1.
Vegetative cover on the
ground has a role to play in the percolation of water into the deeper layers
too.
Biogeochemical Cycles
A constant interaction
between the biotic and abiotic components of the biosphere makes it a dynamic,
but stable system.
These interactions consist
of a transfer of matter and energy between the different components of the
biosphere.
Let us look at some processes
involved in the maintenance of the above balance.
“The transfer of matter and
energy in the atmosphere, hydrosphere, lithosphere and biosphere is called biogeochemical
cycle”.
THE WATER-CYCLE
“The process in which water
evaporates and falls on the land as rain and later flows back into the sea via rivers
is known as the water-cycle”.
1.
Rain is the main source of
water on earth. Rains are obtained by condensation of clouds.
2.
When water evaporates from
water bodies like seas, oceans, lakes and rivers, it form vapours which goes up
and form the clouds.
3.
Vapours also formed in
transpiration of plants and respiration of animals.
4.
All of the water that falls
on the land does not immediately flow back into the sea.
5.
Some of it seeps into the
soil and becomes part of the underground reservoir of fresh-water.
6.
Some of this underground
water finds its way to the surface through springs. Or we bring it to the
surface for our use through wells or tube wells.
7.
Water is also used by
terrestrial animals and plants for various life-processes
8.
Let us look at another
aspect of what happens to water during the water-cycle.
9.
Water is capable of
dissolving a large number of substances.
10.
As water flows through or
over rocks containing soluble minerals, some of them get dissolved in the water.
11.
Thus rivers carry many
nutrients from the land to the sea, and these are used by the marine organisms.
THE NITROGEN-CYCLE
1.
Nitrogen gas makes up 78% of
our atmosphere.
2.
Nitrogen is also a part of many
molecules essential to life like proteins, nucleic acids (DNA and RNA) and some
vitamins.
3.
Nitrogen is found in other biologically
important compounds such as alkaloids and urea too.
4.
Nitrogen is thus an essential
nutrient for all life-forms and life would be simple if all these life-forms
could use the atmospheric nitrogen directly.
5.
However, other than a few
forms of bacteria, life-forms are not able to convert the comparatively inert
nitrogen molecule into forms like nitrates and nitrites which can be taken up
and used to make the required molecules.
6.
These ‘nitrogen-fixing’
bacteria may be free-living or be associated with some species of dicot plants.
7.
Most commonly, the nitrogen-fixing
bacteria are found in the roots of legumes (generally the plants which give us
pulses) in special structures called root nodules.
8.
Other than these bacteria,
the only other manner in which the nitrogen molecule is converted to nitrates
and nitrites is by a physical process.
9.
During lightning, the high temperatures
and pressures created in the air convert nitrogen into oxides of nitrogen.
10.
These oxides dissolve in
water to give nitric and nitrous acids and fall on land along with rain. These
are then utilized by various life forms.
What happens to the nitrogen once it is converted into forms
that can be taken up and used to make nitrogen-containing molecules?
11.
Plants generally take up
nitrates and nitrites and convert them into amino acids which are used to make
proteins.
12.
Some other biochemical
pathways are used to make the other complex compounds containing nitrogen.
These proteins and other complex compounds are subsequently consumed by animals.
13.
Once the animal or the plant
dies, other bacteria in the soil convert the various compounds of nitrogen back
into nitrates and nitrites.
14.
A different type of bacteria
converts the nitrates and nitrites into elemental nitrogen.
15.
Thus, there is a
nitrogen-cycle in nature in which nitrogen passes from its elemental form in
the atmosphere into simple molecules in the soil and water, which get converted
to more complex molecules in living beings and back again to the simple
nitrogen molecule in the atmosphere.
THE CARBON-CYCLE
1.
Carbon is found in various
forms on the Earth.
2.
It occurs in the elemental
form as diamonds and graphite. In the combined state, it is found as carbon
dioxide in the
3.
atmosphere, as carbonate and
hydrogen carbonate salts in various minerals, while all life-forms are based on
carbon-containing molecules like proteins, carbohydrates, fats, nucleic acids
and vitamins.
4.
The endoskeletons and
exoskeletons of various animals are also formed from carbonate salts.
The carbon cycle:
1.
Carbon is incorporated into
life-forms through the basic process of photosynthesis
which is performed in the presence of Sunlight by all life-forms that contain
chlorophyll.
2.
This process converts carbon
dioxide from the atmosphere or dissolved in water into glucose molecules. These
glucose molecules are either converted into other substances or used to provide
energy for the synthesis of other biologically important molecules.
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