimize, EMD-Ratchet, Hanson-Hansen AZO, Naturym-Nutran, Stoller-Bio-Forge, Syngenta-CruiserMaxx, Syngenta-Quadris, Syngenta-Quilt, Valent-Domark and Valent-Inovate! In 2013 Biobased Soysoap was reported by NCSU Soybeans Results at 74 Bu/Acre.
How it Works in Plants
BioBased Technology is based on just 1 atom Picometer size element. Soysoap has been proven to be effective at 16,000 to 1 and as high as 32,000 to 1 dilution. The Elements can be both an organic cation anion separator as well as a cation anion trans locator to feed plants and it can increase the brix levels in plants, which increase C02 consumption that gives life to plants. Its not toxic organic chemistry, its the traditional sustainable nutrient for plants, and there are no residuals to harm the environment, oceans, humans, animals, birds or living creatures. Its also the best technology for soil and water remediation mobilizing chelated immobilized tied up nutrients. The only reason we use organic chemistry in agriculture is not because its best for farmers. Plants were never designed over millions of years to grow with nothing but Elements not synthetic chemicals. This is Photosynthesis without Increase in C02 Consumption
Pico Ag possesses a unique ability to substantially increase the level of sugar production within the leaves of a plant to a great extent. This, in turn, acts to accelerate the function of photosynthesis with the result that the treated plant becomes healthier, more disease resistant and faster growing. This results in a larger crop yield and quality output.
A Technical Description of Plant Growth
The germinating seed produces an embryonic root (radical) that grows into the soil, in response to the earth's gravitational field. As new cells are added, the root elongates producing hair roots and lateral roots. The roots remain interconnected, producing a network of living cells throughout the soil. Within the root, the inner cells become specialized to conduct solutes (water + substances dissolved in it) from the root to the shoot (via xylem) and from the shoot to the root (via phloem).
Flow from the shoot to the root is achieved by loading sugars produced in the leaves into the phloem. The sugar-laden solute moves downward, to the sites of lower concentration in the root. The xylem, carrying solute from the roots to the shoot, acts like a bundle of capillary tubes, supporting the water in a vertical reservoir. The leaves of the plant actively lose water through pores at the surface (transpiration), drawing the water in the xylem upwards. By this method, essential nutrients extracted from the soil are transported to sites of growth and production in the shoot.
The surface of the leaf is specialized for trapping energy from light (photosynthesis) and storing it as sugars and starch. Therefore the upper leaf surface must be angled to face the sun, which causes its surface temperature to rise 10 degrees C above the ambient air temperature. To control water loss, most leaves have a thick water resilient waxy layer. The specialized openings that control the rate of water loss (stomatas) tend to be more numerous on the underside of the leaf. Accordingly, leaves are not adapted for taking up nutrients. It's the mass flow of solutes from the soil to the roots that provide the greatest amount of nutrients for plants. (Pam Pittaway, Landscape Consultant, Queensland, Australia).
Step One - Applying Soysoap to the Root
When applied to bare root stock before planting, or saturating the root structure when in place, Soysoap acts to stimulate new growth and development. It dissolves NPK from the roots, thereby enhancing nutrient uptake into the plant. Nutrient uptake is expedited from the inclusion of sodium within our formulation.
Sodium is a cation, which is an atom or group of atoms carrying a positive electric charge. The positive charge results because there are more protons than electrons in the cation. The negative charged anions are attracted to the positive sodium cation, attach themselves and hitch a ride into the plant. In other words, NA+ is a Sodium Transporter conveying nourishment directly to the plant. The reason for this nutrient effect is the miniscule size of the molecules, which allows them to enter the plant cells (in the leaves), where the sugar factory is located. This causes a maximized increase in photosynthesis, which is the basis for the starches, cellulose, waxes, carbohydrates, oils and protein that are the building blocks for all plant growth. Step Two - Applying Soysoap as a Foliar Feed
Perhaps an equally powerful stimulant to plant growth occurs when nutrition is provided directly to the leaves, through the stomatas. In early morning hours, or later in the afternoon, when the ambient air temperature falls below that of the ground temperature, the stomatas will open and make themselves susceptible and amenable to the uptake of fluids and nutrients.
