dc.description.abstract |
The atmosphere of the earth is divided in to layers as troposphere, stratosphere,
mesosphere and thermosphere. Each of these layers contain different types of
airborne microorganisms owing to their physical and chemical characteristics such
as types of gases, temperatures and atmospheric pressure. These microorganisms
may have the ability to tolerate low O2 conditions, high temperature levels and
survive even under UV rays. Therefore, isolation of these microorganisms can be
useful in identifying the microbial diversity. Therefore, a ‘water-boost rocket’
method was developed to collect air samples from different layers of the atmosphere,
where it can be used to isolate beneficial microorganisms from different layers of the
atmosphere.
The water-boost rocket consists of two main parts: the main rocket and the sample
collecting part. Rocket is powered by water and compressed air. It is made out of a
1.5 L capacity plastic bottle. Four fins were attached to the bottom of the bottle using
a plastic board. These fins help the rocket for its flight on a straight line. The
nosecone of the rocket was made by using another 1.5 L plastic bottle. The neck and
the bottom part of the bottle was removed to preserve the cone shaped part of the
bottle. Then 50 g of clay was pasted on the top of the cone shaped part. This adds
weight to the nose cone and the center of gravity is moved higher, thus making it
more stable. The prepared nosecone was attached to the top of the rocket by gluing
and taping. The nozzle of a size of 0.6 cm was prepared using a PVC pipe. The rocket
launcher wad made up of wood. A separate pipe line was used to fill air to the rocket.
Rocket can be filled with water through the nozzle. To launch the rocket, it has to be
placed on the launcher and air should be pumped to the rocket by air pump or
compressor. After pumping air, launcher can release the rocket.
Normally this rocket flies up to 100 m of height. This height can be extended up to
around 500m, if it is prepared with several stages by joining several bottles together.
If we can use another type of gas instead of normal gas, it also can increase the height.
The volume of water in the bottle and the pressure decides the maximum height that
it can fly. A petri plate can be attached to the rocket using another nosecone, which
can be attached over the pre-attached nosecone. Between two nosecones medium
containing petri plate was placed. Then a timer circuit is placed on the first nosecone.
This circuit helps to open and close the secondary nosecone at a specified time. When
the nosecone is opened plate is exposed to the environment and then it should be
closed within a pre-determined time period (3 sec.). After the rocket is landed, we
can take the plate, incubate it and isolate the microorganisms. Different types of
media can be used to isolate diverse groups of microorganisms. |
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