2. Unit 2_ES_CHE110.pdf

Transcript

Ecosystems
 Introduction
The term ecosystem was first used in 1935 in a
publication by British ecologist Arthur Tansley.
Ecosystem: A self-regulating group of biotic
communities of species interacting with one another and
with their non-living environment exchanging energy and
matter
The term oekologie (ecology)was coined by the German
biologist Ernst Haeckel in the year 1866. Greek word
“Oikos” meaning “home” and “logos” meaning “study”
Ecology: The study of organisms in their natural habitat
interacting with their surroundings
This material is for reference only. Points present in the slides are only for assistance and their elaboration
are present in book. Examination quesions will be in depth and can be solved by following text book only.
Classification of Ecosystems Natural Ecosystems

Terrestrial
Ecosystems
Man-made Ecosystems (aquaria,
garden, dams & cropland of Forest
maize, wheat, rice). Ecosystems

Grass land
Aquatic Ecosystems
Ecosystems
Desert
Ecosystems
Fresh water
Ecosystems

Standing water Running water Marine
Ecosystems (lentic) Ecosystems (lotic) Ecosystems
Natural Ecosystems Man-made Ecosystems
Structure of Ecosystem
Ecosystem Structure
 Biotic Components of Ecosystems
Producers (or autotrophs)
Green plants and some bacteria which manufacture their
own food.

Consumers (or heterotrophs)
Animals which obtain their food from producers
Primary consumers = herbivores (rabits, insects)
Secondary consumers = carnivores (Frog)
Tertiary consumers = top canivorous (Snake, big fish)
Omnivores = Humans, rat, fox

Decomposers
Bacteria and fungi that decompose dead
organic matter and convert it into simpler parts
 Functions of an Ecosystem

 Food chain and food web ( food chain is a series of
organisms that eat one another so that energy and nutrients
flow from one to the next. Many food chains interacts to
form food web)

 Energy flow (The energy flow takes place via the food
chain and food web)

 Ecological pyramids (An ecological pyramid is a
graphical representation designed to show the biomass or
bio productivity at each trophic level in a given ecosystem)
 Food Chain
The transfer of food energy from the
source (plants) through a series of
organisms by repeated eating and being
eaten up is referred to as food chain.

Types:
Grazing food chain-a common chain
starting with plant or plant product

Detritus food chain-chain derived by
the organic wastes and dead matter from
grazing food chains
Trophic Level
 Food web

The interlocking pattern formed by several food chains that are
linked together is called a food web.
 Energy Flow in Ecosystems
First Law of Thermodynamics energy can neither
be created nor destroyed but only is transformed
from one form to another.

Second Law of Thermodynamics-The second law
of thermodynamics states that no energy
transformations are 100% efficient.

10 Percent Rule of Energy
As a rule of thumb, 90 percent of the energy
involved is degraded at each tropic transfer and only
10 percent of the energy is conserved in the
organism's tissue.
 Ecological Pyramid

The graphical representations of different tropic levels in an
ecosystem where producers occupy the base and the top consumer
occupy the apex of the pyramid, is known as ecological pyramid.

They are used to illustrate the feeding relationships between
organisms.

Types of Ecological Pyramids

Pyramid of number = no of individual at each tropic level is considered
Pyramid of biomass = biomass at each tropic level is considered
Pyramid of energy = energy at each tropic level is considered
 Pyramid of Number

Pyramid of number is used to show
the number of individuals in each
tropic level.

It is upright in case of grassland
and pond ecosystems.
Pyramid of Number
Pyramid of Biomass tertiary
consumers 75 g/m2

Pyramid of biomass records the
total dry organic matter of
organisms at each trophic level in a
given area of an ecosystem. secondary 150g/m2
consumers

The pyramid of biomass is used to
show the total biomass of individuals
primary
at each trophic level. consumers 675g/m2

It is better than the pyramid of number
for showing the relationships between
organisms.
producers 2000g/m2

17
Pyramid of energy
Pyramid of energy is used to
show the amount of energy
transferred between tropic
levels.

It provides the best
representation of the overall
nature of an ecosystem.

