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Agnihotra and Microbes, A Laboratory Experience

Dr. Arvind D. Mondkar M.Sc; Ph.D (Micro)

 

Our way of life has intensified the quantum of pollution. No place can be

called safe from pollution. What varies is the type of pollutant and

the degree of

pollution. Pollution is of various types such as gaseous pollution,

water pollution,

food pollution, radioactive pollution and so on. Of these types

microbial pollution is

the most important type of pollution for people in the medical or

paramedical field.

Microorganisms are ubiquitous in nature.

There are mainly two types, namely non-pathogenic or saprophytic

(harmless and not causing any disease) and pathogenic (disease

producing). There are certain opportunistic pathogens which, given a

chance, can produce disease in human beings. Thus the mere presence of

these microorganisms in a definite strength in various media can

produce contaminants.

Microorganisms like Salmonellae, Shigellae or Vibrios contaminate water,

eatables, milk and milk products. When the contaminated eatables are

consumed

the individual suffers from typhoid, bacillary dysentary or cholera.

Similarly,

organisms like Staphylococci cause food poisoning by increasing toxins

in food.

This microorganism also causes wound infections with pus formation.

Streptococci

infect the respiratory tract after inhalation of the droplet nuclei on

which they are

settled. Hospital infections by Staphylococci and Pseudomones are not

uncommon. Recently, Pseudomonas aeruginosa has been reported to have

entered

the space age. This microorganism was isolated from the lining of the

fuel tank of

a jet engine and was found to be responsible for the corrosion of the

tank.

 

It is stated that Agnihotra helps to undo the effects of pollution. In

this respect it was decided to observe the last type of pollutant,

i.e., microorganisms and the effect of Agnihotra on them. The present

article restricts only to the effect of Agnihotra on microorganisms as

observed in a microbiology laboratory.

 

Agnihotra Effect on Bacterial Population

 

A preliminary experiment was carried out to study the effect of

Agnihotra on

the bacterial population in a room where Agnihotra was performed. For

this study,

two rooms of equal dimensions (13¼' x 8' x 11') were selected. In both

rooms fire

was prepared from dried cowdung cakes in copper pyramids and the basal

reading

of number of microorganisms in both the rooms was taken by exposing

blood agar

plates at four corners of the room for 10 minutes. This was done

exactly half an

hour before Agnihotra time. Agnihotra was performed exactly at sunset

in one of

the rooms. Bacterial counts were taken again in both the rooms in a

similar manner

at half hour intervals. Thus readings were taken in both the rooms up

to two hours

after performance of Agnihotra. It was quite interesting to note that

microbial

counts in the room where Agnihotra was performed were reduced by 91.4%

whereas the room where only fire was generated did not show

appreciable changes

in the microbial counts. This leads one to think that it was the

process of Agnihotra

which was responsible for the reduction of bacterial counts and not

the mere

presence of fire.

 

Two other similar experiments revealed similar findings. The phenomenon

could be explained by giving two reasons:

 

- Agnihotra fumes are rich in formaldehyde and other substances which have

inhibitory effect on microorganisms.

 

- A phenomenon like smog formation and its diffusion in the upper

strata might be

a likely postulation.

 

In the regions of North and South poles, many times, carbon particles

accumulate

to form a layer called " smog " . When fire is lit the hot currents push

the smog into

the upper strata and it is diffused in such a way that the carbon

particles are no

longer harmful in the residual concentration. In the present study perhaps

Agnihotra fumes might have dissociated the microorganisms in such a

way that the

residual population was no more harmful and was well within tolerable

limit to

human beings.

 

Agnihotra Effects on Bioenergetic Systems of Individual Microorganisms

 

This kindled our interest and it was decided to study the effect of

Agnihotra

on the bioenergetic systems of individual microorganisms. A strain of

Staphylococci pyogenes isolated from a pus sample was selected for the

study. The

strain showed all the characteristics of a pathogen. It was isolated

from a lesion,

produced beta haemolyses on blood agar, showed a positive coagulase

test and

fermented mannitol with the production of acid. The strain was

innoculated on a

pair of blood agar plates, one of which was kept away from the Agnihotra

atmosphere (control plate). The other one was exposed to Agnihotra

fumes for five

minutes and was allowed to remain in that atmosphere till next

Agnihotra was

performed (approximately 12 hours). Agnihotra is to be performed on the

biorhythm of sunrise/sunset. Surprisingly, it was observed that the

plate exposed to

Agnihotra (test plate) showed a tremendous reduction in the zone of

haemolysis as

against a wide zone of haemolysis in the control plate.

