Effect of Homeopathy for Plants

Transcription

Product Overview
Novel plants fertility enhancer products increase
crop yield and health of plants
Nano-Gro
technology was developed as a natural, simple and inexpensive method to
increase agricultural production without using synthetic chemicals. The fundamental
concept that drives Nano-Gro
is the peculiar law of nanomol concentration: a
biologically active substance in very low concentrations triggers a high concentration
response on the biological object being acted on.
Every living organism has a defense mechanism that was developed through
evolution. This mechanism is directed against predators, environmental calamities and
manmade factors. The defense mechanism is deeply imbedded in the nature of the
plant and gets activated when it senses danger. Our product activates these sensors
without presenting a real element of danger and produces a plants response that
manifests itself by increasing flowering, seeds and biomass. Furthermore, when
biological systems undergo stress—or perceived stress as with Nano-Gro —they
respond by producing a greater amount of the female species to increase its
reproductive capacity and ensure its continued survival.
We investigated the influence of different kinds of bioactive substances on plants
and seeds. This research allowed us to better understand how substances in nanomol
concentration work and that understanding led us to develop the concept of the
Homeopathic Barrier, which made our research successful (Figure 1).
In our research we have used oat seeds as a model, because of its quick
response levels. We measured the length of the root growth that developed after the
treatment was administered with different concentrations of our proprietary formula
and compared that with untreated roots.
We can see that after passing the Homeopathic Barrier, the response rate
changed Polarity (instead of suppressing root growth, this specific concentration
stimulated it). When Nano-Gro
is delivered to the plants or seeds through a water
medium, the plant perceives that as a
stress factor. This “factor” is strictly
imaginary in nature, as Nano-Gro
is completely non-toxic and
environmentally safe. However, the
perceived attack manifests itself in the
plant by causing an increase in root
volume and length; in addition the
amount of endophytes is increased,
causing in turn an increase in the
Nano-Gro increases root volume and biomass
uptake of natural atmospheric nitrogen which substantially increases the amount of
protein synthesis, general biomass and the crop as a whole. The plants’ defensive
response to Nano-Gro
increases the resistance to fungus, cold, heat, drought,
extreme moisture (flooding) and other environmental calamities. Nano-Gro
stimulates all the mechanisms of a plant’s defenses, but most importantly it provides
greater plant productivity and crop yield.
Nano-Gro
acts as a natural trigger and as such it provides powerful results without
causing any detrimental effects to the environment or humans. The concentrations that
we use are 1 ppm (parts per million) or less.
Effect of Nano-Gro on pre-planting treatment of
different crop in field trials
This trial was conducted in Ukraine from 2000 to 2004 on plots of land of 100-200
hectares. Seeds were treated before planting with Nano-Gro
(NG) working solution
(1 pellet per liter of tap water).
Crop / Plants Type
Control group
(100kg/he)
40.0
NG Treated
(100kg/he)
52.0
Change
(%)
+30%
Spring wheat
Fall barley
Pea
Soya
Sugar beets
Maize
Oats
Sunflower
Totals
20.1
22.2
33.3
35.0
474
44.7
33.0
21.7
724
31.0
35.5
44.0
44.4
592
57.6
41.0
28.2
925.7
+54%
+59%
+32%
+26%
+24%
+28%
+24%
+30%
+34%
Various Nano-Gro
Comparisons
Fall wheat
Cucumbers after 6 days
with Nano-Gro
Cucumber growth after 17
days with Nano-Gro
Sunflowers growth after 9
days with Nano-Gro
without Nano-Gro
without Nano-Gro
Sunflowers after 9 days
without Nano-Gro
On the right the rice is treated with Nano-Gro
increasing yield by 35% more that the control on
left.
97% of the winter wheat, on right, treated with
Nano-Gro survived a bad winter, compared to
17% for the control.
On a left is cucumber plants treated with NanoGro on a right control.
On right is tulips treated with Nano-Gro . On
the left is the control.
On a left is Lettuce treated with Nano-Gro
right Control
on a
Tulips after 14 days
without Nano-Gro
Tulips growth after 14
days with Nano-Gro
vt
Instructions
How to Use Nano-Gro™
Nano-Gro
Usage Instructions
PREPARATION OF WORKING SOLUTION (pre-planting)
1. Allow 1 pellet of Nano-Gro
to dissolve passively in 1 L (1 qt) of tap
water.
2. Once the pellet has dissolved entirely, shake the solution in a vertical
motion to mix the solution thoroughly.
3. Now you have what we will refer to as the Working Solution (WS). The
WS is good for 24 hours.

