Chapter 14 Ecosystems and Energy Flow
1. Multiple choice questions
Question 1.
Which one of the following has the largest population in a food chain?
(a) Producers
(b) Primary consumers
(c) Secondary consumers
(d) Decomposers
Answer:
(a) Producers
Question 2.
The second trophic level in a lake is ……………………
(a) Phytoplankton
(b) Zooplankton
(c) Benthos
(d) Fishes
Answer:
(b) Zooplankton
Question 3.
Secondary consumers are …………………….
(a) Herbivores
(b) Producers
(c) Carnivores
(d) Autotrophs
Answer:
(c) Carnivores
Question 4.
What is the % of photosynthetically active radiation in the incident solar
radiation?
(a) 100%
(b) 50%
(c) 1-5%
(d) 2-10%
Answer:
(b) 50%
Question 5.
Give the term used to express a community in its final stage of succession?
(a) End community
(b) Final community
(c) Climax community
(d) Dark community
Answer:
(c) Climax community
Question 6.
After landslide which of the following type of succession occurs?
(a) Primary
(b) Secondary
(c) Tertiary
(d) Climax
Answer:
(a) Primary
Question 7.
Which of the following is most often a limiting factor of the primary
productivity in any ecosystem?
(a) Carbon
(b) Nitrogen
(c) Phosphorus
(d) Sulphur
Answer:
(c) Phosphorus
2. Very short answer question.
Question 1.
Give an example of ecosystem which shows inverted pyramid of numbers.
Answer:
Number of insects dependent on a single tree, is an example of ecosystem having
inverted pyramid of numbers.
Question 2.
Give an example of ecosystem which shows inverted pyramid of biomass.
Answer:
Oceanic ecosystem has inverted pyramid of biomass.
Question 3.
Which mineral acts as limiting factor for productivity in an aquatic ecosystem?
Answer:
Phosphorus acts as limiting factor for productivity in an aquatic ecosystem.
Question 4.
Name the reservoir and sink of carbon in carbon cycle.
Answer:
Atmosphere is the reservoir of carbon cycle, while fossil fuels embedded in
ocean and oceanic waters are the sink of carbon in carbon cycle.
3. Short answer questions.
Question 1.
Upright and inverted pyramid of biomass.
Answer:
Question 2.
Food chain and Food web.
Answer:
4. Long answer questions
Question 1.
Define ecological pyramids and describe with examples, pyramids of number and
biomass.
Answer:
1. Ecological Pyramids : Ecological Pyramids are the representation of
relationships between different components of ecosystem at successive trophic
levels.
2. Pyramid of numbers:
- Pyramid
of numbers is the diagrammatic representation which shows the relationship
between producers, herbivores and carnivores at successive trophic levels
in terms of their numbers.
- As
we go up the trophic levels, the interdependent organisms keep on reducing
in their numbers.
- For
example, the number of grasses are more than the number of herbivores
which eat them. The number of herbivores such as rabbits would be lesser
than grass but greater than the carnivores that are dependent upon the
population of rabbits.
- Thus,
the producers would be more than primary consumers and primary consumers
would be more than secondary consumers. The top level consumers would be
least in their numbers. This pyramid shows upright nature.
3. Pyramid of biomass:
(1) Pyramid of biomass are constructed by taking into consideration the
different biomass in every successive trophic level.
(2) Pyramid of biomass in seas in inverted as the biomass of fishes is more
than the biomass of phytoplankton.
Question 2.
What is primary productivity? Give brief description of factors that affect
primary productivity.
Answer:
(1) Primary Productivity : The rate of generation of biomass in an ecosystem
which is expressed in units of mass per unit surface (or volume) per unit time,
for instance grams per square metre per day (g/m²/day) is called primary
productivity.
(2) Primary productivity is described as gross primary
productivity (GPP) and net primary productivity (NPP).
(3) The rate of production of organic matter during
photosynthesis is called gross primary productivity of an ecosystem. Of this
the amount of energy lost through respiration of plants is called respiratory
losses.
(4) Gross primary productivity minus respiratory losses
gives the net primary productivity (NPP).
(5) Net primary productivity is the available biomass for
the consumption to heterotrophs (herbivores, carnivores and decomposers).
(6) Factors affecting primary productivity: Gross primary
productivity (GPP) depends on the following factors:
- Plant
species inhabiting a particular area.
- Variety
of environmental factors such as temperature, sunlight, salinity, oxygen
and carbon dioxide content, etc.
- Availability
of nutrients and
- Photosynthetic
capacity of plants.
Question 3.
Define decomposition and describe the processes and products of decomposition.
Answer:
- Decomposition
is the process carried out by the decomposer organisms.
