Science with Mr. Dan - Home
Transcript of Science with Mr. Dan - Home
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Ecology is the study of the relationship between
living organisms and their environment.
An ecologist is someone who studies those
relationships.
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All living things are:
• made up of cells
• need energy
• grow and develop
• reproduce
• have adaptations which suit them to the
specific habitat in which they live.
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All living things :
• need nutrients
• need water
• exchange gases
• need a suitable habitat
• have adaptations which suit them to the
specific habitat in which they live.
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Living things are always interacting with each other
and with the non-living things in their
environment.
Adaptations
Living things are adapted, so they 'fit' into their
surroundings, to ensure survival.
An adaptation is an inherited characteristic that helps
an organism survive and reproduce in its
environment.
Sometimes adaptations are learned during the
organism's lifetime.
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Ecosystems
An ecosystem is the interactions between living and
non-living things in a particular environment.
An ecosystem is a place where these interactions occur,
such as a rotting log, or a forest.
All organisms and parts within this place are interacting
all the time and adjustments must occur if the organism
is to survive.
Ecosystems vary in size and complexity.
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In order to study an entire ecosystem, scientists
often study only a small aspect of an ecosystem and
then work with other scientists to piece together the
overall picture of how the ecosystem functions.
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Interactions in Ecosystems
Symbiosis
When two species live closely together in a
relationship that lasts over time symbiosis
occurs. There are three forms of symbiosis:
Mutualism
Mutualism occurs when there is a relationship
between two different organisms, in which each
partner benefits from the relationship.
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Parasitism
Parasitism occurs when there is a relationship
between two different organisms, in which one
partner benefits from the relationship, while the
other partner is harmed.
Typically, the partner that benefits (the parasite), lives
on or in the other organism (the host) and feeds on it.
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Commensalism
Commensalism occurs when there is a
relationship between two different organisms,
in which one partner benefits from the
relationship, while the other neither
benefits, nor is harmed.
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Commensalism The anemonefish lives among the forest of tentacles of an anemone and is
protected from potential predators not immune to the sting of the anemone.
The anemonefish is protected from the sting of the anomone tentacles by a
substance contained in the mucous on its skin
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Commensalism Barnacles live by using long, feathering appendages to sweep the
surrounding water for small, free-floating organisms. Barnacles attach to
rocks, ships, shells, whales, and just about anywhere else they can gain a
foothold. In the example on the left the two barnacles are attached to the
shell of a scallop. The barnacle gains a place to live and, the scallop is not
harmed by the presence of the barnacles.
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Commensalism Barnacles attach whales. The barnacle gains a place to live and, the whale is
not harmed by the presence of the barnacles.
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Commensalism
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Spanish moss - growing on the branches of an oak tree. The oak tree
is not affected, but the Spanish moss benefits by being higher up,
away from most herbivores, and also in the light (Spanish moss is
photosynthetic, so is not a parasite).
Commensalism
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Mutualism
both organisms benefit from the relationship.
(lichen (algae and fungi) benefit each other)
Lichen from the artic tundra
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Mutualism
both organisms benefit
from the relationship. (lichen (algae and fungi)
benefit each other)
Parmotrema perforatum,
the "perforated ruffle lichen",
on a fallen hardwood branch,
central Florida
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Wood Termites
chew wood -
(cellulose)
the protozoa
breaks the
cellulose down
into acetate which
the termite uses
for energy
Mutualism both organisms benefit from the relationship.
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Mutualism - both organisms benefit from the relationship.
The small worm in the red square cleans off parasites but does not harm the fish
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Butterflies pollinate flowers when they get nectar
Both organisms benefit
Mutualism - both organisms benefit from the relationship.
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Ant-acacia mutualism:
In this relationship found most commonly in Central America savannas, the ant
hollows out the large thorns of the plant for nests, feed on sweet secretions
from the four nectaries at the base of each petiole and on the protein rich
Beltian bodies found on the tips of the leaves, which together provide an
almost complete diet for the ant. The ants in return protect these trees from
invertebrate as well as vertebrate herbivores.With any movement of the branch,
the ants emerge releasing a nasty odor as well as physically attacking the
surprised herbivore. They are quite effective.