Due to the pico sized particles that comprise Soysoap l, they are able to easily enter the stomatas of the leaves, where their beneficial effect can be more directly accepted by the plant. Therefore, it is highly suggested that in order to maximize the nutritional boost possible from the spraying of Soysoap , the leaves be sprayed both from above and below, as per the application protocol.
The Proof is in the Testing
Because plants sprayed with Soysoap appear to grow more swiftly, be healthier and bear larger crops, the only explanation is that this could only be attributed to an increase in the level of photosynthesis within the leaves. Accordingly, in June and August 2005, a series of tests were conducted to determine the validity of this hypothesis. The question to be determined was whether this resulted from an increase in the sugar level as a result of being sprayed by Biobased, or from some other reason.
The first tests were conducted in Zambia/South Africa. Several segregated plots of wheat were sprayed with it, with an adjacent plot being used as a control. Leaves were then crushed and the resulting fluid subjected to a test reading by a Brix meter to determine if there were any difference in the level of sugar content between the test plots. The reading showed an original count of five, increasing to nine over a four to five day period, for a gain of 80%, which the planters and their crop managers considered as "extraordinary."
Two months later, another series of tests were undertaken, this time in Australia. The crop was macadamia nuts. This test was more comprehensive and spread out over a longer period of time. The crops were in different, but adjacent fields. Spraying took place over a four week period. One control called for spraying to cease after the first application, to determine what happened to the sugar content under these conditions. Additionally, a control was done on a direct comparison between Biobased and two standard fertilizing treatments involving urea and humic acid, which were substantially exceeded.
These tests, which were more comprehensive, revealed the sugar content of the leaves increased by a factor of slightly more than 50%, within seven days of spraying, compared with neighbouring plants that were not sprayed. What was even more interesting was that so long as the plants were sprayed at 7 or 10 day cycles, the sugar content remained at an increased constant 50%+ level. Once spraying was discontinued, the sugar level returned to normal after about four to five weeks, indicating a direct correlation between the application and non-application of the spray.
In addition to being stronger and more disease resistant, the crop can be expected to be larger and very often the size of the individual fruit, nut, flower, etc. will be significantly greater. The healthier plants also appear to be less prone to fungal or bacterial disease and to be much more pest resistant. This appears to confirm the field reports that there are significantly larger crops and fruit size when compared with the previous years of normal farming practice.
Measuring Brix Levels as a Means of Measuring Plant Productivity
What is Brix
Brix or Total Dissolved Solids [TDS] is measured with a Refractometer, whereby a sample of plant sap is place on the Refractometer and the light refracts through a prism and measures the total dissolved solids [ which is mainly sugar , but also does include minerals] in the plant sap. This measurement is from 0 to 50. Most healthy plants/fruits should have a brix reading of above 12 for them to be of sweet tasting.
Why is Brix Measurement Important?
The Brix really is very important as it is a direct measurement of how the plant is performing, as all plants use 6 molecules of water and 6 molecules of carbon dioxide with the radiation from the sun to make 1 molecule of basic sugar and 6 molecules of oxygen. The one molecule of sugar produced in the photosynthesis process is the foundational building block for everything we see growing above and below ground in the form of leaves, stems, tree trunks, branches, fruit, bulbs, grain, roots and even algae. So when we measure the sugar levels in plants it directly corresponds to how much sugar production has taken place in the plant. The results on the wheat trial in Western Australia had Higher Sugar readings which also prove that the plant is using more carbon dioxide. A tonne of grain in the form of Maize or Rice requires approx 5.5 tonnes of pure carbon dioxide to produce 1 tonne of grain, and it can be safely said that carbon dioxide is the biggest limiting factor in crop production.
Common-Sense Approach to Beyond Organics Growing!