Keep Nano-Gro
and WS out of direct sunlight.
APPLYING NANO-GRO
TO CEREAL CROPS
Wheat, corn, soy, rice, cotton, etc.
When using a seed dressing machine (Fig. 2) or similar
machine:
Dissolve 24 pellets of Nano-Gro in 10 L (1.5 qt) of tap
water per 1 metric ton (2204 lb) of seeds.
 Exceptions:
 Rapes: 12 pellets per 1 ton (2204 lb) of seeds
 Sunflower: 10 pellets per 1 ton (2204 lb) of seeds
Figure 2
APPLYING NANO-GRO
TO VEGETABLES AND BERRIES
Tomatoes, potatoes, onion, carrot, cabbage, strawberry
1. Soak seeds 5 seconds in WS and plant them as usual.
 If seeds are small and clump together when wet, dry the
seeds overnight. As the seeds dry out they will begin to
separate and be ready to plant.
2. When the seedlings reach a stage of 2-3 real leaves apply
30 ml (1 fl. oz) of WS per seedling.
 Exceptions:
 Squash only requires a WS of 1 pellet per 4 L (4.2 qt)
of tap water.
APPLYING NANO-GRO
TO FRUITS AND GRAPES
WITH DRIP IRRIGATION
For each plant use 4 pellets per 1 L (1 qt) tap water. The
solution must be delivered to the plant before flowering
when the plant’s temperature reaches 16 C (61 F) or
higher.
APPLYING NANO-GRO
TO FLOWER SEEDS AND BULBS
Soak seeds or bulbs in WS for 5 seconds (but no longer than
60 seconds!) and plant as usual.
NOTES
WHEN SOAKING SMALL SEEDS THEY MAY CLUMP TOGETHER WHEN WET. THIS
IS NORMAL AND IS NO CAUSE FOR ALARM. WHEN THE SEEDS ARE DRY.
PLEASE RUB THEM TO PRY THEM APART AND PLANT AS USUAL. SEEDS NEED
TO BE TREATED ONLY ONCE.
vt
Product Comparisons
Effect of Nano-Gro HP, Nano-Gro NPK and
Medicine for Plants (MP) on Growth and Yield
of Tomatoes
Pursuant to initiation of the project on September 12, 2003, I am Tom Davenport,
Associate Professor University of Florida, IFAS herein reporting the results of
investigations of three Agro Nanotechnology Corp. products (Nano-Gro ,
Nano-Gro NPK, and Medicine for Plants (MP)) on growth, development, and
yields of tomato planted in field beds and containers.
Field tomato
Date: 3/2/2004 - 3/11/2004
Treatment
Yield in gram
% of Control
%%
N/A
Total Number of
Fruits
21.17
Control
1696
Nano-Gro
2100
124%
29.42
139%
Nano-Gro NPK
2038
120%
26.42
125%
MP
1844
109%
24.71
117%
N/A
% o f Co n tro l, F ru its, %%
Yield
160
140
2500
2000
2100
2038
1696
120
1844
1500
100
% of Control
80
Total num bers of fruits
60
%%
1000
40
500
20
0
0
Control
PH
Ferten
WSP
Control
PH
Ferten
WSP
Pre-Planting treatment of tomato seeds with Nano-Gro , Nano-Gro NPK and
Medicine for Plants increased yield by 24, 20 and 9% respectively.
Container tomato
Date: 3/2/2004-3/12/2004
Treatment
Control
Nano-Gro
Nano-Gro NPK
MP
Yield in gram
1162
1837
% of Control
N/A
158%
Total Number of Fruits
14.50
18.00
%%
N/A
124%
1563
1486
135%
129%
18.75
17.86
129%
123%
% o f Co n tro l, F ru its, %%
Yield
180
2000
1800
1600
1400
1200
1000
800
600
400
200
0
160
1837
1563
1486
1162
140
120
% of Control
100
Total num bers of fruits
80
%%
60
40
20
0
Control
PH
Ferten
WSP
Control
PH
Ferten
WSP
In containers pre-planting treatment with Nano-Gro , Nano-Gro NPK and MP gave
even bigger increase, 58, 35 and 29% respectively.
Field tomatoes on day of harvest (first row):
Water-treated plants on left, Nano-Gro treated plants on right
Tomato yellow leaf curl virus infection was apparent in most control plants and a large
portion of the Nano-Gro
product-treated plants. The Nano-Gro
treated plants
seemed to be less infected, but it is impossible to tell if any resistance to this virus was
imparted by the Nano-Gro
treatment since infection was so widespread, and more
time would have been needed to test this possibility. This Gemini virus is spread by
whitefly and is a major problem for tomato growers.
Gro
Overall, the results of Nano-
treatment demonstrated a moderate effect on plant health and yield in tomato.
One cannot make a claim of efficacy, however, based on one year’s data.
Effect of Nano-Gro , Nano-Gro NPK and Medicine