 

Organisms from both the plates were then subjected to coagulase test. The

organisms from the test plate showed a negative coagulase test

demonstrating their

inability to produce coagulase. Finally, the organisms from both the

plates were

emulsified in one ml. of normal saline separately to give suspensions

of equal

strength. This was achieved by use of Brown's opacity tube no. 3. The

suspensions

were then injected intradermally into the thighs of an albino mouse.

The mouse

was kept under observation for five days.

 

It was very interesting to note that the suspension from the test

plate failed

to produce any lesion in the mouse wheras the suspension from the

control plate

produced typical abscess. These results suggest that Agnihotra played

a pivotal role

in controlling the metabolic activities of this microorganism. In this

case, a

pathogenic strain of Staphylococcus pyogenes showed characteristics of a

nonpathogenic strain ofter exposure to Agnihotra atmosphere. This was

just an

observation and triggered quite a number of questions in the mind:

 

- Is this effect phenotypic or genotypic?

- Is it necessary to expose the strain for a prolonged time interval

or will a short

exposure cause a similar effect?

- Will the progeny of these microorganisms behave in a similar manner?

- Does the small or microdose of substances released from Agnihotra

process boost

the immunity mechanism of the patient to get rid of the infection or

does the

infecting agent lose its virulence? Perhaps both the effects go hand

in hand.

Answers to these questions are still beyond sight and show a need for

further

experimentation in this field.

 

Therapeutic Effect of Agnihotra Ash

 

An attempt was then made to study the therapeutic use of Agnihotra ash

against scabies in rabbits. Rabbits are quite often infected with

scabies—marked by

snow white crust formations on their nose, ear margins and skin. The

infection

then becomes systemic and the animal dies. Normally this sort of

scabies is cured

by daily application of benzyl benzoate and salicylic acid for about 6

to 8 days,

depending upon the severity of the infection.

 

In one study, Agnihotra ash was homogenized with an equal volume of

cow's ghee (clarified unsalted butter) and applied over the infected

area above the

nostrils of a rabbit. Agnihotra ash worked extremely well and the

crust was

detached on the third day of application—and that too with a single

application.

With benzyl benzoate and salicylic acid, it took five days for the

crust to detach

itself from the control rabbit. Another notable advantage of this was

that the

preparation was not irritating like benzyl bezoate or salicylic acid.

The rabbits

always lick that application because of irritation and the young ones

die of

poisoning. This risk could be avoided with Agnihotra ash.

 

These results promise a solution to microbial pollution by the performance

of Agnihotra and ingestion of Agnihotra ash medicines.

 

(Reprinted from Satsang Vol. 9, No. 20, 3/4/82)

 

Agnihotra Ash and Water Soluble Phosphates

Dr. Tung Ming Lai, Denver, Colorado

 

I did some lab testing on Agnihotra ash. The results are interesting.

0.10 g. of ash

was shaken with 25 mi. of water for forty-eight hours and then the

water soluble

phosphate content was measured. The same amount of ash was shaken with two

different soils (5 g.) from Colorado (also 25 mi. of water) and

phosphate content

was measured after forty-eight hours of being shaken. The results are

as follows.

(The values are the average values of duplicates.)

