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Transcript
Chapter 15
The Marine Habitat
The diversity of marine life

The ocean is home to a wide variety of
organisms

Marine organisms range from
microscopic bacteria and algae to the
largest animal in the world (blue
whale)

Number of known marine species:
250,000
Classification of living things

Organisms can be
classified into one of
three domains of life:

Archaea

Bacteria

Eukarya
Figure 12-1
Classification of living things

Organisms can also be
classified into one of five
kingdoms:

Monera

Protoctista

Fungi

Plantae

Animalia
Figure 12-1
Classification of living things

Taxonomic classification includes the following
increasingly specific groupings:
 Kingdom
 Phylum (Division for plants)
 Class
 Order
 Family
 Genus
 Species
Taxonomic classification of
selected organisms
Category
Human
Killer whale
Giant kelp
Kingdom
Phylum
Subphylum
Class
Order
Family
Genus
Species
Animalia
Chordata
Vertebrata
Mammalia
Primates
Hominidae
Homo
sapiens
Animalia
Chordata
Vertebrata
Mammalia
Cetacea
Delphinidae
Orcinus
orca
Protoctista
Phaeophyta
Phaeophycae
Laminariales
Lessoniaceae
Macrocystis
pyrifera
Classification of marine
organisms

Marine organisms can be classified
into one of three groups based on
habitat and mobility:
1. Plankton (floaters)
 Phytoplankton (drifting plants
and algae)
 Zooplankton (drifting animals)
2. Nekton (swimmers)
3. Benthos (bottom dwellers)
Plankton

Plankton (singular plankter) are a
diverse group of organisms that live in
the water column of large bodies of
water and that cannot swim against a
current. They provide a crucial source
of food to many large aquatic
organisms, such as fish and whales.
Plankton: Examples
Phytoplankton
Zooplankton
Figure 12-2
Nekton

Oceanic nekton comprised animals largely from
three clades

Vertebrates formed the largest contribution, these
animals are supported by either bones or cartilage.

Mollusks are animals such as squids and scallops.

Crustaceans are animals such as lobsters and crabs.

There are organisms whose initial part of their lives were
identified as being planktonic but when they grew and
increased in body size they become nektonic. A typical
example was the medusa of the jellyfish.
Nekton: Examples
Figure 12-4
Benthos

Benthos is the community of organisms which live on, in, or near
the seabed, also known as the benthic zone.[1] This community lives
in or near marine sedimentary environments, from tidal pools along
the foreshore, out to the continental shelf, and then down to
the abyssal depths.

Many organisms adapted to deep-water pressure cannot survive in
the upper parts of the water column. The pressure difference can be
very significant.

Because light is absorbed before it can reach deep ocean-water,
the energy source for deep benthic ecosystems is often organic
matter from higher up in the water column which drifts down to the
depths. This dead and decaying matter sustains the benthic food
chain; most organisms in the benthic zone
are scavengers or detritivores.
Benthos: Examples
Figure 12-5
Marine Ecosystems:
•
•
•
•
•
•
•
•
•
•
•
Open Ocean
Coral Reef
Kelp Forest
Mangrove Forest
Deep Ocean
Rocky Shore
Polar Sea
Salt Marsh
Estuary
Intertidal Zone
Photic Zone
Ocean Zones
The ocean can be divided into zones based on depth
(vertically) and distance from land (horizontally)
Different zones of the ocean have conditions that support
different organisms
What is an ecosystem?
An ecosystem is a physically distinct area that contains a
community of interacting organisms
Ocean zones and continental
margins
Many ocean zones are defined based on continental margins.
To help you understand ocean zones, let’s first review
continental Margins:
Continental Margin: Submerged area of continents. Include:
Continental Shelf (flat gradually sloping seafloor) from
shoreline to ~ 200m; End of Shelf is called the Shelf Break
Continental Slope (steeply sloping seafloor) seaward of
shelf break
Continental Rise (Moderately sloping seafloor) seaward of
slope
Ocean zones and continental
margins
Life cycle of a squid

Squid experience benthic,
planktonic, and nektonic
stages

Squid are considered
meroplankton (opposite =
holoplankton)
Figure 12-3
Pelagic and benthic zones

One simple ocean zone classification
is between the water and the ocean
floor
The water is referred to as the pelagic
zone
 Organisms that swim through the
water column are known as nekton

The ocean floor is referred to as the
benthic zone
 Organisms that live here are benthic
organisms or benthos
Shark: Pelagic (nekton)

