...THE BIOSPHERE...
Sub-topic 1
Investigating an Ecosystem
Ecosystem
Made up of living and non living parts
POND
WOODLAND
SOIL
MOOR
Abiotic
Food availability
Predation
Temperature
Light intensity
Moisture
Biotic
QuadratEstimates the abundance of non moving organisms
Throw randomly
Count the number of squares an organism is found in
Errors ?Non random throwing
Counting the same organism over two squares
Too few quadrats done
LMMCan measure both light intensity and moisture content of a particular area
Errors ?
Shadow
Read wrong scale
Stone Too few readings
Pitfall Trap
Alcohol (if you The samples Killed)
Pitfall Trap
More
Results Quadrat 1 2 3 4 5 6 7 8 9 10
Light Intensity A B C D E F G H H H
Soil moisture 3 2 3 1 4 3 2 3 4 3
grass 6 8 8 10 15 20 23 25 25 25
Daisies 0 0 0 0 5 11 16 19 22 22
Sorrel 20 15 15 10 10 5 0 0 0 0
Tullgren
Sub-topic 2…How it works….
3
What is an ecosystem?
An ecosystem is all the animals and the plants in a habitat, together with their environment.An ecosystem provides everything that the animals and plants that live there need.A rock pool is an ecosystem, and so is a forest or a lake.
Ecosystems
Made up of a number of different habitats sharing the same environment. E.g. a desert.Habitat - a place where living things live.
E.g. a pond.Community - a group of populations
living in a habitat.Population - a group of organisms of the
same species.
Habitats
What is a habitat ?
A habitat is the place where living things live.
It is more than just a home it includes the whole surrounding area.
The habitat provides the animal or plant with food or shelter.
People and their habitats People can live all over the
world.
We can do this because we are able to build homes for different conditions.
Also we can change our Also we can change our clothes to best suit the clothes to best suit the temperature around us.temperature around us.
White clothes reflect the heat
Animal skin and fur act as insulators and keep heat in.
Animals and plants
Most plants and animals are specially adapted to survive in a particular habitat.
They have developed special features to suit the demands of their environment.
This is called adaption.
Energy Flow in a Habitat
Plants trap energy converting it to
biomass.Producers
Plant biomass eaten by animals
Primary Consumers
Larger animals eat animals that eat
plantsSecondary Consumers
All energy initially comes from the sun as light energy
Terminology to Learn
Herbivore - animals that eat only plants.Carnivore - animals that eat only animals.Omnivore - animals that eat plants and animals.Top Carnivore - animals not eaten by anything else.Decomposer - organisms that live on dead material.Trophic Levels - each step along a food chain.
Trophic levels
What people do
Sometimes, humans cause problems for the plants and animals in an ecosystem.Oil spills pollute the sea and beaches.Forests are cut down to make way for roads, and so that land is available for cattle to graze.
What does this food chain show?
The plant is eaten by the slug.The slug is eaten by the frog.The frog is eaten by the heron.
Food Web
Write out four food chains found in the food web.
How do Organisms Interact?
•What happens to the locust population if the slugs die out?•What happens to the plant population?
Pyramid of Numbers
This is another way of showing a food chain.
5000 Dandelions 100 Rabbits 1 Fox
1000 Pea Pods 100 Slugs 10 Frogs 1 Bird
•Why do the numbers drop as you go up the trophic levels?•Draw the pyramid of numbers for these food chains.
Pyramids of Numbers - examples
5000 Dandelions
100 Rabbits
1000 Pea Pods
100 Slugs
10 Frogs1 Fox
1 Bird
Pyramid of Numbers
1 Pear Tree
3000 Greenfly
1000 Ladybirds
1 Partridge
5000 Dandelions 100 Rabbits 1 Fox 500 Fleas
Now draw the pyramids of numbers for these food chains.
Pyramids of Numbers - examples 2
5000 Dandelions
100 Rabbits 3000 Greenfly
1000 Ladybirds
500 Fleas
1 Tree
1 Partridge
1 Fox
Pyramid of BiomassBiomass is how much dry mass is present in each trophic level. For this reason Biomass Pyramids always look the same.