for Plants (MP) on Growth and Yield of Baby Corn
in Laboratory Conditions
1. Objective- to test effect of Nano-Gro , Nano-Gro NPK and Medicine for plants
on baby corn.
2. Tests performed to track changes in: wet biomass, roots biomass, stem and
foliage biomass, and germination of seeds.
3. Results will be analyzed on 50 seeds and will be statistically calculated.
I.
We used four E-Z Gardens growing system with luminescent light to grow
experimental plants.
II.
A.
Distance between plant to light source from 4 to 12”.
B.
Temperature was regulated at 80 F.
C.
Timers: 8 hour days/4 hour nights.
First treatment of soil before planting:
A.
Control: 300 ml tab water
B.
HP: 300 ml of working solution (1 pellet per 1liter of tab water).
C.
Nano-Gro
Liquid: 300 ml of working solution (0.2 ml of Nano-Gro -
Liquid per 1 liter)
D.
Medicine for Plants: 300 ml of working solution (1 pellet per 1liter of tab
water).
RESULTS SUMMARY OF THE 12 TESTS
Remedies
Biomass
gram
33.8
% of Control
Roots
(gr.)
14.2
Above ground
(gr.)
19.6
Germinated
seeds out of 50
34
Nano-Gro
Nano-Gro NPK
47.3
140%
15.5
31.8
34
43.3
128%
17.1
26.2
37
MP
39.1
116%
17.2
21.9
37
Control
vt
Experiments Conducted at
Clemson University, SC
Effect of Nano-Gro™ and Medicine for Plants on
growth and yield of winter wheat
The experiment was conducted at the Clemson University Calhoun Field Laboratory
farm. A fall wheat experiment was planted in mid-November. Unfortunately repeated
and heavy rainfall during the fall and winter resulted in poor wheat stands such that
biomass and yield comparisons among treatments in the fall trial could not be
determined.
A spring wheat experiment was established and seeded on April 10, 2004 using a
small plot drill seeder. Three treatments were evaluated: Treatment 1: Nano-Gro
(white pellets); Treatment 2: Medicine for Plants; Treatment 3: water control. Pellets
were dissolved in water as per treatment protocol directions (1 pellet per liter; 284 ml
solution per 1 pound of seed). Seeds were soaked in the treatment solution and allowed
to dry before planting.
Treatment plots were arranged in a randomized complete block design. The
experimental design was replicated for each of two wheat varieties: Variety
1=SC996284; Variety 2=SC996289. Thus, each treatment was evaluated in 12
replicated plots (6 of each wheat variety). Individual plot size was 24 feet x 7 feet; or a
plot size of 1008 square feet for each treatment and wheat variety.
Soybeans were grown as a summer cover crop in the experimental field during
the previous year. Because of the nitrogen supplied by the soybean cover crop no
fertilizer was applied to the wheat plots.
Wheat was harvested for plant biomass and grain yield on July 18, 2004. All
plants in the four middle rows of each plot were hand pulled and placed in paper bags
for transport to the laboratory. Plant roots were washed and allowed to dry before
weighing. Whole plants from the four middle rows of each plot were weighed, and then
passed through a small threshing machine to remove the wheat grain from the seed
heads for weighing.
RESULTS
Data were analyzed using ANOVA and treatment means compared using Duncan’s
Multiple Range Test (PC SAS software).
Variety 1: SC996284 wheat plant biomass and grain weights (N=6 replicates)
Treatment
Control: water
Nano-Gro
Medicine for Plants
Plant biomass weight
(mean wt. in grams )
846.4
873. 2
103.0%
Grain weight
147.2
197.2
133.9%
848.0
152.0
100.2%
103.2%
Variety 2: SC996289 wheat plant biomass and grain weights (N=6 replicates)
Treatment
Control: water
Nano-Gro
Medicine for Plants
Plant biomass weight
(mean wt. in grams)
718.8
792.0
110.2%
Grain weight
164.3
188.0
114.4%
714.0
162.8
99.3%
99.1%
We also measured sugar and protein content in winter wheat crop:
Treatment
Control: water
Nano-Gro
Medicine for Plants
Sugar avg. mg/g seeds
281.80
402.99
143%
379.27
135%
