Download Chapter 6 Marine Macroalgae Marine Algae

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

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
Document related concepts

Plant nutrition wikipedia , lookup

Plant evolutionary developmental biology wikipedia , lookup

Plant ecology wikipedia , lookup

Botany wikipedia , lookup

Xylem wikipedia , lookup

Plant morphology wikipedia , lookup

Evolutionary history of plants wikipedia , lookup

Ornamental bulbous plant wikipedia , lookup

Plant reproduction wikipedia , lookup

Photosynthesis wikipedia , lookup

Glossary of plant morphology wikipedia , lookup

Transcript 
Chapter 6
MultiMulti-cellular Primary Producers:
Seaweeds and Plants
Marine Macroalgae
• Important coastal primary producers
(photosynthetic)
• These algae are called by a generic term
“seaweeds”
seaweeds” or more formal term
macroalgae
• algae do not have the same advanced
structures seen in plants such as roots,
stems and leaves
• Lack vascularization
Marine Algae
• The body of a macroalgae is known as a thallus.
• This thallus can be simple or more advanced in
its structure.
• In some algae, there are:
– Blades – leafleaf-like structures
– Stipes – stemstem-like structures
– Holdfast – rootroot-like structures
(these structures lack the advanced conducting tissues
seen in true plants)
Marine Algae
• Some algae also possess pneumatocysts,
gasgas-filled bladders used to keep the
blades near the water’
water’s surface where
more light is available for photosynthesis
• The blades, stipes and pneumatocysts of
the giant kelp ( a brown algae) are shown
in Fig. 6.8
Brown Algae
• Brown algae are the largest and most
complex algae
• All are multicellular, and most are marine
• Brown algae include many species
commonly called seaweeds
• Seaweeds have complex multicellular
anatomy- thallus
Blade
• But lack true roots,
leaves and stems
Stipe
Holdfast
• Giant seaweeds
called kelps live in
deep parts of the
ocean
• Up to 60m (120ft)
Human Uses of Seaweeds
• Important commodities and many are
harvested for food
Alginate
• http://www.youtube.com/watch?v=FUfA3W6
2PEk&feature=fvsr
• Alginic acid (alginate) is used as a thickener
in the food industry as well as getting fats
into suspension in water (emulsifier)
• Alginate is a polysacharide from kelps that
absorbs lots of water. When it is exposed to
calcium it forms fibers that separate from
water.
– i.e. youtube video, “apple caviar”
Figure 06_01
Marine Algae
• Can exhibit extremely fast growth rates
• Can reside in areas favorable for growth, do not
get washed around like phytoplankton
• Important habitat and food source of other
marine organisms.
• Three general types based on photosynthetic
pigments: green, red, and brown.
Green algae-Ulva sea lettuce
Green algae-Enteromorpha
Brown algae: Nereocystis bull kelp
Figure 06_05
Red algae:
Gigartina turkish
towel
Figure 06_10
Trichodesmium
Sargassum
Advanced Primary ProducersProducersPlants
• Angiosperms are true plants.
• Over 250,000 species exist worldwide,
however, only a few of these exist in the
marine community.
• Those plants that do exist there must have
mechanisms for dealing with salinity.
• These plants have true leaves, stems,
roots and conducting tissues.
Advanced Primary ProducersProducersPlants
• Seagrasses
– About 60 species exist in temperate and
mainly tropical locations.
– Flowers are small and inconspicuous in most
species.
Advanced Primary ProducersProducersPlants
• Seagrasses
– They also provide habitat for countless organisms
that hide among the blades in seagrass beds (large
collections of seagrass plants)
– Eelgrass is the most widely distributed of the
seagrasses where it is widely distributed in shallow
water bays and estuaries.
Advanced Primary ProducersProducersPlants
• Salt marsh PlantsPlants- plants bordering shallow bays and
tidal creeks.
– Cordgrass, Spartina, the predominant salt marsh plant is in the
grass family.
– Spartina is only exposed to saltwater at high tide.
– Spartina is extremely important as habitat to young marine
animals such as juvenile invertebrates and fish.
Advanced Primary ProducersProducersPlants
• Mangrove trees
– About 80 species of mangroves exist only in tropical
and subtropical areas.
– They cannot withstand freezing temperatures.
– Like Spartina,
Spartina, they only tolerate partial salt water
submergence.
– Mangroves have a thick network of prop roots that are
heavily exposed at low tide (Fig. 6.14, pg. 112
displays the roots of the red mangrove tree)
Willapa Bay
• Spartina
alterniflora
• 10,000 to 25,000
acres affected
• Nearly 4000 solid
acres
Living at the interface
between reduced and
oxidized conditions - oxygen
transport is an important
physiological capability
Oxidized zone
No hydrogen sulfide
Anoxic zone
Hydrogen sulfide-rich
Related documents
AP Biology 11 Protist Learning Outcome Cards
AP Biology 11 Protist Learning Outcome Cards
Multicellular Primary - Broadneck High School
Multicellular Primary - Broadneck High School
Rhodophyta: Red Algae
Rhodophyta: Red Algae
Coralline Algae - City of Cannon Beach
Coralline Algae - City of Cannon Beach
Chapter 6 Multicellular Primary Producers: Seaweeds and Plants
Chapter 6 Multicellular Primary Producers: Seaweeds and Plants
Plant Life in the Oceans
Plant Life in the Oceans
Golden Algae
Golden Algae
Adaptations of plants and algae in Rocky Shores
Adaptations of plants and algae in Rocky Shores
Phaeophyta (Brown algae)
Phaeophyta (Brown algae)
Chapter_7 - South Johnston High School
Chapter_7 - South Johnston High School
CULUTURE OF SEAWEEDS
CULUTURE OF SEAWEEDS
Seaweeds and Marine Plants
Seaweeds and Marine Plants