If the Florida DEP says our product is so safe we can use it for remediation of groundwater you and livestock can drink or soils. Than why cant it be safe enough to grow an organic crop? Pico Ag wholly supports any growing process that can eliminate pesticides, increase nutrient density to increase health, safer foods for consumers, safer farming for farmers and safer products for the environment. But we also feel that our approach to farming is unique in that we grow food with food. We use nothing but US GOV FDA approved food additives. Its what we eat and we have figured out how to increase production and eliminate pesticides. People eat what we grow with and you surely wouldn't eat pesticides or even some of the approved organic inputs! My problem is... I just cant wrap my mind around why our method of growing food isn't accepted by the organic management! As they say we are what we eat, and its no wonder we have over 100 pesticide residuals in our body. Can someone tell me what good or harm these pesticides in my body are doing, as they aren't usually prescribed as vitamins? Can someone tell why and how these pesticides residuals were allowed to get into my body and why we are accumulating more each day. I'll tell you why. It's because we are growing crops with 19th century technology in a 21st century world. Its time for change!
"It is difficult to get a man to understand something when his salary depends upon his not understanding it." Upton Sinclair
2019 Solutions for Soils: Soysoap S increases the microsemines in soils.
2019 Pesticides Control:Soysoap P fungi, bacteria, virus, and small insects.
2020 Fertilizers Replace: Soysoap F replaces 300 lbs of fertilizers with 8 oz of Soysoap.
For detail information, please visit: http://www.biobased.us
"It is difficult to get a man to understand something when his salary depends upon his not understanding it." Upton Sinclair
Notes on Picotechnology
Picotechnology is one of the most promising realms of science, bringing new products to society in many industries. These small sized particles change our normal chemical/physical perspective.
Thereare 1000 Picometer to a nanometer; an inch has 75,000,000 picometers human hair is 80,000,000 to 100,000,000 picometers thick. If you spread a 1 cubic inch of Soysoap on a surface area 1 nanometer thick, you would cover 11.9 Acre where 1 square inch has 5400 trillion picometers. This large surface area of colloids, and their highly energetic reaction due to their small size, makes the product highly effective in carrying other blended products into plant leaves (such as herbicides or foliar nutrients) and transporting nutrients through the plant's circulatory system.
Below 50 nanometers, normal chemical reactions are dramatically changed. Instead, interactions occur based on Quantum PicoAg 25B. This gives materials surprising new properties. When reduced to "nano" size, a compound that was red may appear green. A metal may become translucent and thus almost invisible. Something that could not conduct electricity may now pass a current; non-magnetic materials may become magnetized; insoluble substances may dissolve.
All molecules have a positive or negative electrical charge. Thus all living cells are electromagnetic. Plant growth and nutrient exchange occur with "biological ionization," or transfer of ions. Electrical charges and magnetism have an impact on how molecules behave.
In conventional PicoAg 25B, two positive poles of a magnet repel one another, and a positive and negative pole attract each other. However, when molecules are refined to Pico level , positive molecules attract other positive molecules, which is opposite to our conventional thinking of PicoAg 25B. This only happens at pico-scale size.
Plants, humans and animals in essence are electromagnetic and are governed by the Periodic Law and table. In photosynthesis, plants require the radiation from the sun plus six molecules of water and six molecules of carbon dioxide to make one basic sugar molecule and six molecules of oxygen. We know that plants give off oxygen into the atmosphere during photosynthesis, but use that one molecule of basic sugar manufactured as the foundational building block for roots, stems, leaves, and fruit or grain. If the basic sugar molecule is that important in the whole equation of plant growth, then it means that if we can increase production of sugar and other dissolved solids in plants, we will have a major impact on plant production and quality! Our field tests demonstrate that Adjuvant has a significant impact on raising dissolved solids in crops, as analyzed by a refractometer or electronic meter. The percentage of sugars and dissolved solids in plant solution is referred to as a "Brix" reading.
Soysoap is able to enter into the plant's cells due to its very small pico atoms size. Although it doesn't have large amounts of nutrients normally expected of foliar fertilizers, its pico-sized colloids are able to diffuse into the plant cells, increasing sugar production. When Soysoap is applied early in a plant's germination and rooting stage, such as the two-leaf stage of corn and soybeans, translocation of leaf sugars to the root generates more exudates from new roots. Soil organisms respond by converting more nutrients in the soil. The resulting larger root system helps crops keep growing through dry periods during the season. We've seen the largest yield differences in regions and seasons where moisture is limited, or soils have low organic matter.
