Integrated Science M2 Osmoregulation in Plants
5,558 views
16 slides
Apr 30, 2015
Slide 1 of 16
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
About This Presentation
Osmoregulation in Plants
Slide Content
Integrated Science
M2*U5*L6(b)
BEGINBEGIN
M2*U5*L6(b)
BEGINBEGIN
CREDITS OBJECTIVES
XX
Objectives
You should be able to:
1.define osmoregulation.
2.describe the four types of plants based on their adaptations for
osmoregulation.
3.state the importance to plants of conserving/storing water.
2
NOTE: For the activities in this slide show, you will be asked to type your
responses in boxes.
To do so, you must be in Slide Show View. You can insert and delete text in
the box in Slide Show View.
XX
Objectives
You should be able to:
1.define osmoregulation.
2.describe the four types of plants based on their adaptations for
osmoregulation.
3.state the importance to plants of conserving/storing water.
2
NOTE: For the activities in this slide show, you will be asked to type your
responses in boxes.
To do so, you must be in Slide Show View. You can insert and delete text in
the box in Slide Show View.
CREDITS OBJECTIVES
XX
Introduction
The protoplasm of living organisms has a high percentage of water,
so without water, living organisms would die.
Plants living in water, or those in hot, arid conditions where water is
not readily available all the time, or in which there is a high
concentration of solutes such as occurs in/near sea water, must
adapt their structure and/or their various functions – or both - to
ensure the conservation of needed water and prevent the upset of
the osmotic balance of cell contents.
Without the right osmotic balance – the plant dies!Without the right osmotic balance – the plant dies!
3
XX
Introduction
The protoplasm of living organisms has a high percentage of water,
so without water, living organisms would die.
Plants living in water, or those in hot, arid conditions where water is
not readily available all the time, or in which there is a high
concentration of solutes such as occurs in/near sea water, must
adapt their structure and/or their various functions – or both - to
ensure the conservation of needed water and prevent the upset of
the osmotic balance of cell contents.
Without the right osmotic balance – the plant dies!Without the right osmotic balance – the plant dies!
3
CREDITS OBJECTIVES
XX
Surviving the salt
These Mangroves grow in wet,
muddy soil at the sea -water's
edge. If you look at the leaves,
salt crystals are excreted on to
their surfaces, and if you taste
the sap – it’s very salty!
4
How can they live with so much salt?
XX
Surviving the salt
These Mangroves grow in wet,
muddy soil at the sea -water's
edge. If you look at the leaves,
salt crystals are excreted on to
their surfaces, and if you taste
the sap – it’s very salty!
4
How can they live with so much salt?
CREDITS OBJECTIVES
XX
Surviving the salt
Most trees cannot
survive in water that has
too much salt in it, but
mangrove trees have a
unique adaptation for
dealing with the sea's
salinity.
5
Some mangroves are almost covered by salty sea water!
Read the ‘One ingenious plant’ to the end of ‘Roots that Multitask’ at:
http://www.amnh.org/explore/science-bulletins/bio/documentaries/mangroves-the-roots-of-the-sea/what-s-a-mangrove-and-how-does-it-work
http://images.all-free-download.com/images/graphiclarge/grass_trees_hd_picture_165975.jpg
XX
Surviving the salt
Most trees cannot
survive in water that has
too much salt in it, but
mangrove trees have a
unique adaptation for
dealing with the sea's
salinity.
5
Some mangroves are almost covered by salty sea water!
Read the ‘One ingenious plant’ to the end of ‘Roots that Multitask’ at:
http://www.amnh.org/explore/science-bulletins/bio/documentaries/mangroves-the-roots-of-the-sea/what-s-a-mangrove-and-how-does-it-work
http://images.all-free-download.com/images/graphiclarge/grass_trees_hd_picture_165975.jpg
CREDITS OBJECTIVES
XX
Surviving the salt
Now, read the first four paragraphs at >
http://www.naturia.per.sg/buloh/plants/mangrove_trees.htm
When they’re submerged in sea water, warty growths on mangrove
roots filter out most of the salt as they take water in through their
roots.
Some mangroves concentrate extra salt in old leaves (which turn
yellow and die), and some are able to get rid of the salt by secreting
it through the pores of special glands.
Source: http://wiki.answers.com/Q/Why_mangroves_live_in_salt_water?
#slide=5
6
XX
Surviving the salt
Now, read the first four paragraphs at >
http://www.naturia.per.sg/buloh/plants/mangrove_trees.htm
When they’re submerged in sea water, warty growths on mangrove
roots filter out most of the salt as they take water in through their
roots.
Some mangroves concentrate extra salt in old leaves (which turn
yellow and die), and some are able to get rid of the salt by secreting
it through the pores of special glands.
Source: http://wiki.answers.com/Q/Why_mangroves_live_in_salt_water?
#slide=5
6
CREDITS OBJECTIVES
XX
Surviving drought
7
How do they survive?
In contrast to mangroves,
plants, such as these
cacti and Acacia that
live in places like along the
Palisadoes strip or in the
Hellshire area, grow in
limited, dry, sandy
soil, with little
rainfall, a very high
temperature and a
hot, dry wind.
