In this presentations, structure of ecosystems, food chain, food web, ecological pyramids, energy flow, biogeochemical cycles of nitrogen and phosphorus is explained.
1. ECOSYSTEM
Structure: Biotic and abiotic components,
Food chain, Food Web,
Ecological Pyramids,
Energy Flow,
Biogeochemical Cycles –Nitrogen and Phosphorus
By
Dr.. R. D. Madhekar
Assistant professor,
Department of Botany,
S. B. E. S. College of Science,
Aurangabad.
2. Key Concept of Ecosystem
The term first coined by A.G.Tansely. (1935)
Eco: Environment System: Interaction
Communities within given area interact among themselves and with
the surrounding physical environmental, so that flow of energy
leads to clearly defined trophic structure, biotic diversity and
material cycle.
Biosphere- Vast Ecosystem, Difficult to handle. Artificial subdivisions
Grassland Ecosystem Forest Ecosystem Ocean Ecosystem
3. STRUCTURE OF ECOSYSTEM
Descriptive information of
species of organisms that are present
( life histories, population, distribution in space)
Nonliving (physical) features of environment.
Ecosystem
Abiotic
non-living
Biotic
living
Physical or climatic factors
Inorganic Substances
Organic Substances
Autotrophs : Photo & Chemotrophs
Hetrotrophs: Macro and
microconsumers
4. FUNCTIONAL ASPECT OF ECOSYSTEM
How ecosystem works or operates under
natural conditions
Structure and function can be best studied
together
The components of the ecosystem are seen to
function as a unit when we consider the
following aspects:
• Productivity
• Decomposition
• Energy flow
• Nutrient cycling
5. FOOD CHAINS IN ECOSYSTEM
Transfer of food energy through the series of organisms (Producers-
Herbivores- Carnivores - Decomposers) with repeated eating and being
eaten
The trophic level (Nutritional Level) is the position of an organism it
occupies in the community or a food chain.
Types of Food Chains:
1. Grazing Food Chain
2. Detritus Food Chain
6. (i) Grazing Food Chain
Starts from living green plants goes to grazing
herbivores and on to carnivores.
Directly depends on influx of solar radiation
Depends upon autotrophic energy capture and
transfer of this captured energy to herbivores.
From energy point of view , very important.
Most of the ecosystem in nature follows this type of
food chain.
Ex: grass => grasshopper => birds => falcon
8. (ii) Detritus food chain
This type of food chain starts from dead organic matter of
decaying animals and plant bodies to the micro-organisms and
then to detritus feeding organism and to other predators. Thus less
dependent on direct solar energy.
The food chain depends mainly on the influx of organic matter
produced in another system.
The organism of the food chain includes algae, bacteria,
fungi, protozoa, insects, nematodes etc.
9. Detritus food chain ends up in manner similar to
grazing food chain but the way in which the two chain
begins is quite different
Detritus food chain is simply a subcomponent of
another ecosystem
Two types of food chains in nature indeed linked
together belonging to same ecosystem
10. Significance of Food Chain
The knowledge of food chain helps in understanding
the feeding relationship as well as the interaction
between organism and ecosystem.
It also help in understanding the mechanism of energy
flow and circulation of matter in ecosystem.
It also helps to understand the movement of toxic
substance and the problem associated with biological
magnification in the ecosystem.
11.
12. What is food web?
Food web can be defined as, "a network of food
chains which are interconnected at various tropic
levels, so as to form a number of feeding connections
amongst different organisms of a biotic
community".
It is also known as consumer-resource system or
interlocking pattern of organisms.
13. Important facts
•A node represents an individual species, or a group of related
species or different stages of a single species.
• A link connects two nodes. Arrows represent links, and
always go from prey to predator.
• The lowest tropic level are called basal species.
• The highest tropic level are called top predators.
•Movement of nutrients is cyclic but of energy is
unidirectional and non-cyclic.
14. Types of food web representation
• These food webs simply indicate a
feeding relationship.
TOPOLOGICAL
WEBS
• Bio-energetic webs, or flow webs,
include information on the strength of
the feeding interaction.
FLOW WEBS
• In interaction the arrows show how
one group influences another.
INTERACTION
WEB
15. Different food webs
• Soil food web
• Aquatic food web
• Food web in forest
• Food web of grassland
• Food web in terrestrial and aquatic ecosystem
19. s
Significance of Food Web
•Food webs distinguish levels of producers and consumers by
identifying and defining the importance of animal relationships
and food sources, beginning with primary producers such as
plants, insects and herbivores.
•Food webs are important tools in understanding that plants are
the foundation of all ecosystems and food chains, sustaining life
by providing nourishment and oxygen needed for survival and
reproduction.
•The food web provide stability to the ecosystem.
20.
21. What are Ecological Pyramids?
•Ecological pyramids are
graphical representations
of the tropic structure
ecosystem.
•Tropic levels are the feeding
positions in a food chain
such as primary producers,
herbivores, primary
carnivore etc.
23. Pyramid of Numbers
•It is the graphic representation of number of
individuals per unit area of various tropic levels.