SOIL USED

 

ASH ADDED

 

WATER SOLUBLE

 

PHOSHATE EXTRACTED

None

 

Non-Agnihotra ash

 

0.68 mg. P/.02 g. ash

 

None

 

Agnihotra ash

 

1.78 mg. P/.02 g. ash

 

Weld loam

 

Non-Agnihotra ash (0.02 g. ash/g. soil)

 

4.2 mg. P/ g. soil

 

Weld loam

 

Agnihotra ash (0.02 g. ash/g. soil)

 

17.2 mg. P/ g. soil

 

Red Feather loamy sand

 

Non-Agnihotra ash (0.02 g. ash/g. soil)

 

2.3 mg. P/ g. soil

 

Red Feather loamy sand

 

Agnihotra ash (0.02 g. ash/g. soil)

 

11.5 mg. P/ g. soil

 

 

The non-Agnihotra ash was produced with the same ingredients in the

same copper vessal as Agnihotra ash. The only difference was the

non-Agnihotra ash was not produced at sunrise or sunset, and no

mantras were chanted.

(All growing plants need phosphorus; however, regardless of how much

phosphorus is added to the soil, only the water soluble portion can be

utilized by

the plant. On an average, only about five percent of the phosphorus in

conventional chemical fertilizers is water soluble.--Ed.)

Agnihotra and Grapes

Dr. B. G. Bhujbal, Research Officer Maharashtra State Grape Growers'

Association, Poona, India (Satsang Vol. 8, No. 17, 1981)

 

Grapes are a difficult crop to grow under Maharashtra's climatic

conditions and also equally difficult to study. I have been associated

with research work on grapes while studying for my M.Sc. degree at the

University of Poona, India since 1967. Various problems faced by the

workers since then were finally put before the research workers at the

Agricultural College, Poona.

 

Hybridization work with grapes had already commenced before my

association with this work. I have been observing the results of that

work. It was reported that the germination of hybrid grape seeds had

been very late and low. When I conducted hundreds of crosses at the

Ganeshkhind Fruit Experimental Station, Poona-7 and sowed the seeds

after treatment by advanced techniques which included hormones,

scarification, stratification etc., the results were discouraging. The

germination percentage was very low, i.e. below 20 % and some of the

seeds even took 300 days for germination.

 

Meanwhile I came to learn of Agnihotra and Homa Therapy farming and

thought why not have a trial of this therapy in grape research. There

was a solar eclipse on 16th of February 1980. I had also read

previously that the no-moon day was the best day for seed treatment

and sowing. With this background and not to miss the opportunity I

coIlected seeds of the Anab-e-shahi, Pandhari Sahebi and Kali Sahebi

varieties, local vinifera varieties, as well as some crossed seeds

which were collected using the Thompson seedless variety as a male

parent to make the cross. In order to conduct the experiment properly,

I applied for leave on 20th of February 1980 in time for the treatment

to commence on 16th of February, 1980. Some unrooted cuttings of local

grape varieties were also collected for additional treatments.

 

Experimental Plot

 

All the seeds and the unrooted cuttings were kept in an environment

open to Agnihotra fumes. As far as mantras were concerned, I began

with the " Tryambakam " Mantra and Homa continued for 2 hours, after

which the samples were treated with Agnihotra ash and then put into

pots ready for planting. An untreated lot of samples served as a control.

 

Observations

 

It was indeed a surprise not only to me and my wife but also to

friends who had been laughing at my expenments to observe the first

seedlings sprouting on the 21st day of sowing. Some of the recorded

observations are given in a table below. The second experiment

concerned making raisins. At present, raisin-making is not carried out

in Maharashtra except on an experimental basis using the dehydration

and sun-drying methods. I collected a few bunches of grapes from

growers and hung them in the environment where I was performing

Agnihotra. Similar clusters were kept with the growers for making

raisins using their own method of sun-drying. After 21 days the drying

was almost complete, and after 35 days I collected the clusters and

tested them. The raisins were very good in appearance and taste.

Special interest rallied around the evidence that the raisins prepared

from the Anabe-shahi variety and having low TSS contact were also

good. Equally good results were obtained by the Thompson seedless

variecy growing in the Agnihotra environment as compared to those

varieties generally available in the market.

 

Another experiment was performed in a grower's field. Mr. Pundlik

Khode, a small farmer from the village of Pimpalgaon-Baswant, Nasik

District had been much worried about his crop and was doubtful

regarding repayment of his bank loan obtained for the vineyard.

