ROLE OF RASHI NAKSHTRA YUKTA VASTU DHOOP IN

ROLE OF RASHI NAKSHTRA YUKTA
VASTU DHOOP IN ENVIRONMENTAL
CLEANING AND SUSTAINABLE
CONSERVATION
(A PRELIMNARY STUDY)
Jogdand SB, and Joshi P.
Science research center,
Yashwantrao Mohite College,
Bharati
h i Vidyapeeth
id
h Deemedd University,
i
i
Erandawne, Pune – 411038.
[email protected] , mobile: 9422007949
Presented by :- Dr. Prasad Joshi
INTRODUCTION:
¾Impact
of
burning
of
“Rashi
NakshtraYuktaVastu Dhoop
Dhoop”,, prepared from
Aurvedic medicinal plants, in the intramural
environment was studied during winter season i.e.
ie
December 2013 and January 2014 .
¾Vedas are soul of Indian culture and heart of
Indian ancient literature . By churning the
k
knowledge
l d off Vedas
V d and
d Sages
S
off ancient
i t times
ti
invented Dhoop Vidnyan (Science of Dhoop
Vidnyan - the essence).
¾Vedvidnyan brings you, the very same ancient
science
in
practice
p
byy
manufacturing
“Rashinakshatrayukta
Vastudhoop” which is accomplished by the
Vastudhoop
power of full moon, new-moon, 7 days of a
week,
k 30 tithes
tith
off a month,
th 27 lunar
l
mansions, 9 planets, with adi-pratyadi dewata
and its group, 12 zodiac signs and their deities
((as p
per ancient belives )).
Definition of dhoop
Ref.: Yadynik ratnam (shodshopchar pooja)
Results and Discussion
¾These preliminary
¾Th
li i
i
investigations
ti ti
revealed
l d encouraging
i
results.
¾ Findings of morning, before/ after and evening, before/
after
ft for
f three
th
consecutive
ti days
d
revealed
l d comparatively
ti l more
aerospora before burning the dhoop and there was significant
d
decrease
i the
in
th airspora
i
after
ft burning
b i the
th dhoop
dh
f one hour
for
h
every time in the morning as well as evening.
¾E.g. on 18th December morning before burning the dhoop
percentage
t
contribution
t ib ti was 18% which
hi h was significantly
i ifi tl
decreased after burning the dhoop i.e. 3% and in the
evening
i
b f
before
b i
burning
the
h dhoop
dh
i was17%
it
17% & after
f
i
it
was 3%.
¾Burning
g of dhoop
p for three consecutive days
y
and two random days revealed progressive
decrease in aerospora before as well as after the
experiment.
¾Effect of burning the dhoop in the morning was
long lasting till evening.
¾On the last day
y three dhoops
p were burnt at a
time which resulted more pronounced decrease
in the biocomponents in the air.
air
Graph:
percentage
before /
p Comparative
p
p
g contribution of aerobiocomponents
p
after burning the dhoop.
20
18
16
14
12
10
Rotoraod air sampler
8
Tilak air sapmler
6
4
2
0
M.B.
M.A
E.B
18/12/2013
E.A
• M.B. : Morning Before
* M.A.: Morning After
M.B
M.A
E.B
18/12/2010
E.B. : Evening Before
E. A. : Evening After
E.A
M.B
M.A
E.B
20/12/2013
E.A
Conclusion:
¾Findings
¾
i di
of these
h
preliminary
li i
studies
di have
h
revealed
l d andd
proved clearly that burning of dhoop have significant decrease in
aerobacteriospora & aeromycospora in the intramural
environment at Pune & cleaned or purified the air.
Future Prospects of Biosciences:
¾ Which may help to design an ideal model for cleaning
((sterilization)) of environment,, ppurification of air & conservation
of sustainable environment.
¾It may also help to develop feasible strategy for prevention of
aerobiopollution which is always better than cure.
™ Types of Aeromicrobiota which are revealed during preliminary study:
Basidiospores, Ganoderma, Smut spores, Alternaria, Aspergillus, Bispora,
Cercospora, Cladosporium, Cordana, Curvularia, Dictyoarthrinium,
Helminthosporium, Nigrospora, Periconia, Pithomyces, Spegazzinia, Tetraploa ,
Torulaetc
™ Other types: Cellulosefibres, Fungal hypha, Insect wings, Pollen grain, Protozoan
cyst etc.
Alternaria
Aspergillus
Bispora
Helminthosporium
Nigrospora
Spegazzinia
Tetraploa
Insect wing
Pollen grain
Curvularia
Pithomyces
Epidermal hair