24. Evaluating pyramid of numbers
ADVANTAGES DISADVANTAGES
Simple method of
giving an overview
Number of specific
species may be too great
to measure accurately
Good for comparing
changes to the ecosystem
at different times
Does not take into
account “juveniles” or
immature forms
All organisms are included
regardless of size
25. Pyramid of Biomass
It is the graphical representation of biomass present
per unit area at different tropic levels, with producers
at the base and carnivores at the top.
Biomass is calculated as:
mass of each individual X no. of individual at tropic
levels
Shows quantitative relationship of standing crop i. e.
amount of living material in trophic level.
26.
27. Evaluating pyramid of Biomass
ADVANTAGES DISADVANTAGES
Overcomes the problems
of pyramids of number
Only uses samples for
population so difficult to
measure biomass exactly
Time of year influences
result
Organisms of same size
do not necessarily have
the same energy content
28. Pyramid of Energy
• Graphical representation of the flow of energy
through each tropic level of a food chain over a
fixed time period.
•Pyramid of
Productivity
29. Evaluating pyramid of Energy
ADVANTAGES DISADVANTAGES
No inverted pyramids are
obtained
It is difficult and cumbersome
to collect energy data
Shows actual energy
transfer
Problem occurs in assigning
a species to a specific tropic
level
Can be compared different
ecosystems based on
relative energy transfer
31. What are biogeochemical cycles?
• Earth system has four parts
– Atmosphere
– Hydrosphere
– Lithosphere
– Biosphere
• Biogeochemical cycles: The chemical
interactions (cycles) that exist between the
atmosphere, hydrosphere, lithosphere, and
biosphere.
• Abiotic (physio-chemical) and biotic
processes drive these cycles.
• All matter cycles...it is neither created nor destroyed...
• As the Earth is essentially a closed system with respect
to matter, we can say that all matter on Earth cycles .
32. NITROGEN CYCLE
Nitrogen (N) is an essential component of DNA, RNA, and
amino acids.
All organisms require nitrogen to live and grow.
Majority of the air we breath is N2. (78%)
Most of the nitrogen in the atmosphere is unavailable for use
by organisms.
In order for plants and animals to be able to use nitrogen,
N2 gas must first be converted to more a chemically available
form.
Natural cyclic process in the course of which atmospheric
nitrogen enters the soil and becomes part of living organisms
34. Nitrogen Fixation
The process of converting N2 into biologically available nitrogen is called
nitrogen fixatation
nitrogen-fixing organisms are two type.
1. Free-living
2. Symbiosis : Rhizobium is most importance bacteria in nitrogen
cycle.Rhizobium can infect the roots of a leguminous plant (such as
peas, clover, soybeans etc.)
35. Nitrogen Fixation by Lightening
The high energies
provided by lightening
and cosmic radiation
serve to combine
atmospheric nitrogen
and oxygen into
nitrates, which are
carried to the Earth’s
surface in precipitation.
36. Nitrogen Assimilation
• Assimilation of nitrates
and ammonia resulting
from nitrogen fixation
into the specific tissue
compounds of algae
and higher plants.
Animals then ingest
these algae and
plants, converting
them into their own
body compounds.
37. Ammonification
• When an organism excretes
waste or dies, the nitrogen in
its tissues is in the form of
organic nitrogen (e.g. amino
acids, DNA). Various fungi
and prokaryotes then
decompose the tissue and
release inorganic nitrogen
back into the ecosystem as
ammonia in the process
known as ammonification.
The ammonia then becomes
available for uptake by plants
and other microorganisms for
growth.
38. Nitrification
• Nitrification is the process
that converts ammonia to
nitrite and then to nitrate.
• There are two distinct
steps of nitrification.
• The first step is the
oxidation of ammonia to
nitrite.
• ammonia oxidation carried out by only a few types of bacteria in
the genera Nitrosomonas, Nitrosospira, and Nitrococcus.
• The second step is the oxidation of nitrite (NO2
-) to nitrate (NO3
-)
carried out by bacteria such as a Nitrobacter.
39. Denitrification
• Denitrification is the
process that converts
nitrate to nitrogen gas.
• Some denitrifying bacteria include species in the genera
Bacillus, Paracoccus, and Pseudomonas.
• Denitrification is important in that it removes fixed nitrogen
from the ecosystem.
40. Nitrogen in air
Nitrogen fixatation
By
Rhizobium and Aztobactor
Nitrification
By
Nitrosomonas
NO2
- and NO3
-
Denitrification
by
Bacillus
Nitrogen
ammonification
41. Phosphorus is found in the components of an ecosystem.
It is an essential nutrient for plants and animals.
Phosphorus occurs in the plasma membranes of plants
and animal cells. It is an important component of the teeth
and the bones of the animals. It is a part of DNA-molecules
and RNA-molecules, molecules that store energy (ATP and
ADP)
In the non-living components of ecosystems phosphorus
occurs as minerals in rocks and as dissolved phosphate in
soils and rivers.
In contrast the carbon and nitrogen the phosphorus cycle
does not include cycling through the atmosphere in the
form of gas.