Download Example 1 - Leesburg High School

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Bifrenaria wikipedia , lookup

Allometry wikipedia , lookup

Introduced species wikipedia , lookup

Food web wikipedia , lookup

Overexploitation wikipedia , lookup

Occupancy–abundance relationship wikipedia , lookup

Ecological resilience wikipedia , lookup

Biodiversity wikipedia , lookup

Biological Dynamics of Forest Fragments Project wikipedia , lookup

Soundscape ecology wikipedia , lookup

Ecological fitting wikipedia , lookup

Natural environment wikipedia , lookup

Ecosystem services wikipedia , lookup

History of wildlife tracking technology wikipedia , lookup

Habitat destruction wikipedia , lookup

Biogeography wikipedia , lookup

Restoration ecology wikipedia , lookup

Lake ecosystem wikipedia , lookup

Ecosystem wikipedia , lookup

Ecology wikipedia , lookup

Habitat conservation wikipedia , lookup

Biodiversity action plan wikipedia , lookup

Reconciliation ecology wikipedia , lookup

Theoretical ecology wikipedia , lookup

Habitat wikipedia , lookup

Transcript
Section 2
Large
Marine
Ecosystems
of the world
Objectives
 To understand relationships between organisms
within ecosystems
 To identify the connection between environment,
biodiversity and ecological niches
Review
 Binomial nomenclature created by Linneaus in the
mid-1700s
 Each species has a two part name
 1st – generic name (genus)
 2nd – specific name (species)
Terms to Know!
Term
Definition
Habitat
Place where organisms live
Ecological
Niche
The role of an organism within an ecosystem
Species
A group of similar organisms that can
interbreed and produce fertile offspring
Population
Organisms of the same species, living in the
same area
Example
Community All the different species living in a habitat at
the same time
Ecosystem
Living organisms and the chemical and
physical factors which influence them
With a partner, take 2-3 minutes and come up with marine examples of
the terms listed above!
The ecosystem is affected by…
Abiotic Factors
Biotic Factors
ECOSYSTEM
The ecosystem is affected by…
Abiotic
Factors
Biotic Factors
ECOSYSTEM
What identifies an ecosystem:
Biotic
Abiotic
 Living components of an
 Nonliving components of an
ecosystem
ecosystem
Greek meanings:
Bio = living
tic = of or pertaining to
A = not; without
List 5 examples of each!
Marine Ecosystem Example
 http://vimeo.com/28417462
 Rocky Shore – organisms living here, linked together
by flows of energy forming a food web, and their
environment
 Animals must be able to adapt to changing tides
Habitat Example
 Hydrothermal vent – provides habitat for species of
tube worms
Population Example
 Ghost crabs (Ocypode
saratan) living in the
sandy shores
 Mollusc community on a
rocky shore (all different
species of molluscs)
Species Examples
 Skipjack tuna
(Katsuwomus pelamis)
 Red mangrove trees
(Rhizophora mangle)
Ecological Niche Examples
 Ecological niche of great white shark = top predator
 Organisms which occupy similar niches will tend to
compete with each other for
 Resources


Food
Space in their habitat
Biodiversity
 Takes into account:
 # of different species present
 Range of habitats and ecosystems
 Examples:
CORAL REEFS
High biodiversity w/
many species present
SANDY SHORE
Low biodiversity w/ few
species present
Quadrat
 A square used in ecology and geography to isolate a
sample, usually about 1m2 or 0.25m2
 Used to investigate the diversity of organisms in a
suitable habitat (example: rocky shore or sandy shore)
Section 2 of Marine Ecosystems
Relationships between organisms
Symbiosis
 The relationship between 2 different organisms, where
BOTH derive some benefit from the relationship
 Examples



Corals and zooxanthellae
Cleaner fish and grouper
Chemosynthetic bacteria and tubeworms
Parasitism
 Relationship between organisms where 1 organisms
benefits at the expense of the other (the host)
 Parasites obtain nutrients from host
 Ectoparasites