The pyramid of energy flow is
always upright because there is
always loss of energy while
moving from lower tropic level
to higher tropic level. Therefore,
the energy reaching the next
tropic level is always less
compared to that in the previous
tropic level.
Ecological pyramids

https://youtu.be/NeK5-mJhWeg
Energy flow
Energy flow
 Succession
 Ecological succession is the gradual process
by which ecosystems change and develop
over time.
 It is therefore a series of predictable
temporary communities or stages leading up
to a climax community.
 Each stage/temporary community is called a
successional stage.
 Each step prepares the land for the next
successional stage.
 All habitats are in the state of constant
ecological succession.
 Types of Succession
 Primary succession
 Primary succession refers to a
series of community changes
which occur on an entirely
new habitat which has never
been colonized before. For
example, a newly quarried
rock face or sand dunes.
(pioneer and climax
community).
 Secondary succession
 Secondary succession refers
to a series of community
changes which take place on
a previously colonized, but
disturbed or damaged habitat.
For example, land obtained
Succession starting on different
types of area
 Hydrarch / Hydrosere
 Pond, swamp, bog
 Mesarch / Mesosere
 Area with adequate moisture
 Xerarch / Xerosere
 Lithosere: On bare rock
 Psammosere: On sand
 Halosere: On saline soil
 Process of ecological succession

 Nudation
 Invasion
 Migration (dispersal)
 Ecesis (establishment)
 Aggregation
 Competition
 Reaction
 Stabilization
 Nutrient cycles
 Nitrogen
 Nitrogen Fixation: Nitrogen in the atmosphere (N₂) is
converted into ammonia (NH₃) or related compounds. This
can be done by:
Biological Fixation: Certain bacteria, often in the roots of
legumes (like peas and beans), convert atmospheric
nitrogen into ammonia.
Abiotic Fixation: Natural processes like lightning or
industrial processes (e.g., Haber-Bosch process) can also
fix nitrogen.
Nitrification: Ammonia in the soil is converted into nitrites
(NO₂⁻) and then into nitrates (NO₃⁻) by nitrifying bacteria.
Nitrates are more easily absorbed by plants than ammonia.
 Assimilation: Plants take up nitrates from the soil and use
them to make amino acids, proteins, and nucleic acids.
When animals consume plants, they acquire nitrogen and
incorporate it into their own tissues.
Ammonification (Mineralization): When plants and
animals die, decomposers like bacteria and fungi break
down organic nitrogen in their bodies into ammonia, which
returns to the soil.
Denitrification: Denitrifying bacteria in the soil convert
nitrates back into nitrogen gas (N₂) or nitrous oxide (N₂O),
which is released into the atmosphere, completing the cycle.
Nutrient cycles
 Carbon
 Nutrient cycles

 Phosphorus
 Weathering and Erosion:
Rock Weathering: Phosphorus is primarily found in rocks in
the form of phosphate minerals (e.g., apatite). Through
weathering and erosion, these minerals break down, releasing
phosphate ions (PO₄³⁻) into the soil and water systems.
Erosion: Phosphates can be transported from land to aquatic
systems through erosion and runoff.
Absorption by Plants:
Soil Uptake: Plants absorb phosphate ions from the soil
through their root systems. Phosphorus is a vital nutrient for
plants, playing a crucial role in energy transfer, photosynthesis,
and nucleic acid formation.
 Consumption by Animals:
Food Chain: Animals obtain phosphorus by consuming
plants or other animals. Phosphorus is essential for various
biological functions, including the formation of DNA, ATP
(adenosine triphosphate), and cell membranes.
Decomposition:
Organic Matter Breakdown: When plants and animals
die, decomposers (bacteria, fungi) break down their
bodies, releasing phosphorus back into the soil and water
systems in the form of phosphate.
 Sedimentation:
Aquatic Systems: In aquatic environments, phosphates can
be taken up by algae and aquatic plants. When these
organisms die, their phosphorus-rich remains can settle to the
bottom and form sediments. Over long geological timescales,
these sediments can eventually form phosphate rock.
Geological Uplift:
Rock Formation: Geological processes, including tectonic
activity, can lift phosphate-rich sediments from the ocean floor
to land, where they become part of the Earth's crust and can
eventually be exposed through weathering and erosion,
continuing the cycle.
 Human Impact:
Fertilizers: Human activities, such as the use of phosphate
fertilizers in agriculture, can lead to an excess of phosphorus
in soils and water bodies. This can cause eutrophication in
aquatic systems, leading to harmful algal blooms and hypoxic
(low-oxygen) conditions.
Wastewater: Phosphorus from sewage and industrial waste
can also contribute to nutrient pollution in water bodies.
Forest ecosystem
 Abiotic Components
 Inorganic and organic substances
found in soil
 Temperature, humidity, rainfall, light
 Biogenic gases (CO2, O2)
 Biotic components
 Producers: Large trees, herbs, lianas
(climbers), Orchids
 Primary consumer: Deer, Elephant,
moles etc.
 Secondary consumer: Snake, Lizards
etc.
 Tertiary consumers: Tiger, Lion etc.
 Decomposers
 Tropical rain forest