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Parasitism - one organism benefits while the other organism (the
victim) is harmed. (the parasite usually doesn't kill the host, because the
host represents the parasite's food supply. (tapeworm in a human host)
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Parasitism - one organism benefits while the other organism (the
victim) is harmed. (the parasite usually doesn't kill the host, because the
host represents the parasite's food supply. (tapeworm in a human host)
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Flea Beetles The small black hopping beetles which eat broccoli, lettuce,cabbage, radishes, eggplant, etc.
Parasitism - one organism benefits while the other organism (the victim) is harmed
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Impacts on Ecosystems
Symbiotic relationships are only a few ways that
organisms interact with one another within an
ecosystem. Other interactions may involve the
physical changing of the ecosystem by the
organisms living in it and interacting with parts of it.
Like when a family of beavers makes a dam, the
stream below the dam dries up, killing the water
organisms that need the water to survive. Above the
dam, a pond changes the habitat and limits the kinds
of organisms that can survive there. For every action
in an ecosystem there is a resulting effect and
reaction, which will change the make-up of the
ecosystem in some way.
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Natural Resources are the materials and
products that are found in nature, that people use
to meet their basic needs.
The impact that people have on the use of
resources can be very small, or can be huge, and
can lead to positive or negative consequences.
The needs of all living things now have to be met
with the available natural resources.
How we are able to satisfy these needs with
minimal conflict will determine how resourceful
we can be.
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People and Nature - A Changing Relationship
The ways people interact with the environment has
changed over time.
Machines and advanced technologies have caused a
higher impact than in the past.
All of the needs people had in the past were satisfied
by the natural resources they were able to find in the
environment around them.
Nowadays, resources are transported throughout the
world, as the demand gets higher.
Lifestyle changes over time have increased the
pressure on different environments and the
ecosystems we live in.
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When Is a Need a Want?
Needs are basic to survival, whereas, ' wants ' are things
that just make survival more comfortable or enjoyable.
Each time a need or a want is satisfied, natural resources
or energy are used up. This impacts the environment we live
in.
Transporting food from all around the world, just so we can
have the luxury of choice impacts other regions as well,
because those regions had to clear land, use fuel (energy)
and through the industrial processes caused pollutants to
enter the air.
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When our 'want' demands conflict with the health of our
ecosystems, we need to begin making some more
responsible choices.
The needs of wildlife can be negatively impacted by the
wants of people.
When this happens we need to decide whether our want is
more important than their need
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No Simple Answers
Setting a forest on fire (a controlled burn) is often necessary
to maintain a balance in the ecosystem.
These fires get rid of small trees, leaves, needles and other
debris that settles on the forest floor.
The new growth after a fire becomes food for elk, deer and
other animals that need these nutrients from the forest floor
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Knowing what effects you are
having on the environment (or will
likely have) will help you make
decisions.
The use of DDT (a chemical
pesticide) was found to have a
negative effect on Peregrine
Falcons.
It wasn't until the species was
almost lost completely that
something was done.
DDT was banned and recovery
programs were put in place to
restore the numbers of peregrine
falcons.
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Swift foxes were accidentally poisoned because certain
predators were seen as 'pests' or 'unnecessary' animals.
When the Swift foxes used the poison instead, the species
almost became extinct.
Natural control is necessary in any ecosystem. If this natural
control is upset, the impact can have ripple effects, which
were never anticipated.
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Your Ecological Footprint
The impact you are having on the environment is your
ecological footprint .
We depend on the environment and we are part of the
environment.
Sustainability means that the resources from the environment
can be replaced as quickly as they are used.
Are we putting back what we take out, or, are we using up all the
resources before they can be replaced?
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The ecological footprint of average Canadians is very
large, because they are using many more resources and
creating much more waste than is sustainable.
Ways to reduce ecological footprint include:
1. Be aware of the products you consume in a typical day
2. Reduce the energy you use
3. Reduce the number of products you buy
4. Reduce the amount of garbage you produce
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Living organisms make up the biotic components of
the ecosystem, while non-living things make up the
abiotic parts of the same ecosystem.