Agnihotra was done regularly and Agnihotra ash was applied to his

vines. The observations which were recorded at harvest time proved

very good. The grower, Mr. Khode, had never believed in such a

possibility until he saw the actual results. The individual berry as

well as the cluster was superior in colour, taste, sweetness and

weight. About 150 observers said that the crop was the best in that

locality.

EFFECTS

 

REGULAR FERTIZING PRACTICE

 

ONLY AGNIHOTRA

 

REGULAR PRACTICE AND AGNIHOTRA

Seed germination

 

More than 6 months required for germination

 

21 to 28 days required

 

***

Rooting of cutting

 

80 % rooting

 

100 % rooting

 

100 % rooting

Bunch development

 

Av. bunch wt. 0.45 Kg.

 

Av. bunch wt. 0.45 Kg.

 

Av. bunch wt. 0.525 Kg.

Disease

 

More disease

 

No disease

 

Less disease

Colour

 

Green yellow

 

Golden yellow

 

Pale yellow

Quality

 

TSS 22 %

 

TSS 24 %

 

TSS 23 %

Loss of harvest

 

About 30 % loss

 

No loss

 

10 % loss

 

Effect of Agnihotra on Grapes

 

The above experiment was conducted in the vineyard of Mr. Pundlik

Khode on Thompson seedless grapes at Pimpalgaon Baswant, Nasik, during

the year 1979-80.

 

1. Agnihotra was performed by Dr. B. G, Bhujbal, Asst. Horticulturist,

M, Phule Agricultural University. 2. Other Homas were performed by Mr.

Ranade, Manager, State Bank of India.

3. Regular operations were carried out by Mr. Pundlik Khode, owner of

the vineyard. Mr. Khode was very happy with the Agnihotra results.

 

Agnihotra was also performed for raisin-making. This was done in March

1980. Clusters were hung from the roof, and under the clusters

Agnihotra was performed regularly, twice daily. In 21 days the grapes

dried under room conditions and the quality of the grape raisins was

excellent. The variety used was Thompson seedless.

Agricultural Experience with Vanilla Plants

Abhay Mutalikdesai, Karnatak, India

 

Nature is a silent performer and I was anxious to see her work. Since

hundreds of farmers are closely observing our Homa Therapy work at

Sutagatti, I was slightly under tension. Our faith and devotion has

started working in this after three months of regular Homa.

 

The single infected banana plant has gotten the first healthy leaf.

The shoot appears disease-free. I will soon send the earlier and

later photograph.

 

I am also very happy to inform that the first vanilla produce for the

year 1999-2000 is of excellent quality. The vanilla bean curing

process (three months) was started along with Homa Therapy. The cured

vanilla beans were tested at Spice Board testing laboratory in Cochin.

The following are the results:

Year

 

Place

 

Vanillin%

by weight

1998

 

ernanakulam

(kerala)

 

2.56

1999

 

myladumpara

(kerala)

 

2.71

2000

 

sutagatti

(karnatak)

 

2.91

 

The above results have given immense joy to all of us, including our

fellow organic farmers who had participated in our Homa Therapy.

Now a person with deep knowledge about farm seeds has approached us.

He is ready to offer voluntary services in developing a seed bank,

seed plots and demonstration plots for fellow farmers in our area.

 

In this month we had three heavy rains at Sutagatti. First occasion

was when I was performing Om Tryambakam Homa. The other two rains

came during evening Agnihotra. However, the first occasion was

special. It rained only over Parashanatti and Sutagatti. This rain

was very essential to us because the electricity transmission

transformer was burnt and we had no power for fifteen days. Our mud

barrage built across River Ghataprabha remains now full; otherwise, it

dried up by middle of May. Availability of abundant water for farming

during summer has happened, after many, many years.

 

My workers, their children and neighbors are very much influenced by

Homa Therapy. Two of my workers who were alcoholic and

non-vegetarians have stopped consuming since last two months. One of

them is doing regular Om Tryambakam Homa and Agnihotra during our absence.

 

All these positive things are due to Yajnya.

Abhay Mutalikdesai

Karnatak, India