Protein avg. mg/g seeds
54.80
59.24
108%
49.84
91%
vt
Trials
 Russia
Russian Federation
Scientific-Technology Center of Continuous Education for Agriculture
Professionals
March 30, 2005
“AgroEcoScience”
Results of Nano-Gro
trials
In March 2005, we ran experiments using the Nano-Gro
treatment on Dutch
tulips. The tulip bulbs were planted in plastic containers in the middle of
February. Bulbs were not treated before planting.
On February 28, 2005 the tulip plants were treated with Nano-Gro
in
concentrations of 2 pellets per 1 liter of tap water. 25 plants were treated and 23
were designated as control. On the fifth day of treatment the bulbs were taken
out and investigated.
The following are observations made on the fifth day:
Main results
Plant height
Cup size
Size of flower-stem
Treated plants
15-18 cm
7-8 cm
5-6 cm
Untreated plants
10-12 cm
3-5 cm
2-3 cm
On March 21, 2005 the vegetation cycle of the tulips came to an end and the
bulbs were taken out of the soil and examined with phytopathological analysis.
Test results:
Plant disease
Treated plants
Botrytis cineria (tulip fire)
None
Fusarium blight
Almost none
Other pathogens (alternaria)
None
Untreated plants
7-10% infected
35% infected
5-7% infected
Conclusions:
1.
Nano Gro increased the total growth of the tulip compared to the
control
2.
Clearly, Nano-Gro
improves the plant’s immune system and even
prevents development of plant diseases like Fusarium.
Test was done by:
M.A. Shiltsova Ph.D.
Russian Federation
Professionals
March 30, 2005
Preliminary results of Nano-Gro trials on
winter wheat and sugar beets in Voronezh
region
I. Winter wheat
Nano-Gro was used in combination with fungicide Falcon on winter wheat by
the end of May 2005.
Test setup:
Preparation
Nano-Gro
+ Falcon
Control Falcon
Dosage
6 pellets per hectare
20% less recommended Falcon
100% recommended
Treatment time
June 1, 2005
June 1, 2005
Test results:
Parameters
Leaf health
Root growth
Growth intensity
Nano-Gro + Falcon
Healthy
Well developed, many side
roots, healthy
High
Control
Healthy
Less developed, almost no
side roots, depressed
Average
II. Sugar beets
Nano-Gro was used in combination with herbicide Betanal22 on sugar
beets by the middle of June 2005.
Test Setup:
Preparation
Nano-Gro
+ Betanal22
Control Betanal22
Dosage
100% recommended
100% recommended
Treatment time
June 15, 2005
Nano-Gro
High
None
Control
Average
Some spots
June 15, 2005
Test results:
Parameters
Growth intensity
Cercosporosys infection
+ Betanal22
Preliminary conclusion:
1.
Nano-Gro increases plant tolerance to stressors in the environment,
increasing immune system response and root system, thereby
enhancing productivity of plants.
2.
Nano-Gro allowed for lower use of pesticides without jeopardizing
defense, in the case of the Falcon product, reducing dosages by 80%
percent.
Test was done by:
Russian Federation
Professionals
Preliminary results of Nano-Gro trials on
spring wheat in Volgograd region
Nano-Gro was used in combination with fungicide Rex C on spring wheat by
the end of May 2005.
Test setup:
Preparation
Nano-Gro + Rex C
Control Rex-C
Dosage
20% less recommended Rex C
100% recommended
Treatment time
June 1, 2005
June 1, 2005
Test results:
Parameters
Leaf health
Root growth
Growth intensity
Nano-Gro
+ Rex-C
Healthy
Well developed, many side
roots, healthy
High
Control
Healthy
Less developed, almost no
side roots, depressed
Average
Preliminary conclusion:
3.
Nano-Gro increases plant tolerance to stressors in the environment,
increasing immune system response and root system, thereby
enhancing productivity of plants.
4.
Nano-Gro allowed for lower use of pesticides without jeopardizing
defense, in the case of the Rex C product, reducing dosages by 20%
percent.
Test was done by:
Russian Federation
Scientific- Technology Center of Continuous Education for Agriculture
Professionals
June 30, 2005
Preliminary results of Nano- Gro