There is little soil moisture.
XX
Surviving drought
7
How do they survive?
In contrast to mangroves,
plants, such as these
cacti and Acacia that
live in places like along the
Palisadoes strip or in the
Hellshire area, grow in
limited, dry, sandy
soil, with little
rainfall, a very high
temperature and a
hot, dry wind.
There is little soil moisture.
CREDITS OBJECTIVES
XX
Some water-conservation methods
Look at the Cactus stem and those leaves.
Do they help you to answer that question?
8
Succulent leaves of Sesuvium &
Aloe$ I N I N G I N
& 3 I G '
Succulent plant stem
(Cactus)
How do they survive?
XX
Some water-conservation methods
Look at the Cactus stem and those leaves.
Do they help you to answer that question?
8
Succulent leaves of Sesuvium &
Aloe$ I N I N G I N
& 3 I G '
Succulent plant stem
(Cactus)
How do they survive?
CREDITS OBJECTIVES
XX
Osmoregulatory adaptations
The plants shown on the previous slides have adaptations that
ensure osmoregulation.
Osmoregulation is the active regulation of the osmotic pressure
of an organism’’s fluids to maintain the homeostasis (or constant
unchanging balance) of the organism’s water content; that is, it
keeps the organism's fluids from becoming too diluted or too
concentrated.
Think and recall what you learned about osmosis in term 1.
9
Source: http://en.wikipedia.org/wiki/Osmoregulation
XX
Osmoregulatory adaptations
The plants shown on the previous slides have adaptations that
ensure osmoregulation.
Osmoregulation is the active regulation of the osmotic pressure
of an organism’’s fluids to maintain the homeostasis (or constant
unchanging balance) of the organism’s water content; that is, it
keeps the organism's fluids from becoming too diluted or too
concentrated.
Think and recall what you learned about osmosis in term 1.
9
Source: http://en.wikipedia.org/wiki/Osmoregulation
CREDITS OBJECTIVES
XX
Osmoregulatory adaptations
Plants such as mangroves
develop structural and
physiological
adaptations to regulate
the osmotic balance of
their cell contents – i.e.
To carry out osmoregulation.
The cacti and other plants
living along the hot, dry
scrubland of the Palisadoes
strip also develop special
adaptive features for
osmoregulation.
10
XX
Osmoregulatory adaptations
Plants such as mangroves
develop structural and
physiological
adaptations to regulate
the osmotic balance of
their cell contents – i.e.
To carry out osmoregulation.
The cacti and other plants
living along the hot, dry
scrubland of the Palisadoes
strip also develop special
adaptive features for
osmoregulation.
10
CREDITS OBJECTIVES
XX
Osmoregulatory adaptations – Types of plants
Depending on their habitat, plants can be grouped into four different
types according to the osmoregulatory adaptations that they show
either in their structure, functions, or both.
Groups are as follows:
1.Halophytes
2.Hydrophytes
3.Xerophytes
4.Mesophytes
Read the section on ‘Osmoregulation in Plants’ at >
http://en.wikipedia.org/wiki/Osmoregulation
11
XX
Osmoregulatory adaptations – Types of plants
Depending on their habitat, plants can be grouped into four different
types according to the osmoregulatory adaptations that they show
either in their structure, functions, or both.
Groups are as follows:
1.Halophytes
2.Hydrophytes
3.Xerophytes
4.Mesophytes
Read the section on ‘Osmoregulation in Plants’ at >
http://en.wikipedia.org/wiki/Osmoregulation
11
CREDITS OBJECTIVES
XX
Activity
1.When you open this video, click pause each time text appears
so that you can read it properly >
http://www.youtube.com/watch?v=lBzHYzXjdTo
Play it twice if necessary!
2.In which group would you place the following plants?
12
a.Mangrove = halophyte
b.Cactus = xerophyte
c.Ackee tree = mesophyte
d.Water lily = hydrophyte
Groups:
1.Halophytes
2.Hydrophytes
3.Xerophytes
4.Mesophytes
CHECKCHECK
XX
Activity
1.When you open this video, click pause each time text appears
so that you can read it properly >
http://www.youtube.com/watch?v=lBzHYzXjdTo
Play it twice if necessary!
2.In which group would you place the following plants?
12
a.Mangrove = halophyte
b.Cactus = xerophyte
c.Ackee tree = mesophyte
d.Water lily = hydrophyte
Groups:
1.Halophytes
2.Hydrophytes
3.Xerophytes
4.Mesophytes
CHECKCHECK
CREDITS OBJECTIVES
XX
Activity: Hydrophytes
3.What adaptations do these water lilies show for living in water?
13
The leaves float on the water surface and
numerous stomata are present on the upper
surface of the leaves facing the atmosphere to
promote loss of water. The surface area of these
leaves is very large to enable excessive water
loss by transpiration.
CHECKCHECK
XX
Activity: Hydrophytes
3.What adaptations do these water lilies show for living in water?
13
The leaves float on the water surface and
numerous stomata are present on the upper
surface of the leaves facing the atmosphere to
promote loss of water. The surface area of these
leaves is very large to enable excessive water
loss by transpiration.