Tropical
rainforests are
dense, lush
forests found near
the equator,
characterized by
high biodiversity
and high annual
rainfall.
 Tropical rain forest
Climate:
Temperature: Tropical rainforests typically experience warm
temperatures year-round, averaging between 20°C and 25°C
(68°F to 77°F).
Rainfall: They receive high amounts of rainfall, usually over 1750
mm (69 inches) annually. Rainfall is distributed throughout the
year, contributing to the forest's lushness.
Biodiversity:
Flora: Tropical rainforests are home to a vast array of plant
species, including large trees (such as mahogany and kapok),
ferns, orchids, and lianas (vines).
Fauna: They host a diverse range of animal species, including
mammals (such as jaguars and monkeys), birds (like toucans and
harpy eagles), reptiles, amphibians, and insects. Many species
are endemic, meaning they are found nowhere else on Earth.
Structure:
Canopy Layers: Rainforests have distinct layers:
Emergent Layer: The topmost layer, where some trees
extend above the canopy and receive the most sunlight.
Canopy Layer: The upper layer of the forest, where the
majority of the tree crowns form a dense ceiling, capturing
most of the sunlight and sheltering many animal species.
Understory Layer: The layer below the canopy, with less
light and high humidity. It is home to smaller trees, shrubs,
and a variety of animal species.
Forest Floor: The lowest layer, receiving very little light. It
is covered with decomposing plant material and is the
habitat for various decomposers and detritivores.
 Tropical deciduous forest

Tropical deciduous
forests, also known as
tropical dry forests or
monsoon forests, are
a type of forest
ecosystem found in
tropical regions where
there is a pronounced
dry season.
 Tropical deciduous forest