potatoes in Moscow region
trials on
In March 2005, we ran experiments using the Nano-Gro treatment on potato
plants. The potato plant had significant herbicide burns: they exhibited small
development, yellow side leaves were dying and top leaves were depressed.
Test setup:
Parameters
Nano-Gro
Nano-Gro + Betanal22
Manual sprayer:
2 pellets per 10 liters of water.
Control
Beginning of June
Test results:
 On the 10th day after treatment general improvement could be observed:
top leaves become greener, side branches appeared.
 On the 20th day after treatment the potato plants were practically
restored and were able to catch up with the of control plants.
Preliminary conclusion
Nano-Gro enhances a plants tolerance to stressors in the environment,
increasing immune system and productivity of plants, actively helping damaged
plants to restore their former condition after stress and other harmful influences
have deteriorated their health.
Test was done by:
vt
Experiments Conducted In
Moldavia and China
TRANSDNISTRIAN MOLDAVIAN REPUBLIC.
GREENHOUSE VEGETABLE INDUSTRIAL COMPLEX“HALPARK” LTD
TMR SLOBODZIA REGION, v.PARKANI
REPORT
on testing of pre-planting treatment NANO-GRO
In March, 2005 tests were performed of the Nano-Gro pre-planting treatment
on tomatoes and cucumbers. The plants were planted in soil inside winter block
greenhouses.
Tomato and cucumber seedlings with growth phase of 2-3 real leaves were
treated with the following aqueous solution of treatment: for 1L of water one pellet of
Nano-Gro were mixed in a density of approximately 30ml per each seedling. They
were tested on Holland hybrids.
Treatment Totals:
cucumbers – 7800 plants
tomatoes – 1000 plants
Seedlings were planted in the phase of 3-4 real leaves. The area of treated
cucumbers was 3900 square meters and for tomatoes 460 square meters. For
comparison purposes equal numbers of the same hybrid were planted without treatment
as a control.
Plant conditions were screened and recorded once every 10 days.
The results showed that the treated plants differed greatly compared to those
not treated, namely:
1. The seedlings grew faster and entered the fruitage phase 5 days
earlier.
2. The Rootstock of treated seedlings was stronger than of those without
treatment.
3. There were significant differences in size and hue of foliage.
4. Weathered disease much longer than those not treated
5. Exhibited less signs of stress during temporary falls and rises of
temperature.
As of August 1st, 2005 the yield of treated plants was 18-22% higher than
of those without treatment. The final results of the experiment will be provided
upon completion of the vegetation period. As a conclusion from above-said, this
product has a considerable influence on plants’ growth and prevents the
evolution of diseases.
Report prepared by:
Agronomist HVIC
Salabas R.
EXPERIMENT PERFORMED BY A PRIVATE COMPANY IN
BEIJING, CHINA
Supervised by Richard Ke
Plant date：2005-10-21
Planting conditions：Greenhouse
Soil used：Abundant of chook manure
Plant species planted：茼蒿（蒿子杆） [Garland Chrysanthemum]、小白菜
[Colza, Summer rape]、香菜 [Coriander]
Treatment method：Dissolved 1 pellet of Nano-Gro
per 1L of water, then
poured water into a catch basin (aluminum basin) for 20 seconds in order to fully
soak the seeds. The seeds were dried away from direct sunlight.
Planting Method: The seeds were arranged into four plots. The treated plants
were planted diagonal to each other, and the control was planted in the
remaining plots (Figure 1).
Seeds treated with
Nano-Gro
Control
Control
Seeds treated with
Nano-Gro
Figure 1
Garland Chrysanthemum
Colza
Coriander
Results 2005-11-10
Plant Species：茼蒿 [Garland Chrysanthemum]
Growth
Treated Seeds
Control
5 days
Seedling growth observed
10 days
Average height of seedling: ~1 cm
1 leaf
Seedling growth not visible until 6th
day
1 leaf
15 days
2 leaves
Average height of seedling: ~1.8 cm