- Most
of the bacteria, actinomycetes and fungi are decomposers. They convert the
dead and decaying organic matter into simpler compounds. These simpler
inorganic substances return back to the environment.
- Decomposition
takes place through detritus food chain. It starts from the dead organic
matter. Detritus eating organisms called detritivores like earthworm, etc.
breakdown the detritus into smaller fragments. Therefore, this first step
of decomposition is called fragmentation.
- Water
soluble inorganic nutrients seep into the soil after fragmentation. These
nutrients get precipitated as salts. Therefore, this second step of
decomposition is called leaching.
- The
third step of decomposition is called catabolism. In this step, fungal and
bacterial enzymes degrade the detritus into simple inorganic substances.
- The
partially decomposed organic matter is called humus which is formed by the
process of humification. Humus is a dark coloured amorphous substance
which is the reservoir of nutrients.
- Humus
too undergoes decomposition by bacterial action at a very slow rate and
ultimately releases inorganic matter. This process is therefore called
mineralization.
- Decomposition
requires oxygen in greater amount. The rate of decomposition is dependent
upon the temperature and the humidity of the environment.
Question 4.
Write important features of a sedimentary cycle in an ecosystem.
Answer:
- Reservoir
of sedimentary cycles is earth’s crust.
- The
nutrients such as phosphorus which show sedimentary cycle, moves through
hydrosphere, lithosphere and biosphere.
- There
is no respiratory release of nutrients into the atmosphere which show
sedimentary cycle.
- Natural
reservoir of such nutrients are usually in the form of rocks. The rocks
upon weathering release such nutrients into circulation.
- Sedimentary
cycles are very slow in their reactions.
Question 5.
Describe carbon cycle and add a note on the impact of human activities on
carbon cycle.
Answer:
I. Carbon cycle:
(1) The entire carbon cycle has following basic processes viz. Photosynthesis,
Respiration, Decomposition, Sedimentation and Combustion.
(2) Carbon is an important element as it forms 49% of the
dry weight of all organisms. 71% of global carbon is present in the oceans.
Therefore, ocean is the major reservoir of carbon. Carbon is also present in
all fossil fuels. This is long term storage places or sinks for carbon which is
in the form of coal, natural gas, etc.
(3) Respiration and photosynthesis are the two events
that keep the carbon in cyclic circulation. During respiration, oxygen is used
for combustion of carbohydrates as a result of which carbon dioxide and water
are formed with the release of energy. The process of photosynthesis utilizes
carbon dioxide and water vapour liberating oxygen and producing carbohydrates
at the same time.
(4) Solar energy is stored in the carbon-carbon bonds of
carbohydrates during photosynthesis whereas respiration releases the same
stored energy.
(5) The main reservoirs for carbon dioxide are in the
oceans and in rocks. Carbon dioxide is highly soluble in water and forms mild
carbonic acid upon dissolving. This dissolved carbon dioxide precipitate as a
solid rock or limestone which is calcium carbonate. This reaction in the seas
is aided by corals and algae which in turn builds the coral reefs made up of
limestone.
(6) Carbon moves through food chains. Autotrophic green
plants on land and in water take up carbon dioxide and manufacture
carbohydrates by the process of photosynthesis. The carbon stored in plants has
three different fates, viz. liberation into atmosphere, consumption by animals
upon feeding, storage in the plant till the plant dies.
(7) Animals get their carbon requirement through their
food. When autotrophs are consumed, the heterotrophs obtain carbon. Carbon in
animals also has three fates, viz. release back into the atmosphere in the
process of respiration, release of stored carbon from the body by the action of
decomposers or conversion into fossil fuels if buried intact.
(8) Fossil fuels such as coal, oil, natural gas, etc. can
be mined and burned for energy purposes. This burning releases carbon dioxide
back into the atmosphere.
(9) Carbon from limestone can also be released if pushed
to the surfaces and slowly weathered away. Subducting and volcanic eruptions
can also release the stored carbon from sediments.
II. Impact of human activities on carbon cycle:
(1) Excessive burning of fossils fuels for power plants, industrial processes
and vehicular traffic, adds excessive carbon dioxide into atmosphere. When
fossil fuels burn to run factories, power plants, motor vehicles, most of the
carbon quickly enters the atmosphere as carbon dioxide gas.
(2) Each year, 5.5 billion tonnes of carbon is released
through combustion of fossil fuels. Of this massive amount, 3.3 billion tonnes
stays in the atmosphere.
(3) Rapid deforestation also increases carbon dioxide.
Since plants absorb carbon dioxide for their photosynthesis, they always reduce
the concentration of CO2. But deforestation upsets this balance.
(4) Massive burning of fossil fuel for energy and
transport, have significantly increased the rate of release of carbon dioxide
into the atmosphere which is causing global warming and resultant climate
change.