Climate:
Temperature: Tropical deciduous forests typically experience
warm temperatures year-round, similar to tropical rainforests, with
average temperatures ranging from 20°C to 30°C (68°F to 86°F).
Rainfall: These forests have a pronounced wet and dry season.
Annual rainfall generally ranges from 750 to 2,000 mm (30 to 80
inches), with a significant portion of it occurring during the wet
season. The dry season can last several months.
 Vegetation:
Deciduous Trees: Unlike tropical rainforests, many trees in
tropical deciduous forests shed their leaves during the dry season
to conserve water. Common tree species include teak, mahogany,
and various species of acacia and tamarind.
Understory and Ground Layer: The understory often includes
shrubs and smaller trees adapted to the seasonal variations in
water availability. The ground layer may be covered with grasses
and herbs, particularly during the dry season.
Seasonal Adaptations:
Leaf Drop: Many trees lose their leaves during the dry season to
minimize water loss. This adaptation helps them survive periods
of reduced water availability.
Regeneration: Many plant species in these forests have evolved
to regenerate quickly during the wet season to take advantage of
the abundant water and nutrients.
 Sub-tropical forest
Sub-tropical forests are a
type of forest found in
regions between the
tropical and temperate
zones. They typically
experience a range of
temperatures and
precipitation patterns,
making them distinct from
both tropical rainforests
and temperate forests.
 Climate:
Temperature: Sub-tropical forests generally experience warm to hot
temperatures, with average temperatures ranging from about 10°C to
25°C (50°F to 77°F). These forests may experience moderate seasonal
temperature fluctuations.
Rainfall: Rainfall can vary widely, from about 750 to 1,500 mm (30 to
60 inches) annually. Some areas may have a wet and dry season, while
others may experience more evenly distributed precipitation throughout
the year.
Vegetation:
Trees: Sub-tropical forests may contain a mix of evergreen and
deciduous trees. Common tree species include eucalyptus, oak, and
various types of pine and hardwoods.
Shrubs and Ground Cover: These forests often have a diverse
understory with shrubs, ferns, and grasses. In drier regions, vegetation
may include xerophytic plants adapted to conserve water.
 Sub-tropical Forest Types:
Dry Sub-tropical Forests: These forests are found in regions
with more pronounced dry seasons and often have drought-
resistant plants.
Moist Sub-tropical Forests: These are located in areas with
more consistent rainfall and may be more similar in appearance
to tropical forests.
 Temperate rain forest
Temperate rainforests
are unique forest
ecosystems found in
temperate regions with
high levels of rainfall and
mild temperatures. They
differ from tropical
rainforests in terms of
climate and species
composition but share
some similarities, such
as high biodiversity and
dense vegetation.
 Climate:
Temperature: Temperate rainforests typically have mild
temperatures throughout the year, usually ranging from about
4°C to 18°C (39°F to 64°F). Extreme temperatures are less
common than in tropical or boreal regions.
Rainfall: They receive high amounts of rainfall, often ranging
from 1,200 to 3,000 mm (47 to 118 inches) annually. Rainfall is
relatively evenly distributed throughout the year, contributing to
the forest’s lushness.
Vegetation:
Trees: Temperate rainforests are characterized by large
evergreen trees such as Douglas fir, Sitka spruce, western red
cedar, and giant sequoia. These trees are adapted to the high
moisture levels and mild temperatures.
Understory and Ground Cover: The understory often includes
shrubs, ferns, mosses, and lichens. The forest floor may be
covered with a thick layer of fallen leaves, branches, and
decomposing organic matter.
 Structure:
Canopy: The canopy in temperate rainforests is
typically dense, with trees reaching heights of 30 to 60
meters (98 to 197 feet). The canopy provides shelter and
habitat for a variety of species.
Understory: Below the canopy, the understory is lush
with vegetation adapted to lower light levels. Ferns,
shrubs, and small trees thrive in this layer.
 Temperate deciduous forest

Temperate deciduous forests
are forest ecosystems
characterized by moderate
climates, distinct seasonal
changes, and a mix of
deciduous and evergreen trees.
These forests are found in
temperate regions with four
distinct seasons, including a
warm summer and a cold
winter.
 Climate:
Temperature: Temperate deciduous forests experience a wide range of
temperatures, with warm summers and cold winters. Average
temperatures can range from about -5°C to 25°C (23°F to 77°F)
throughout the year.
Rainfall: These forests receive moderate to high rainfall, typically
between 750 and 1,500 mm (30 to 60 inches) annually. Precipitation is
generally evenly distributed throughout the year, though some regions
may have a drier or wetter season.
Vegetation:
Deciduous Trees: The dominant trees in temperate deciduous forests
are deciduous, meaning they shed their leaves annually in the fall.
Common species include oak, maple, beech, and hickory.
Understory and Ground Cover: The understory may include shrubs,
small trees, and herbaceous plants. The forest floor is often covered with
a layer of leaf litter, which decomposes and contributes to soil fertility.
Wildflowers, ferns, and mosses are common in the understory.
 Seasonal Changes:
Leaf Fall: Deciduous trees shed their leaves in autumn as
a strategy to conserve water and energy during the cold,
dry winter months. The fallen leaves decompose and
enrich the soil.
Regrowth: In spring, trees and plants quickly regrow their
leaves and flowers, taking advantage of increased sunlight
and warming temperatures.
 Evergreen coniferous forest