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Abiotic Factors -nonliving things that affect organisms
Physical: gravity, light, heat, humidity
Chemical: water, nutritional elements, minerals
Biotic Factors - living things that affect organisms
1. Producers- (Autotrophs)- produce own food.
2. Consumers- (Heterotrophs)- "other" feeders
Primary consumers- herbivores
Secondary consumers- carnivores, omnivores
3. Decomposers/ detritivores- bacteria, fungi- use dead
organisms as energy
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Niches
A niche is the role of an organism within a particular
ecosystem. An organism's niche includes:
* What it eats
* What eats it
* Its habitat
* Nesting site, range and habits
* What effect it has on the other populations
* What effect it has on the environment
A niche, for a particular organism, can change, depending on
the environment in which it is located and the organisms with
which it inter-relates.
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Food Webs
A food web is a
combination of
many different
food chains,
showing the
interrelationships
between and
among many
different
producers and
consumers in an
ecosystem.
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A Food Pyramid is a model, which
represents the number of organisms
consumed at each successive level
of the pyramid.
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To find out how much energy is being transferred
from one level of the pyramid to the other,
Biomass needs to be calculated.
Biomass is the total mass of all the organisms in
the ecosystem.
As you move up the pyramid, there is less
biomass.
The most biomass is found at the base, where
the producers are.
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Scavengers are organisms that feed
on dead or decaying plant or
animal matter.
The Clean-Up Squads:
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Decomposers are different from scavengers because they do
not actually eat dead material. They grow on or in the dead or
waste matter, absorbing the nutrients directly into their cells,
which are then recycled back into the environment
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Carbon is necessary for all life to exist and is recycled in
the environment
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The Water Cycle
All living things require water to survive and this water is
also recycled over and over again
The water cycle contains 4 processes:
• evaporation and transpiration - move water from the
Earth to the atmosphere,
• condensation and precipitation - return the water to
Earth.
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Pollution in the Environment
Pollution occurs when a substance is added to the
environment at such a fast rate that it cannot be broken
down, stored or recycled in the air, land, or water in a
non-damaging form.
Pollutants are substances that cause pollution.
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Acid Rain
Acid rain occurs when sulfur dioxide and carbon monoxide
emissions in the air combine with rain to form sulfuric
acid and carbonic acid.
This rain ends up in ponds and lakes.
Many animals and plants cannot survive in water that has
a high acid content.
Carbonic acid is the same acid that is found in colas.
Sulfuric acid is the type of acid found in car batteries.
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Type of Pollutant Acid Rain (high pH level) Carbon Dioxide
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precipitation.
Burning of Fossil fuels puts higher than normal
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![Page 77: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/77.jpg)
Type of Pollutant Acid Rain (high pH level) Carbon Dioxide
Reason they are pollutants
Sulfur and Nitrogen at higher than normal levels in
the air, which mix with water to produce acidic
precipitation.
Burning of Fossil fuels puts higher than normal
levels of CO2 into the atmosphere and the ozone
layer (which protects us from radiation is being
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Reason they are pollutants
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precipitation.
Burning of Fossil fuels puts higher than normal
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![Page 78: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/78.jpg)
Type of Pollutant Acid Rain (high pH level) Carbon Dioxide
Reason they are pollutants
Sulfur and Nitrogen at higher than normal levels in
the air, which mix with water to produce acidic
precipitation.
Burning of Fossil fuels puts higher than normal
levels of CO2 into the atmosphere and the ozone
layer (which protects us from radiation is being
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Bioaccumulation is the process in which a substance
builds up in a living organism from the surrounding air or
water, or through the consumption of organisms that already
have the substance that is being accumulated.
It will vary for different species and will depend on sources of
contamination, as well as water quality and temperature.
It provides increasing levels harmful to species higher up the
food chain, because of "biomagnification", where
substances like mercury will increase in concentration from
microorganisms, to fish, to fish eating predators like otters and
loons, and to humans.
![Page 79: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/79.jpg)
The accumulated mercury is shown by the red dots.
![Page 80: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/80.jpg)
Topic 6 – Succession and Change in Ecosystems
The gradual process by which some species within an
ecosystem replaces other species is called
succession.
Primary succession is the gradual growth of
organisms in an area that was previously bare - like a
rocky slope.
Organisms to first appear are those that can cling to the
rock and grow, such as mosses and lichens.
These organisms break down the rock and died.
