Biotic Community
In any natural environment only one species cannot exist by themselves. It is always a group of
population that lives together in the same area.
An association of a number of different inter-related populations of different species in a
common environment forms a Biotic Community.
Characteristics of biotic communities
The members of a biotic community can be producers, consumers and decomposers. The
members f a biotic community are all interdependent.
A biotic community may be small or large e.g. pond community occupies a limited area
while the desert or grass land communities could spread to miles.
A biotic community may primarily be of plants or animals but generally includes both.
As different species share a common environment, a number of direct or indirect
interactions exists between and inside a biotic community. A biotic community interacts
with the abiotic factors and forms an ecosystem.
Every biotic community needs abiotic factors for survival. At times the dominance of one
factor determines the predominance of particular kind of population in a biotic
.
community For example: In a biotic community of fruit bearing trees the frugivorous
bats and insects would be in plenty. A grass land biotic community has seed eating birds,
mice and predatory birds living on small insects. A damp marsh has frogs, toads, fish,
water insects and water birds that feed on small creatures. Aquatic plants of different
kinds adapted for different intensities of light at the surface or at different depths would
be present in a biotic community.
Interspecific Interactions in a Biotic Community
When various species live together in a biotic community, numbers of interactions take place
according to specific needs of food, shelter and habitats.
1. Predation
Predation is a direct and often complex interaction of two species in a biotic community. The
stronger animal called predator captures and feeds on the weak animal called prey. The decline
in number of predators leads to an increase in the number of the prey. An increase in the predator
population leads to decrease in the prey population in a biotic community. These fluctuations
play an important part in regulating natural population. Examples: Tiger feeds on deer, owls on
rats etc. At times an animal could be a predator as well as a prey.
2. Scavenging
Scavenging is a direct food relationship where animals called scavengers feed on other dead
animals which have either died naturally or have been killed by another animal in a biotic
community. They play an important role in a biotic community as food is not wasted and also is
disposed of. Examples: - Vulture feeds on dead bodies. Hyenas and jackals feed on left over
killed animals by lion. They may feed on big animals like zebra and giraffe killed by other
animals.
3. Parasitism
Parasitism is a negative interaction in a biotic community where one not only derives
nourishment but also lives a part or the whole of life on another organism. The parasite is an
organism that lives on another organism, the host from which it obtains food as well as shelter in
a biotic community. It could be between animals, between plants or between animals and plants
in a biotic community. In the host – parasite relationship the weak attacks the stronger. It is
beneficial to parasite and harmful to host. Generally a parasite may cause an illness but not kill
the host except in severe cases. There may be number of parasites on one host.
4. Commensalism
In Commensalism one organism or a population is benefited while the other is neither benefited
nor harmed. In some cases the host may be able to derive some minor benefit. There is no
physiological exchange of any kind. The association may be temporary or permanent in a biotic
community. Example Remora – a small fish attaches itself to the lower side of a shark. Remora
feeds on scraps of shark's food and is not harmed.
5. Symbiosis
Symbiosis is an association of two populations in a biotic community where both the populations
are benefited. There is often a close or permanent association. In some cases both are so
interdependent that neither can live alone in that biotic community.
6. Competition
The two species in a biotic community interact in such a way that it affects their growth and
survival. Both the species share the same resources like water, nutrients, space, sunlight, food,
etc of a biotic community. Members of both species compete to survive in that respective biotic
community. There is a direct inhibition of one by another. Many a times there is no set pattern as
anyone can succeed. Examples:- Carnivorousanimals like tiger and lion compete for the prey.
Trees, herbs and shrubs compete for sunlight and nutrients in a biotic community.
7. Some Passive Interactions
There are many interactions that in a biotic community in between the animals, or between
animals and the surrounding, which also help an organism to survive in that biotic community.
Camouflaging – The blending of an animal with its surrounding is called camouflaging. It is
also known as protective coloration. They camouflage their body shape and colour to suit the
environment. Examples:- Stick insect Carausius morosus resembles a thin dry branch. Dead Leaf
butterfly Kalima parolecta resembles a dry leaf. Praying mantis Mantis religiosa resembles the
green foliage. Mimicry – Mimicry is also a type of protective resemblance in a biotic
community. In this an animal mimics another animal so as to avoid predation. The viceroy
butterfly mimics the common Monarch butterfly which is avoided by birds for its unpleasant
taste.