2 leaves
20 days
3 leaves
3 leaves
Left treated with Nano-Gro
Plant Species：小白菜, [Colza, Summer rape]
Growth
Treated Seeds
Control
5 days
10 days
1 leaf
day
1 leaf
15 days
2 leaves
2 leaves
20 days
3 leaves
3 leaves
Plant Species：香菜, [Coriander]
Growth
Treated Seeds
Control
5 days
10 days
1 leaf
day
1 leaf
15 days
2 leaves
2 leaves
20 days
3 leaves
3 leaves
Remarks：
1. The treated seedlings grew out one day ahead of the control, but that
may have been as a result of the initial soaking.
2. In test such as the one conducted, the effects of the treatment, if any,
become obvious on the final week of testing. The early differences
observed in this test are very rare.
3. The treatment is preferred for its accelerated growth.
Report prepared by:
Richard Ke
vt
The Nano-Gro™ Concept and the
Benefits of Using It
Nano-Gro
Concept and Benefits
Plants have channels of communication between each other. Recent research in
Africa that was published in Nature magazine revealed that when animals started
to eat excessive amounts of foliage, plants in turn began to produce high levels
of Tannin making themselves indigestible. Even more astonishing is that not
only that trees under “attack” increase Tannin production, but also all the trees
in a radius of one mile produced excessive amount of Tannin. This experiment
showed us that plants have excellent channels of communication between each
other that have allowed them to adapt and survive this planet for over a billion
years.
Our company has developed the first product that uses these channels of
communication to influence plant growth, increase productivity, increase
resistance to environmental calamities, and improve physical appearance. The
product behind this technology is called Nano-Gro . It will increase almost any
crop by an average of 30%; it will increase sugar and protein content by 30%
and 10% respectively, it can protect plants from drought, flood, UV, cold, heat,
salinity of soil, and other environmental antagonists. Also, Nano-Gro
has the
ability to regulate the speed of a plant’s development thereby making them grow
faster or slower depending on the need. Our technology base of information
only transfers messages to plants to achieve the desired results.
Nano-Gro
is easy to use, cost effective, and environmentally sound.
We work with messengers in concentration of 0.0000000001 M per liter of water
—entering the realm of Nanotechnology—that’s smaller than one molecule per
liter. The results we’ve witnessed by using the Nano-Gro
technology ensure it
will bring immediate, and dramatic changes to the Agriculture, Gardening and
Forest sciences.
Benefits of Nano-Gro
Technology

Our technology will increase any crop by an average 30%

It will effect energy production by dramatically lowering cost of
Power Crop making possible to substitute exported oil and gas.

It will improve the environment by substantially increase foliage
in our city parks and forest.

It will cut the use of fertilizers in half by increasing coefficient
of efficiency of fertilizers uptake and save our water supply.

Taking in consideration that Nano-Gro
is 100% natural it will
help increase production of organic food and make them
available to every socio-economic group of population.

Our technology is so simple that every farmer in a World
regardless of education and size of farmland can use it. USAID
and other charity organizations will be able to create
sustainable agriculture instead of just feed poor communities.

Nano-Gro
use
will
also
increase
crop
resistance
to
environmental calamities and will make agriculture less
dependent on weather.
vt
Additional Information
Sulfates of Fe, Co, Al, Mg, Mn, Ni, Ag in concentration of 0,000000001 M (10-9)
Please visit us on the Web at
www.Nano-Gro.com

Effect of Homeopathy for Plants

Transcription

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