Other organisms use the nutrients to begin to grow.
![Page 81: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/81.jpg)
Examples of areas in which a community has never lived
before would be a new lava or rock from a volcano that
makes a new island or a new landscape, or sand bar that
arises from shifting sands in the ocean, from exposure of
igneous rock surfaces by a land slide, or if a meteor
makes a depression that fills with rainwater or fresh
water from underground streams.
![Page 82: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/82.jpg)
Secondary Succession
The gradual growth of organisms in an area after a
disturbance, such as a fire, or when a large tree falls, is
known as secondary succession.
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Changes Caused by Human Activity
Humans affect the environments around them in many
ways, including activities and technologies such as:
forestry, industrial processes, transportation, urban
development, construction and farming.
When an ecosystem is changed by human activity, there
can be unexpected consequences.
Some species thrive when change occurs (eg. Cowbirds),
while some species suffer (eg. Warblers )
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The Brown-headed Cowbird (Molothrus ater) is North America's
most notorious brood parasite. Instead of building their own nests,
incubating their own eggs and raising their own nestlings, Brown-
headed Cowbirds have a different breeding strategy. Cowbird
females use other bird species as hosts -- laying their eggs in the
nests of other bird species and relying on these hosts to incubate
and raise their chicks
![Page 85: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/85.jpg)
Cowbird eggs usually hatch one day ahead of the host's
eggs. In addition cowbird nestlings usually are larger and
grow faster than the host's young, which enable them to
garner more than their fair share of the food brought to the
nest.
![Page 86: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/86.jpg)
Some Species Adapt Better Than Others
Cowbirds adapt to farmland easily, while others cannot.
The coyote has been able to adapt to the spread of urban
areas, whereas other animals, such as the wolf have not
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Pest Control
Pests that can affect human health and crops are a major
problem. Besides controlling the pest population a pesticide can
also damage other organisms that are not targeted.
This occurs with a pesticide that is designed to kill lygus bugs
(who damage canola crops).
The pesticide will also kill bees. If the pesticide kills the pest
predators, then the pest population may actually increase.
![Page 88: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/88.jpg)
Pesticides that were
sprayed to kill Lygus bugs
also killed bees which
pollinate the crops
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Biological Control
Using their own natural
enemies is another way to
control pests. This method is
known as biological control.
Black Dot Spurge Beetle
eats Leafy Spurge
![Page 90: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/90.jpg)
Introduced Species
Biological control can however cause other problems. The
species that is introduced may have no natural predators and
will overtake the area (using up the food supply) so that other
organisms cannot survive.
This happened when zebra mussels were introduced into the
Great Lakes. It has become a major problem.
Introducing a species not natural to a particular area
can cause more problems than what it solves.
Purple loosestrife – sometimes called the “beautiful killer’ –
was introduced into North America has taken over valuable
wetland habitat, pushing out native species.
![Page 91: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/91.jpg)
Purple loosestrife
![Page 92: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/92.jpg)
![Page 93: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/93.jpg)
Zebra mussels are the ONLY
freshwater molluse that can
firmly attach itself to solid
objects- submerged rocks,
dockpilings, boat hulls, water
intake pipes, etc.
![Page 94: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/94.jpg)
Three seeds of Scotch Broom were introduced to Vancouver
Island in 1850 and today the plant is widespread.
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![Page 96: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/96.jpg)
Species In Danger
Many species in North America and in Canada specifically
are in danger of extinction.
If a species becomes extinct, it can no longer be found
anywhere in the world.
Sometimes the organism is only lost in a large region. If
this occurs, the species is extirpated.
If a particular species is in danger of becoming extinct, or
extirpated, it is placed on the endangered species list.
There are special protection programs and laws made to
protect endangered species.
![Page 97: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/97.jpg)
Extinct - a species formerly indigenous to Canada that no
longer exists anywhere.
Extirpated - a species no longer existing in the wild in Canada
but occurring elsewhere in the world.
Endangered - a species threatened with imminent extinction or
extirpation throughout all or a significant portion of its Canadian
range.
Threatened - a species likely to become endangered in Canada
if the factors affecting its vulnerability are not reversed.
Vulnerable - a species particularly at risk because of low or
declining numbers, small range or for some other reason, but
not a threatened species.