Crab: Benthic
(benthos)
Pelagic
zone divisions (depth
from surface)
Epipelagic (0-200m)
Mesopelagic (200-1,000m)
Bathypelagic (1,000-4,000m)
Abyssopelagic (4,000-6,000m
Hadalpelagic (6,000-10,000m)
Benthic zone divisions
(seafloor zones)
Supralittoral –shore above high
Littoral – the intertidal zone
tide
(sometimes submerged and
sometimes above water)
Sublittoral – seafloor of the
continental shelf (from low tide to the
shelf break)
Bathyl – seafloor of the continental
slope to the deep ocean bottom
Abyssal – deep ocean bottom
between the base of the slope and
6,000 m
Hadal – the deepest zone, below
6,000m
Distribution of species on Earth


The land has more
species because it has
greater environmental
variability than the
ocean
Most ocean species
are benthic because
of greater
environmental
variability compared
to pelagic
environments
Figure 12-6
Adaptations of organisms to
the marine environment


The marine environment presents many
challenges to organisms because seawater:

Is dense enough to support organisms

Has high viscosity

Experiences variations in temperature and salinity

Contains variable amounts of dissolved gases

Has high transparency

Has a dramatic change of pressure with depth
Marine organisms have various adaptations
for the conditions of the marine environment
Need for physical support


Condition:
 Seawater is dense enough to support
marine organisms
Adaptations:
 Many marine organisms lack rigid skeletons,
appendages, or vast root systems
 Instead, they rely on buoyancy and friction
to maintain their position within the water
column
Seawater’s viscosity controlled
by temperature

Condition:
 Seawater’s
viscosity (resistance to flow) is
strongly affected by temperature
 Cold
water has higher viscosity than warm
water, so is more difficult to swim through
 Warm
water has lower viscosity, so organisms
tend to sink within the water column
Seawater’s viscosity controlled
by temperature

Adaptations:
 Many warmwater organisms
have ornate
appendages to
say afloat
 Many cold-water
organisms are
streamlined to
swim more easily
Warm-water
copepod
Cold-water
copepod
Figure 12-7
Seawater’s viscosity and
adaptations of phytoplankton

Condition:


Phytoplankton must remain
in sunlit surface waters
Adaptations:

Small size increases surface
area to volume ratio

Appendages increase
frictional resistance

Tiny droplet of low density
oil increases buoyancy
Figure 12-8
Variations in temperature
Condition:
 Coastal water temperatures vary more than
the open ocean or at depth
 Adaptations:

 Many
coastal organisms can withstand a wide
temperature range (are eurythermal)
 Most open ocean and deep-water organisms
can withstand only a small temperature range
(are stenothermal)
Variations in salinity

Condition:
 Coastal
environments experience greater salinity
variation than the open ocean or at depth

Adaptations:
 Many
shallow-water coastal organisms can
withstand a wide salinity range (are euryhaline)
 Most
open ocean and deep-water organisms
can withstand only a small change in salinity (are
stenohaline)
Osmosis

Condition:
 Osmosis is the movement
of water molecules
through a semipermeable
membrane from higher to
lower concentrations
 Osmosis removes water
from hypotonic organisms
 Osmosis
adds water to
hypertonic organisms
Figure 12-13
Osmosis

Adaptations:
Figure 12-14
Dissolved gases: Oxygen
Condition:
 Marine animals need
oxygen to survive
 Adaptations:

 Many
marine animals
use gills to extract
dissolved oxygen from
seawater
 Marine mammals must
breathe air
Figure 12-15
Abundance of dissolved
oxygen and nutrients with
depth
Figure 12-20
Seawater’s high transparency

Condition:


Seawater has high
transparency
Camouflage
Adaptations:

Transparency

Camouflage

Countershading

Migration (DSL)
Countershading
Figure 12-17
The deep scattering layer (DSL)

Organisms within the
deep scattering layer
undertake a daily
migration to hide in
deep, darker waters
during daytime
Figure 12B
Increase of pressure with depth

Condition:


Pressure increases rapidly with depth
Adaptations:

Most marine organisms lack large compressible air
pockets inside their bodies

Water-filled bodies exert the same amount of pressure
as is pushing inward, so marine organisms do not feel
the high pressure at depth
Divisions of the marine environment

Main divisions:

Pelagic (open
sea)

Benthic (sea
bottom)
Figure 12-19
End of Chapter 12
ESSENTIALS OF OCEANOGRAPHY
7TH EDITION