Evergreen coniferous forests,
also known as boreal forests or
taiga, are forest ecosystems
dominated by coniferous trees
that retain their leaves
throughout the year. These
forests are found in the northern
regions of the world,
characterized by cold climates
and specific types of vegetation
 Climate:
Temperature: Evergreen coniferous forests are typically found in regions
with cold temperatures, including long, harsh winters and short, cool
summers. Average temperatures can range from -40°C to 20°C (-40°F to
68°F).
Rainfall: These forests receive moderate to low precipitation, usually
between 300 and 850 mm (12 to 33 inches) annually. Precipitation can
come in the form of snow during the winter months and rain during the
summer.
Vegetation:
Coniferous Trees: The dominant vegetation consists of evergreen
conifers, such as spruce, fir, pine, and larch. These trees have needle-like
leaves that are adapted to withstand cold temperatures and conserve
water.
Understory and Ground Cover: The understory is often sparse due to
the dense canopy, with some shrubs, mosses, lichens, and ground-cover
plants like blueberries and cranberries. The forest floor may be covered
with a thick layer of decomposing needles and moss.
 Structure:
Canopy: The canopy is made up of tall, evergreen
coniferous trees that provide year-round cover. The dense
canopy helps to insulate the forest floor and reduce
temperature fluctuations.
Forest Floor: The forest floor in these regions is often
covered with a layer of needle litter, which decomposes
slowly due to the cold temperatures. This contributes to a
nutrient-poor, acidic soil.
 Grassland ecosystem
 Abiotic components:
 Inorganic elements (C, H, O, N, P, S)
 Temperature, humidity, rainfall, light
 Biotic components:
 Producers: Some scattered trees, Grass
 Primary consumers: Grazing animals,
 Tropical grassland
 Notable features:
 Located near the equator,
between the Tropic of Cancer
and the Tropic of Capricorn.
 Although these areas are overall
very dry, they do have a season
of heavy rain.
 Dominated by grasses
 May have some drought-
resistant, fire-resistant trees
 Animals: giraffes, zebras,
buffaloes, kangaroos, mice,
moles, gophers, ground
squirrels, snakes, worms,
termites, beetles, lions,
leopards, hyenas, and
elephants.
 Examples:
 Savannas
 Temperate grassland
 Notable features:
 Trees and shrubs
are completely
absent or rare.
 cold winters (-
40⁰C) and hot
summers (38⁰C)
 Gentle slope
 Animals: Rodents,
bisons, wolves,
hawks, owls etc.
 Examples:
 Prairies (South
America)
 Pampas (Africa)
 Velds (Central
Europe)
 Polar grassland
 Notable features:
 Severe cold and
strong wind
 Arctic wolf, arctic
fox, reindeer,
migratory birds
and insects are
found.
 Examples:
 Arctic Tundra
 Permafrost:
Permafrost is soil,
rock or sediment
that is frozen for
more than two
consecutive years.
 Desert ecosystem
 About 1/3rd of the worlds’ land area is covered with desert
 Tropical desert
 Notable features:
It is the driest and hottest place on earth.
Rainfall is sporadic and in some years no measurable precipitation
falls at all.
 Examples: Sahara, Kalahari, Thar, Mexican deserts, Great
Australian desert.
 Temperate desert
 Notable features:
Temperate deserts can be much colder than tropical deserts
The floor of the temperate desert is often covered by rocks and small
pebbles
 Examples: Mojave, Sonoran Deserts
 Cold desert
 Notable features:
cold deserts occur in temperate regions at higher latitudes
hot summers but extremely cold winters.
 Examples: Atacama,
 Gobi, Great Basin, Namib, Iranian, Takla Makan, and
 Pond ecosystem
 A pond ecosystem refers to the freshwater ecosystem where
there are communities of organisms that are dependent on
each other and with the prevailing water environment for their
nutrients and survival.