Energy flow
Each animal in the food chain eats another animal or a plant in order to gain energy.The energy flow in the ecosystem keeps all of the animals alive.
Pyramid of Energy transfer
Where does the energy come from?
The SunIn every ecosystem, Energy is trapped and
stored by the plants (primary producers).Some energy is always lost in the transfer
of energy between trophic levelsEcologists have calculated 10% of energy
available in a trophic level is taken up by the level above
Energy flow in a food chain
Sun 98% energy lost
Producer 90% energy lost
Primary consumer 90% energy lost
Secondary consumer 90% energy
lostTertiary consumer
Energy flow through Producers
Most of the sunlight that falls on leaves is not absorbed and used
What happens?Some is reflected from
the leaf’s surfaceSome passes straight
through the leafOnly part of the light is
useful and can be absorbed by chlorophyll
The overall efficiency of energy transfer during photosynthesis is less than 10%
So only about 8% of sunlight energy reaching the plant is transferred into useful chemical energy.
What is this chemical energy used for?
For respiration and growth
When the plant grows, its biomass will increase. This will provide food energy for herbivores.
It may be transferred between trophic levels from producers to primary consumers.
Some food energy may be transferred to decomposers.
When leaves are shed, fruit and seeds are dispersed and when the plant itself dies.
Decomposers eat the dead plant tissues to get energy.
Energy flow through a green plant
Released in primaryRespiration consumers
Producer decomposers
energy inputSUN
What happens
to the other 90%?
Only 10% of the stored energy in the deer is transferred to the lion
Write down what happens to the missing 90% of the energy in a
deer ( Kudu) that is not transferred to the lion.
What are the units?
kJ/m²/yrUnit of energy/ area/time(kilo Joules per metre squared per
year.)
Important to remember that pyramids of energy transfer are NEVER inverted.
The reasons for the inefficiency of this energy
transfer are:-
Some plant material passes out of the body of the herbivore as faeces without being digested.A lot of energy is used in respiration.Some energy passes to decomposers in dead remains.
Carnivores are able to achieve 20% efficiency.
Why?
20% of the herbivores biomass ends up as the carnivores biomass.
This is possible because proteins are more efficiently digested than are carbohydrates.
Energy Flow in a food chain
Some people eat kudu.What is the food chain?
Grass Kudu humanOf the 1000 000kJ of Energy which falls on one square metre of grass in a year only 100kJ available for humans.
Where does all the energy go?
Plants convert a small % of light energy into glucose (biomass)’The energy works its way through the food chain,but trophic level 2 only takes 10% of total energy of trophic level 1The 90% of energy lost is used in staying alive: –HEAT
–Excretory products
This explains why pyramids of biomass get smaller as they go up and why food chains are rarely more than 4 links long.
–movement–life processes
Match the words and phrases.
A food chain showsMost food
chains start withPlants are
Animals are
Animals that hunt and eat others are calledAnimals that are caught
and eaten are called
producers
consumers
predatorsprey
a green plant
what is eaten by what
A population is a group of organisms of the same species living in the same place at the same timeMillions of different populations all evolving according to their own self interest in a particular environment. But each population is a part of the environment of its neighbors, so any evolutionary change has a ripple effect.
Properties of populations
•Birth rate; count number of live births in a given period.
•Death rate; count number of deaths in a given time period.
•Growth rate; balance between birth/death rate. For population to grow, birth rate must exceed death rate.
•Age structure, Density,and dispersion are also factors
A population is a group of organisms of the same species living in the same place at the same time
Population Density and Dispersion
Population density is simply the number of individuals measured per unit of area or volumeAdditionally, the population can clump in different ways Random Clumped Regular
The growth rate of a population is the increase in the number of individuals over time.