Sodium molecules which are cations (positively charged molecules) make up a sizeable amount of the Adjuvant product. These cations increase electrical conductivity in the nutrient solutions circulating in the crop's xylem and phloem circulation system.
The basic photosynthesis process described above is often written as this formula:
6CO2+ 6H2O + Sunlight = C6H12O2 + 6 O2v
In effect, carbon dioxide and water plus energy form simple sugar, and release oxygen into the atmosphere. But the secondary reactions of photosynthesis are far more complex in actual plant PicoAg 25B.
In the chloroplasts of the cell's sugar factory, four positive magnesium molecules combine with one nitrogen molecule. Nano scale sodium molecules are attracted to these positive magnesium molecules. Other elements which are chelated (attached) to the sodium also are translocated into the sugar-factory cell.
Soysoap has a strong surfactant effect, which means that the surface tension of water is greatly reduced. Water is "wetter." Within a plant, this apparently reduces the necessary osmotic pressure needed to move nutrient solutions through the crop, between leaves to roots.
The net result of enhanced nutrient transfer is more fuel, energy and conductivity to boost the sugar-making efficiency of photosynthesis. Soysoap trials have increased sugar levels of fruit on a variety of plants. Yield results are most pronounced where normal plant nutrition or moisture is limited.
When this higher level of sugars and dissolved solids is achieved, plant production and crop quality increases. Higher nutrient levels in a crop are good. This means the plant has a greater natural ability to defend itself from attacks from pathogens, as a result of having a good supply of nutrients and a high sugar level.
The overall effects of using Soysoap mean that growers achieve benefits by producing healthier, more nutritious food for humans and animals. In high-organic soils and perfect growing seasons, the yield increase may be moderate, but other benefits such as crop quality and resistance to lodging help pay for application. In stressful seasons or difficult soils, growers report yield increases as high as a 33%, with greater plant health.
Solutions for Soils : It increases the microsemines to loosen the soils.
Future agricultural strategies may also include the use of picotechnology instead of nanotechnology to reduce the toxicity since electrons can be excited in any macro-, micro-, or nanomaterials. The change in electron distribution, along with the associated charge redistribution, can alter surface energetics to change the adsorption of certain proteins (as well as cellular functions).
Primary Benefits of Soysoap
#1 Soysoap State of Florida approved for Soil and Ground Water Remediation
#2 Soysoap is Physical Chemistry At 600 Picometers or 2 Atoms Size.
#3 Soysoap Beta Analytic Tests Product For Biobased Content 89%.
#4 Soysoap The Ingredients are: EAFUS: A Food Additives
#5 Soysoap Midwest Laboratory no hazardous Canadian Heavy 11 Metal
#6 Soysoap Particle size provides trans-location and remediation.
#7 Soysoap Restructures Water and Spray Rig Pressure Drops by 19%
#8 Soysoap Increased Brix Levels 100% to 200%
#9 Soysoap Electrical Conductivity (EC ) (Microsiemens)
#10 Soysoap "Increasing Carbon Dioxide Consumption"
#11 Soysoap "Increasing ERGS by 2000%
#12 Soysoap Plant Tissue Analysis Increased Corn, Soybeans, Wheat, Oats Alfalfa!
#13 Soysoap Spray Rig Cleaning Benefit
#14 Soysoap Wind Resistance Benefit
#15 Soysoap Late Planting Benefits
#16 Soysoap Frost Resistance
#17 Soysoap Increased 269% Brix in Macadamia Benefit
#18 Soysoap Crop Production Factors, Their are 141 reasons!
#19 Soysoap tested Soysoap doesn't effect good bacteria
#20 Soysoap can achieve "Increasing Carbon Dioxide Consumption"
#21 Soysoap Used as Seed Wash, Germ Test 85% Untreated to 98% Treated!
#22 Tank Mixing, Water Restructuring, Lower Dynes from 70 to 30!
