ECOSYSTEM class 12

 ● Ecosystem is the interaction of living things among themselves and

with their surrounding environment.

● There are two basic ecosystems − terrestrial and aquatic.

Structure of Ecosystem

● The interactions between the various biotic and abiotic factors of an

ecosystem lead to the maintenance of the ecosystem.

● Stratification is the vertical distribution of the different species

occupying the different levels. For example, trees occur at a higher

level then shrubs.

● The various aspects taken into consideration to study the functioning

of ecosystem are:

○ Productivity

○ Decomposition

○ Energy flow

○ Nutrient cycling

Productivity

● A constant supply of sunlight is required for the proper functioning of

any ecosystem.

● The amount of biomass produced per unit area over a time period by

plants during photosynthesis is defined as the primary productivity​.

● It is expressed as weight (g

−2) or energy (Kcal m−2).

● Productivity can be mainly divided into gross primary productivity

(GPP) and net primary productivity (NPP). GPP is the rate of

production of organic matter during photosynthesis.

NPP = GPP − Respiratory losses (R)

● Secondary productivity​is defined as the rate of formation of new

organic matter by consumers.

● Primary productivity depends upon

○ type of plant species inhabiting a particular area

○ photosynthetic capacity of plants

○ nutrient availability

● Annual net productivity for whole biosphere is about 170 b tons of

organic matter.

Decomposition

● It is the process of breakdown of complex organic matter into

inorganic substances such as carbon dioxide, water, nutrients, etc.

● Fragmentation​− Breaking down of detritus (dead plant and animal

remains, faecal matter) into smaller particles by detritivores

(decomposers)

● Leaching​­ Process by which these inorganic matters enter the soil

● Catabolism​− Process by which detritus is degraded into simpler

inorganic substances by bacterial and fungal enzymes

● Humification​− Accumulation of humus in the soil.

Humus is resistant to microbial action and decomposes at an

extremely slow rate. It acts as a reservoir of nutrients.

● Mineralization​− Process by which humus further degrades to release

minerals into the soil

● It is an oxygen consuming process and is controlled by the chemical

composition of detritus and climatic conditions.

Energy Flow

● Sun is the sole source of energy for all ecosystems on the earth.

● Plants and other photosynthetic organisms utilize less than 50% of the

solar radiation known as the photosynthetically active radiation

(PAR)​.

● In an ecosystem, plants are called producers​and all animals depend

upon the plants directly or indirectly for their food. Hence, they are

known as consumers or heterotrophs.

● The consumers can be further divided into primary consumers

(herbivores), secondary consumers (primary carnivores), and tertiary

consumers (secondary carnivores).

● Food chain​− The energy flow among the various constituent animals

is known as the food chain.

● Food web​− The interconnection of the various food chains is called

the food web.

● Trophic level​− Every organism occupies a specific level in their food

chain known as the trophic level.

● Standing crop​− Each trophic level contains a certain amount of

living material at a certain time known as the standing crop.

● The number of trophic levels in a food chain is restricted since the

energy transfer follows the 10 percent law i.e., only 10% of the energy

is transferred from a lower trophic level to a higher one.

Ecological Pyramids

● The energy relationship between the different trophic levels is

represented by the ecological pyramids.

● Their base represents the producers or the first trophic level while the

apex represents the tertiary or top level consumer.

● Ecological pyramids are of 3 types:

○ Pyramid of number

○ Pyramid of biomass

○ Pyramid of energy

● In most ecosystems, the three pyramids are upright except in some

cases:

○ The pyramid of biomass is inverted in an ocean ecosystem since

a small standing crop of phytoplankton supports a large number

of zooplankton.

○ The pyramid of number can be inverted when, say, a large tree

is eaten by small insects.

○ However, the pyramid of energy is always upright.

● A trophic level represents a functional level and not a single species as

such. Also, a single species may become a part of more than one

trophic level in the same ecosystem at the same time depending upon

the role it plays in the ecosystem.

● Limitations of ecological pyramids:

○ The ecological pyramids do not take into account the same

species belonging to more than one trophic level.

○ It assumes a simple food chain that almost never exists in

nature. It does not explain food webs.

○ Saprophytes are not given a place in ecological pyramids even

though they play a vital role in ecosystem.

Ecological Succession

● The composition of all ecosystems keeps on changing with change in

their environment. These changes finally lead to the climax

community.

● Climax community​− It is the community which is in equilibrium with

its environment. Gradual and fairly predictable change in the species’

composition of a given area is called ecological succession.

● Sere(s)​− It is the sequence of communities that successively change

in a given environment. The transitional communities are called seral

stages or seral communities.

● Succession happens in areas where no life forms ever existed as in

bare rocks, cool lava, etc. (primary succession​), or in areas which

have lost all life forms due to destructions and floods (secondary

succession​).

● Primary succession takes hundreds to thousands of years as

developing soil on bare rocks is a slow process. Secondary succession

is faster than primary succession since the nature does not have to

start from scratch.

● During succession, any disturbances (natural/man­made) can convert

a particular seral stage to an earlier one.

● Hydrarch succession​− It takes place in wet areas and converts

hydric conditions to mesic.

● Xerarch succession​− It takes place in dry areas and converts xeric

conditions to mesic.

● Pioneer species​− These are the species that first invade a bare

area. On land, these could be lichens that secrete enzymes to dissolve

the rock surfaces for soil formation while in water, pioneer species

could be phytoplanktons.

● The ultimate result of all successions is a climax community, a mesic.

Nutrient Cycling

● The amount of nutrients present in the soil at a given time is known as

the standing state.

● Nutrients are never lost from the ecosystem. They are only recycled

from one state to another.

● The movement of nutrients through the various components of the

ecosystem is called nutrient cycling or biogeochemical cycles. They are

of two types:

○ Gaseous​− Reservoir for these types of cycles exist in the

atmosphere.

○ Sedimentary​− Reservoir for these types of cycles exist in the

earth’s crust.

Carbon Cycle

● About 49% of the dry weight of living organisms is made up of carbon.

● The ocean reserves and fossil fuels regulate the amount of CO2

in the

atmosphere.

● Plants absorb CO2

from the atmosphere for photosynthesis, of which a

certain amount is released back through respiratory activities.

● A major amount of CO2

is contributed by the decomposers who

contribute to the CO2 pool by processing dead and decaying matter.

● The amount of CO2

in the atmosphere has been increased considerably

by human activities such as burning of fossil fuels, deforestation.

Phosphorus Cycle

● Phosphorus is an important constituent of cell membranes, nucleic

acids, and cellular energy transfer systems.

● Rocks contain phosphorus in the form of phosphate.

● When rocks are weathered, some of the phosphate gets dissolved in

the soil solution and is absorbed by plants.

● The consumers get their phosphorus from the plants.

● Phosphorus returns back to the soil by the action of

phosphate ­solubilising bacteria on dead organisms.