Exponential growth is when the number of individuals grows at a constant rate. Growing bacteria in a lab is a good example
Generation # of bacteria time1 1 02 2 15min3 4 30min4 8 45min5 16 1hr6 32 75min7 64 90min8 128 105min9 256 2hrs10 51211 102412 204813 4096 3hrs14 819215 16,38416 32,76817 65,536 4hrs18 131,07219 262,14420 524,28821 1,048,576 5hrs
But can a population continue to grow at this rate? NO
Limiting factors will control population growth
•Food shortages
•Lack of space
•Accumulation of own waste products
•Lack of other resources like oxygen, living space etc.
Population GrowthSince each organism of a population is governed by the selfish gene, populations tend to grow.If unlimited resources are present, growth will be exponentialIt will proceed very quickly for rapidly reproducing organisms and more slowly for slowly reproducing onesThe curve, however, will always be a “J” curve or an exponential growth curve
Population Growth 2Resources are never unlimited, though. As population rises, resources decline.If the growth is too rapid, resources are rapidly depleted and a population crash can occurThis pattern occurs often with many populations (including humans)For example...
Gypsy moth caterpillar
Population Growth 3More often what happens is that the resources slowly decrease, the growth rate slowly decreases, and they meet.This point that they oscillate around is the carrying capacity of the environment for that particular organismSo when would you “harvest” these individuals? (1,2,3,4,or 5)
S - shaped curve
Population MortalityOrganisms differ on strategies of reproduction and differ on types of predationThose organisms that put much care into their few young tend to have good survivorship of youngThose organisms that spread their young all over tend to have poor survivorship of their youngA graphic representation of the rates of survival at different ages is called a survivorship curve
Growth Rate Limiting Factors
(affecting birth or mortality rates)
Density-Dependent Predation Increased
competition for scarce resources
Sickness Others?...
Density-Independent Weather
Ice Age Global Warming Flood El Nino Etc.
Range of tolerance of environmental conditions is an important factor:
temperature, light, salinity, nutrients, water etc
COMPETITION…
Competition is the STRUGGLE FOR RESOURCES WHICH ARE IN SHORT SUPPLYPLANTS compete for Light,Nutrients and WaterANIMALS compete for Food, Territorities,Shelter, and Water
EACH SPECIES AFFECTS THE DISTRIBUTION OF OTHERS..
Where do decomposers come in?
•When living things die their bodies are broken down by decomposers so releasing the elements they contain.
•These minerals can be used by plants to grow so the cycle repeats over again
An example of Fungi You know
The Nitrogen CycleNitrogen in the air
Den
itri
fyin
g
bacte
ria
Eating
Nitrates in the soil
N2 fi
xin
g b
acte
ria wast
e
NH3 and its compounds
Nitrates absorbed by roots
N2 fixing bacteria
Decomposing
FertilisersNitrifyingbacteria
Lightning
Formation of
oxides of
nitrogen
Sub-Topic 3…Control and management
Sources of pollution.
Pollution affects the entire environment around us. AIR, LAND, SEA, and FRESH WATER…The main sources of pollution are..DOMESTICAGRICULTURALINDUSTRIAL
LOOK AT THE FOLLOWING EXAMPLES OF EACH…
DOMESTIC POLLUTION
Car exhaust fumes contain harmful gases and lead which pollute the air.Domestic rubbish pollutes the land. Poisons can seep into the soil from landfill sites. Litter on our streets !!Raw sewage (e.g. Faeces) can pollute the sea and fresh water
Agricultural pollution..
Excess fertiliser and pesticides can pollute the water supply. Animal waste can do this as well…This kills the flora and fauna in fresh water and..Leads to the rapid growth of bacteria which reduces the oxygen content of the water
Industrial pollution…Inorganic waste such as Mercury and lead pollute the land, sea, and rivers.Organic waste such as paper fibres and food pollute the land, sea, and rivers.Oil tankers washing out tanks
pollute the sea and great lakes
FOSSIL FUELS…
Burning Coal, Oil, and Gas produces poisonous gases (such as Sulphur dioxide and Nitrogen Oxide).These pollute the atmosphere.They may even be converted into ACID RAINThis can only be prevented by scrubbing the fumes before they are released to get rid of the Sulphur dioxide. This involves the use of LIMESTONE slurry.Lime can also be added to the water and land polluted by acid rain. The lime neutralises the acid.