Live on OUTSIDE of the host
Example: Fish lice
 Endoparasites


Live INSIDE host (digestive system, attached to gills, muscle
tissue)
Example: nematodes (roundworms)
living in fish
Trophic Levels
 “feeding levels” in a food chain or a
food web
 Producers 1st trophic level
 Primary consumers2nd trophic level
 Secondary consumers 3rd trophic level
More Terms…
Term
Definition
Producer
Organisms which synthesize organic substances from simple
organic compounds using light from the Sun
Consumer
An organism that obtains its energy by feeding on other
organisms
Primary
Consumer
Feed on plant material (AKA Herbivore)
Secondary
Consumer
Feed on herbivores ((AKA Carnivore)
Predator
An animal that catches, kills, and eats another animal
Predator-Prey Relationship
 Factors which affect # of predators in an ecosystem
 Availability of food


As the # of prey increases the # of predators increases
As the # of prey decrease the # of predators decrease
 http://vimeo.com/45154593
 What would a graph of this relationship look like?
 With a partner create a graph? Be prepared to explain your
graph!
Predator-Prey Graph
Chemosynthesis
 Symbiotic bacteria convert H2S into organic material:
H2S + CO2 + O2 + H20  CH2O + H2SO4
 Hydrogen sulphide is the primary energy source for
hot vents and cold seeps
What is a Shoal?
 Large numbers of fish of the SAME species and
approximately the SAME size.
 Referred to as a ‘school’ when the group of fish is
swimming together in a coordinated way.
Benefits of Shoaling
1. Hydrodynamic efficiency
Groups of fish save energy when swimming together
Benefits of Shoaling
2. Predator avoidance:
a) Confusion effect: It is difficult for predators to pick
out individual prey from groups
b) Many eyes effect as size of group increases, the task
of scanning for predators can be spread out
Benefits of Shoaling
3. Foraging Advantages : Time taken to find food is
decreased
4. Reproductive Advantages: Provides increased
access to potential mates
Types of shoalers
 Fish can be obligate or facultative shoalers:
 Obligate – spends all their time shoaling or schooling
and may become agitated when separated from the
group (examples: tuna, herring, anchovy)
 Facultative – shoal only some of the time, perhaps only
for reproductive purposes
(examples: Atlantic cod)
What is Succession?
 The gradual process of change that occurs in
community structure over a period of time
 Example
Succession
 As plant communities
change the animal
communities change.
Succession at Hydrothermal Vents
 One of the first animal species to inhabit the area
around a hydrothermal vent is the tube worm Tevnia.
 Tevnia is replaced by the larger and faster growing tube
worm Riftia.
Riftia tubeworms can
grow up to two meters
long. This adult
tubeworm that has been
removed from its white
tube.
Riftia
Tevnia
 Tevnia are usually white,
but this clump of worms is
stained brown from iron in
the vent fluids. The largest
worm in this clump (with
more white color) is a
different species - a Riftia
tubeworm.
What is a Whale Fall?
 When a whale dies, the carcass sinks to the sea
floor…this is known as a “whale fall”
 The video below shows the gradual change in the
community structure over time
Feast in the Deep
Boneworms on Dead Whales in Monterey Bay
Extreme & Unstable Environments
Tend to have LOW biodiversity!

Example 1: Sand-easily dries out and
easily eroded by wind and water
currents
Example 2: hydrothermal vents-high pressure,
high temperature, few organisms adapted to
these conditions
Stable & Favorable Environments
Tend to have HIGH biodiversity!

Example: Coral Reefs
Specialized Niche
 Narrow range of food
Generalized Niche
 Exploit a wider range of food
requirements
 Live in specific habitat
sources
 Live in wider range of habitats
Example: Butterfly fish
 Territorial
 Live closely w/corals and
anenomes
Ex: Tuna
 Migratory
 Feed on many different species
of fish
Why do habitats with high
biodiversity tend to contain
narrow ecological niches?
 Each species has its OWN niche within the ecosystem
 What would happen if the niches overlapped?


INTERSPECIFIC COMPETITION and one species will die out!
Narrow niches reduce overlap and therefore reduce
competition