Other Interactions
There may be many other interactions which may not be apparent. The birds feeding on ticks –
the parasites on the body of cattle. The red billed and yellow billed ox peckers perch on the black
rhinoceros of Africa and feed on ticks and thus make the animal rid of the parasites to survive in
a biotic community. They also warn the animal of the approaching danger. The ferocious ants do
not harm the eggs or young ones but the birds feed on these ants and keep a check on their
population to continue their generation in a biotic community.
Concepts in biotic communities
Biotic Stability
A biotic community is a naturally occurring assemblage of plants and animals living in the same
environment. They all interact to make the community stable. It has been seen that the more the
number of species, the more stable is the community. For example a biotic community
containing a large population of Eucalyptus or any other plant may be totally wiped out by a
fungal disease or insect infestation. But if a biotic community contains many species and kinds
of plants, only one would be wiped out at a time and the rest would survive. Example – In
Serengeti plains of Africa, 20 species of antelope graze in the same area. Each species eats on a
different kind of grass or shrubs. Some that feed on the same species, feed at different stages of
grass. This makes the biotic community rich and stable.
Changes in a Biotic Community – Ecological Succession
A community is built up over a period of time. As the time passes, communities change. In a
biotic community there are interactions among the organisms (biotic factors) and between the
biotic and abiotic factors (climate, light, soil, etc) All these bring about changes in a biotic
community. A biotic community is a dynamic unit where tropic levels exist, there is
a flow of energy and cycling of nutrients. It is a living part of an ecosystem. The wind, fire,
volcanic activity or any other event in nature or man may destroy the organisms living in a biotic
community. Now if this area is left alone, a succession would start and ultimately a permanent
biotic community would take shape. This process from the beginning to the climax may take
many years. During this time there will be an orderly and progressive replacement of one biotic
community by another till a relatively stable biotic community is established. This is known as
ecological succession. A complete succession is called as Sere. A Sere is made up of a number of
seral stages.
Kinds of Ecological Succession
1. Primary Succession
Primary Succession occurs where no biotic community has previously existed like sand dunes,
volcanic islands, lava flows, etc. The area is devoid of any organisms. It may take upto 1000
years before climax community gets established.
Various stages in a Primary Succession – Let us take an example of a bare rock or volcanic
islands. Trees, herbs or shrubs cannot grow because of absence of good soil. The first organisms
often called pioneer organisms are lichens that invade the rocky area. The fungal component
holds and the algae provide food. The erosion of rock, sand, dead and decayed lichens provide
sufficient soil for larger plant species to invade. Next mosses, ferns and grasses grow on the
rocky surface. Certain insects and small animals are also seen. Then the herbs, shrubs and trees
replace the earlier vegetation and new animals continue to invade. Ultimately these plants will be
succeeded by large seed bearing plants, tall grasses. This would also support number of
different kinds of animals populations in a biotic community. This final stable self growing
community is called as climax community. The animals also show a succession but these are
governed by the plant succession.
2. Secondary Succession
It occurs when a biotic community has been disrupted and the surface is completely or largely
devoid of vegetation. It may be due to earthquake, fire or even clearing of forest by man. As the
spores, seeds, rhizomes the organs of vegetative reproduction are present beneath the soil, often
grasses, shrubs, weeds are first to appear. The same principle of primary succession applies but it
occurs at a much faster pace. It has been observed that destroyed grassland may take 50 – 100
years and a destroyed forest about 200 years.
Climax Community
It may take hundreds of years for a climax forest community to be established on a sand dune. A
climax community is in equilibrium with the environment. A climax community often has one or
more dominant species. It is generally referred to those species which collectively form a greater
biomass and are generally larger in size. Climax community supports large number of species.
Climax community has a high biomass and rich organic soil. Climax community provides a wide
range of food material. Climax community has a diverse variety of niches for animals.
Dominant Species
The dominant species are the most numerous plants. They are generally large in size and have
the greatest biomass (total quantity of organisms in an area) e.g pines, oaks of a biotic
community.