#23 Soysoap Panama approved for both Organic Fertilizer & Organic Pesticide
Secondary Benefits of Soysoap
1 No health hazards signage to workers, customers, or owners because of Soysoap.
2 No warnings signs anymore posted to protect customers or workers when spray ing or applying because of Soysoap
3 No concerns of toxic chemical sprays drifting into neighborhoods or runoff into water or air supply because of Soysoap
4 No concern over issues associated with registered pesticides when spraying because of Soysoap
5 No protected storage area or special handling of dangerous chemicals required because of Soysoap
6 No special handling, transportation or equipment required compared with toxic chemicals because of Soysoap
7 No threat or concern over fees and fines levied by OSHA guidelines because of Soysoap
8 No threats of violating "toxic chemical label laws" for applying more or the wrong Pesticide than direct by poisonous product instructions because of Soysoap.
9 No more hazardous waste disposal requirements to follow because of Soysoap.
10 No workmen's compensation claims or lawsuits from customers or workers claiming insecticide exposure because of Soysoap.
11 No workers compensation fees charged to your business category after receiving a waiver for reducing or eliminating pesticides and toxic cleaners because of Soysoap.
12 No more liability for pollution mitigated for land sales, no cleanup of pesticides because of Soysoap.
13 No more closing because of spraying as now you have a zero re-entry time product because of Soysoap.
14 No additional labor or costs required for associated spraying and handling because of Soysoap.
15 Provides a "poison-free" working environment by replacing dangerous fungicides and Insecticides, in multiple forms, plus degreaser, toxic detergents, numerous cleaners and solvents because of Soysoap.
16 Self-cleans equipment applicators and reduces equipment maintenance costs because of Soysoap.
17 Reduces pesticide and chemical costs by up to 75% because of Soysoap.
18 Enhances plant root growth and nourishment by breaking the surface tension of water for deeper and more rapid soil penetration because of Soysoap.
19 Increases product yields from 105% to 300%. Product appears to strengthen plant, which provides stronger blooms and increases systemic acquired resistance, defending plants from insects and fungus because of Soysoap.
20 Has increased plant growth by 10% to 300% over a 3-month period of time for starter plants because of Soysoap.
21 Soysoap has saved $25,000 annually by reducing discarded plants on a nursery.
22 Nontoxic product can be recommended and sold to customers and other growers because of Soysoap.
23 Provides an increased peace of mind about crop success and non-poisonous operations at reduced costs because of Soysoap.
24 Faster crop production more turnover of crops in fields and greenhouses. We are looking at 35% increase in greenhouses and possibly a 100% increase in annual field production by growing an extra crop per annum because of Soysoap.
25 Faster crops means less borrowing costs on crop loans because of Soysoap.
26 One can alternate, rotate or mix of Soysoap with chemicals to lower costs and reduce environmental pollution and worker safety because of Soysoap.
27 Farmer workers can use the product for washing hands, cleaning tools therefore not spreading diseases from plant to plant or tree to tree or human to customer because of Soysoap.
28 120 day Rice Crops grown in 100 days with up to 45% yield increase, 120 Day Onion Crop grown in 90 days with 30% more production because of Soysoap.
29 Quality of grains and nutrients of crops grown increased by because of Soysoap.
30 Plum Harvest rejection rate was decreased using Soysoap from 65% to only 35%. The quality of fruit and skin now meet the shipping standards because of Soysoap.
31 Product is made from 100% US GOV Food and Drug Administration (FDA) EAFUS food additives. The product is defined as food by FDA because of Soysoap
32 Soysoap improves the plants electro mechanical function, which enables cells to communicate more efficiently and be more productive because of Soysoap.
33 Increases plant Brix/Sugar levels by up to 100% has been recorded because of Soysoap.
34 Can be used to supply nutrients to seeds which encourage germination and vigorous growth because of Soysoap.
35 Plants sprayed with Soysoap reduce CO2 from the atmosphere by up to 33% by increasing plant sugar levels in the photosynthesis process because of Soysoap
36 Potential benefits could be claimed carbon credits will help reduce price of Soysoap (TM) in the future because of Soysoap.
37 Nontoxic, Non-Hazardous, Cost Effective, and Humanly Safe because of Soysoap !
38 Reduces Hunger, Starvation and Poverty with increased Production because of Soysoap.
Manufacture: Biobased USA
Donald Wilshe, 805 5731 Lexington Drive, Parrish, FL 34219
Phone : 1-336-306-0193, 800 995-9203
http://www.biobased.us , http://www.caribbean-agriculture.com