 Notable features:
 Small
freshwater
ecosystem
 Water is
stagnant
 Can be
seasonal
 Exposed to
anthropogenic
activities
 Lake ecosystem
 Organisms of aquatic
ecosystem
 Planktons (Algae, rotifers)
 Nektons (Fishes)
 Neustons (Water flea)
 Benthos (Snail)
 Periphytons (Crustaceane)
 Zonation (Stratification)
 Epilimnion (Warm, lighter, circulating surface
layer)
 Hypolimnion (Cold, viscous, non-circulating
bottom layer)
Types of lakes
 Oligotrophic lakes
(Low nutrient content)
 Eutrophic lake (High
nutrient content)
 Dystrophic lake (Low
pH)
 Endemic lakes
(Ancient, deep, having
endemic fauna)
 Desert salt lakes (High
salt content)
 Volcanic lakes
 Mermictic lakes
(Permanently stratified)
 Artificial lakes
 Streams
 Notable features:
 flowing water that is mostly
unidirectional
 a state of continuous physical change
 many different (and changing)
microhabitats
 variability in the flow rates of water
 plants and animals that have adapted to
live within water flow conditions.
 Stages
Mountain highland (Young River)
Second phase (Middle Aged River)
Third phase (Old River)
 Oceans
 Notable features:
 Marine ecosystems support a great diversity
of life and variety of habitats.
 The ocean is a major influence on weather
and climate.
 Plants: seaweeds, or marine algae (brown,
green, red), sea grasses, phytoplankton
 Animals: protozoans, marine invertebrates
(echinoderms, mollusks, segmented and non-
segmented worms, jellies, coral, sea
anemones, hyroids) marine vertebrates
(fishes, birds, mammals), and zooplankton.
 Zones
 Coastal zone
 Open sea
Euphotic zone (Abundant sunlight, high
photosynthetic activity)
Bathyal zone (Dim light)
Abyssal zone (Dark zone)
https://youtu.be/xwFr2hWjo5s
 Exercise
1. The natural place of an organism or community is
known as
a. Niche
b. Biome
c. Habitat
d. Habit

2. Which of the following require maximum energy
a. Secondary consumer
b. Decomposer
c. Primary consumer
d. Primary producer
 Exercise
1. The natural place of an organism or community is
known as
a. Niche
b. Biome
c. Habitat
d. Habit

2. Which of the following require maximum energy
a. Secondary consumer
b. Decomposer
c. Primary consumer
d. Primary producer
3.

4
3.

4
 Ocean acidification is caused by which of the
5. following gases?
a. Sulfur Dioxide
b. Carbon Dioxide
c. Nitric Oxide
d. Ozone

6 Which one following is the example of man-made
ecosystem
 Ocean acidification is caused by which of the
5. following gases?
a. Sulfur Dioxide
b. Carbon Dioxide
c. Nitric Oxide
d. Ozone

6 Which one following is the example of man-made
ecosystem
7.

8
7.

8
 “Ecosystem” term was coined by-------
9.
A Lindeman
B AG Tansley
C Grinnel
D Turesson

10 What are the edaphic factors for the abiotic
components?
a) Sunlight, temperature, Wind
b) Soil type, soil moisture, soil mixture
c) Longitude, latitude
d) Rainfall, humidity
 “Ecosystem” term was coined by-------
9.
A Lindeman
B AG Tansley
C Grinnel
D Turesson

10 What are the edaphic factors for the abiotic
components?
a) Sunlight, temperature, Wind
b) Soil type, soil moisture, soil mixture
c) Longitude, latitude
d) Rainfall, humidity
 The food chain which starts with green plants is
11. called
a) Food web
b) Detritus food chain
c) Grazing food chain
d) None of the above

Which is/are below the abiotic components of an
12
ecosystem?
A Light
B Water
C Carbon
D All of the above
 The food chain which starts with green plants is
11. called
a) Food web
b) Detritus food chain
c) Grazing food chain
d) None of the above

Which is/are below the abiotic components of an
12
ecosystem?
A Light
B Water
C Carbon
D All of the above
 Which are the following are two basic classes of
13.
ecosystem are:
a) Aquatic and forest
b) Ponds and lakes
c) Rivers and forests
d) Aquatic and terrestrial
 Which are the following are two basic classes of
13.
ecosystem are:
a) Aquatic and forest
b) Ponds and lakes
c) Rivers and forests
d) Aquatic and terrestrial