![Page 98: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/98.jpg)
ENDANGERED (2006)
Swift fox (Vulpes velox)
Bison (Bison bison)Ord's
kangaroo rat (Dipodomys ordil)
Whooping crane (Grus americanus)
Sage grouse (Centrocercus urophasianus)
Piping plover (Charadrius
THREATENED (2006)
Woodland caribou (Rangifer tarandus caribou)
Barren ground caribou (Rangifer tarandus groenlandicus)
Northern leopard frog (Rana pipiens)
Trumpeter swan (Cyganus buccinator)
Ferruginous hawk (Buteo regalis)
Burrowing owl (Athene cunicularia)
Peregrine falcon (Falco peregrinus)
![Page 99: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/99.jpg)
Species of Special Concern
Sprague's pipit (Anthus spragueii)
Long-toed salamander (Ambystoma macrodactylum)
Long-billed curlew (Numenius americanus)
Loggerhead shrike (Lanius ludovicianus)
Black-throated green warbler (Dendroica virens)
Harlequin duck (Histrionicus histrionicus)
Bull trout (Salvelinus confluentus)
White-winged scoter (Melanitta fusca)
Prairie falcon (Falco mexicanus)
![Page 100: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/100.jpg)
Whooping Crane
![Page 101: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/101.jpg)
Piping Plover
![Page 102: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/102.jpg)
Grizzly Bear
![Page 103: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/103.jpg)
Burrowing Owl
![Page 104: Science with Mr. Dan - Home](https://reader031.fdocuments.us/reader031/viewer/2022013018/61d0fd92a79b3b5a4d7c0753/html5/thumbnails/104.jpg)
How Can You Help?
Recovery programs are in place or being developed to
assist the species with repopulating an area.
Volunteering to help is a great way to get personally
involved.
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Ecosystem monitoring
(also called - environmental monitoring) is a way to check
the condition - health - of an ecosystem by comparing
results of investigations done at different times.
Monitoring helps scientists understand impacts of
disturbances and changes - sudden and gradual - in order to
try to reverse or reduce the impact.
Biotic and abiotic factors are monitored.
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Physical Monitoring - uses satellites to track changes in the
landscape over time.
Environmental Monitoring - tracks changes in climate,
temperature and weather patterns.
Chemical Monitoring - assesses the quality of air, soil and
water
Biological Monitoring - tracks the changes in organisms or
populations of organisms
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When Do We Monitor?
Environmental monitoring usually begins after a disturbance
has taken place.
It can also begin before a disturbance occurs.
A key part of the monitoring program is to provide the
evidence on which environmental decisions can be made
to maintain the balance between human needs and the
needs of other organisms in the environment.
Continuous monitoring gives us the scientific data we need
to make informed decisions about how we affect the
environment over time.
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Mount St. Helen before it erupted in 1980
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Mount St. Helen before it erupted in 1980
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Start of eruption in 1980
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Mount St. Helen erupting in 1980
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Trees knocked down
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Blast area – Notice no green areas
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Area affected by eruption
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Volcanic Ash
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Long-Term Monitoring Programs
Amphibians are very sensitive to
environmental change, which
makes them an indicator species.
By using this indicator species,
scientists all over the word can
study the effects of pesticides,
acid rain, loss of habitat and
introduction of non-native
species on these amphibians.
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Monitoring programs may be qualitative, semi-quantitative,
or quantitative.
Monitoring involves the use of indicators, indicator
species or indicator communities.
The presence or absence of the indicator or of an indicator
species or indicator community reflects environmental
conditions.
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Baseline Data gives scientists a starting point to compare
changes in the environment.
Scientists to monitor change use permanent plots, or study
areas.
The report that provides the data that has been collected
identifying how a certain activity will affect the environment
is called an Environmental Impact Assessment.
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Quadrant Sampling is a technique used to study a large
area.
The quadrant is selected and the species is counted in
the quadrant.
The number of quadrants in the area provides the
multiplier to estimate the population of the species in
the area.
Using Science in Real Ecosystems
The North River Basins Study (1991) was designed to see
what impact the development of natural resources would
have on the ecosystems in the region. The analysis of the
results indicated that industries were having a negative
impact.