CHECKCHECK
CREDITS OBJECTIVES
XX
Feedback to Activity
FEEDBACK.
2. (a) mangrove = halophyte
(b) Catus = xerophyte
(c ) an ackee tree = mesophyte
(d) water lily = hydrophyte
3. The leaves float on the water surface and numerous stomata are
present on the upper surface of the leaves facing the atmosphere to
promote loss of water. The surface area of these leaves is very large
to enable excessive water loss by transpiration
14
XX
Feedback to Activity
FEEDBACK.
2. (a) mangrove = halophyte
(b) Catus = xerophyte
(c ) an ackee tree = mesophyte
(d) water lily = hydrophyte
3. The leaves float on the water surface and numerous stomata are
present on the upper surface of the leaves facing the atmosphere to
promote loss of water. The surface area of these leaves is very large
to enable excessive water loss by transpiration
14
CREDITS OBJECTIVES
XX
Why is osmoregulation important to plants?
the habitat is dry, hot and desert-like.
sandy/rocky soil does not hold much water.
rainfall is scarce or only at certain times.
adequate water is not available for photosynthesis and
hydration of the cell contents.
habitat is completely aquatic.
salinity of the habitat is high.
15
1. Enables the plant to grow, develop, carry on respiration,
photosynthesis and survive, even if:
2. It regulates and balances the uptake and loss of water and
solutes so maintains homeostasis.
XX
Why is osmoregulation important to plants?
the habitat is dry, hot and desert-like.
sandy/rocky soil does not hold much water.
rainfall is scarce or only at certain times.
adequate water is not available for photosynthesis and
hydration of the cell contents.
habitat is completely aquatic.
salinity of the habitat is high.
15
1. Enables the plant to grow, develop, carry on respiration,
photosynthesis and survive, even if:
2. It regulates and balances the uptake and loss of water and
solutes so maintains homeostasis.
CREDITS OBJECTIVES
XX
Credits
http://www.mangrove.at/images/mangrove/forests/overwashed/overwashed
%20mangrove%20forest.jpg
http://images.all-free-
download.com/images/graphiclarge/grass_trees_hd_picture_165975.jpg
http://www.palmislandestates.org/images/environmental/mangroves.jpg
http://scienceray.com/biology/botany/the-desert-saguaro/
http://www.cbd.int/doc/world/jm/jm-nbsap-01-p4-en.pdf
http://keetsa.com/blog/wp-content/uploads/2009/06/aloe-vera-plant.jpg
http://commons.wikimedia.org/wiki/File:Avicennia_germinans-salt_excretion.jpg
http://wiki.answers.com/Q/Why_mangroves_live_in_salt_water?#slide=5
http://www.shutterstock.com/pic-141931372/stock-photo-lotus-flower-in-thailand.html?
src=pp-photo-61336477-vmC5123JqUfb8rxqG8USKw-2
http://www.shutterstock.com/pic-172736525/stock-photo-victoria-regia-the-largest-
water-lily-in-the-world.html?src=vmC5123JqUfb8rxqG8USKw-5-35
Sesuvium sp.- http://dspace.mona.uwi.edu
Slide 14: Aloe vera - http://waterconservationwise.com.au/water-efficient-plants
16
XX
Credits
http://www.mangrove.at/images/mangrove/forests/overwashed/overwashed
%20mangrove%20forest.jpg
http://images.all-free-
download.com/images/graphiclarge/grass_trees_hd_picture_165975.jpg
http://www.palmislandestates.org/images/environmental/mangroves.jpg
http://scienceray.com/biology/botany/the-desert-saguaro/
http://www.cbd.int/doc/world/jm/jm-nbsap-01-p4-en.pdf
http://keetsa.com/blog/wp-content/uploads/2009/06/aloe-vera-plant.jpg
http://commons.wikimedia.org/wiki/File:Avicennia_germinans-salt_excretion.jpg
http://wiki.answers.com/Q/Why_mangroves_live_in_salt_water?#slide=5
http://www.shutterstock.com/pic-141931372/stock-photo-lotus-flower-in-thailand.html?
src=pp-photo-61336477-vmC5123JqUfb8rxqG8USKw-2
http://www.shutterstock.com/pic-172736525/stock-photo-victoria-regia-the-largest-
water-lily-in-the-world.html?src=vmC5123JqUfb8rxqG8USKw-5-35
Sesuvium sp.- http://dspace.mona.uwi.edu
Slide 14: Aloe vera - http://waterconservationwise.com.au/water-efficient-plants
16
Tags
Download
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 5,558
- Slides 16
- Favorites 7
- Age 3868 days
Related Slideshows
23
Earthquakes_Type of Faults_Science G8.pptx
OctabellFabila1
31 views
15
Quiz #1 Science 10 in the first quarter for jhs
HendrixAntonniAmante
30 views
9
Astronomy history from long ago till doday
ssuserbd9abe
29 views
9
Great history of astronomy from long ago till today
ssuserbd9abe
27 views
20
EARTHQUAKE-DRILL.powerpoint.............
chalobrido8
30 views
9
History of astronomy from old times to the present times
ssuserbd9abe
30 views