…On pollution
Pollutants may REDUCE the biodiversity in an ecosystemEg fossil fuels produce Sulphur Dioxide when burnedThis can cause ACID RAIN
This can lower the pH in Lochs killing some INVERTEBRATESAnd FISH
Nuclear power…Used to generate electricity as an alternative to fossil fuels.The waste produced is very dangerous.It remains radioactive for many hundreds of years.Accidents can occur which will release radioactivity into the environment. This can travel for many hundreds of miles (Chernobyl !!).This causes diseases such as cancers, and genetic mutations in future generations.The waste must be sealed in lead containers
and dumped on the ocean bed in remote areas or buried deep underground
Organic Waste..Organic waste is the unwanted products of living things.Raw (untreated) sewage, dead leaves, and stale food are examples.It is a perfect food for micro-organisms that bring about decay (decomposers).Bacteria and Fungi are the main micro-organisms which do this job.
In this country, Raw sewage is broken down into harmlessSubstances by these micro-organisms. This is an exampleOf a Biological treatment
Pollution and Biodiversity…
If untreated sewage or fertiliser enters a river or lake it provides food for BACTERIA.Their population numbers increaseThey use up all the oxygen in the waterSpecies which cannot tolerate low Oxygen levels die out
THIS RESULTS IN A DECREASE IN THE VARIETY OF SPECIES
Indicator species..Some species of living organisms can only survive under specific environmental conditions.These are sometimes useful in identifying certain conditions present in the environment, such as oxygen levels, or poisonous gases.These species are known as indicator species.
Freshwater and land-based indicator species are important inMonitoring pollution levels in the environment…
Fresh-water species…Some species can tolerate high levels of pollution and very low oxygen levels e.g.. Sludge worms and Rat-tailed Maggots.Others are less tolerant of pollution but can survive with little oxygen, e.g. Bloodworms and Water lice.Others need plenty of Oxygen and little or no pollution, e.g. Mayfly and Stonefly Nymphs, and most Fish
These and some others are shown on the following slide…
Invertebrates are more easily caught and therefore more commonly Used as indicator species
The oxygen decline and rise downstream from a point source is called the oxygen sag.
Lichens…Lichens are organisms that are sensitive to industrial pollution.Different species have differing levels of tolerance to Sulphur Dioxide.They can be used to assess the levels of pollution in an area.They are also sensitive to Acid Rain…
Look at some examples of Lichens on the following slide…
Management of natural resources…
Our continued existence on Earth depends upon how well we manage the planet’s natural resources.These include the air, water, plants and animals, and the soil on the land.The land is one of the most important natural resources.
The land has to managed well or problems will result…
When the management goes wrong…
Over-use of fertiliser and pesticides (soil structure breaks down)Using large quantities of grain to feed animals (Peoples' diet has too much animal protein)Cash-crops (e.g. Coffee) grown rather than food crops
Grazing and Biodiversity…
Grassland is made up of a variety of plantsSome species grow quickly and dominateSome species don’t grow as quickly and struggle to compete and surviveGRAZING is the eating of plants by herbivores. Cattle are the main source of wealth in poor developing countries.
UNSELECTIVE GRAZERS EAT ALL TYPES OF PLANT
Intensity of Grazing…
LOW levels of unselective grazing allows the grasses to grow and out compete other less vigorous species.This REDUCES the variety of speciesMEDIUM levels keep the grasses in check allowing less vigorous species to survive.This INCREASES the variety of speciesHIGH levels result in OVERGRAZING.This DECREASES the variety of species and the soil cannot retain water.This leads to an increase in desert area as wind-blown sand covers other healthy vegetation.
Manipulating ecosystems..Farmers can change components of an ecosystem.This can allow more of a desired species of plant to grow.The farmer cultivates the land, adds fertilisers, controls soil pH, content of nutrients, and water.The land is protected by
fences to keep out consumers.
An altered and artificial ecosystem is produced for the benefit of Man…