Photosynthesis is the process by which plants, algae, and some bacteria use sunlight, water and carbon dioxide to produce oxygen and energy in the form of glucose. It occurs in two stages - the light-dependent reactions where ATP and NADPH are produced, and the light-independent reactions where carbon is incorporated into organic compounds like glucose. Some plants have developed C4 or CAM pathways to concentrate carbon dioxide around rubisco and limit photorespiration under high light or heat conditions.
Photosynthesis overview
A. Purpose
B. Location
The light vs. the “dark” reaction
Chloroplasts pigments
A. Light absorption
B. Types
Light reactions
A. Photosystems
B. Photophosphorylation
V. The light independent reaction (“dark” reaction)
A. Carbon “fixation”
B. Reduction
C. Regeneration
VI. Alternative plants
Photosynthesis overview
A. Purpose
B. Location
The light vs. the “dark” reaction
Chloroplasts pigments
A. Light absorption
B. Types
Light reactions
A. Photosystems
B. Photophosphorylation
V. The light independent reaction (“dark” reaction)
A. Carbon “fixation”
B. Reduction
C. Regeneration
VI. Alternative plants
this presentation contains briefing of the chapter as per NCERT syllabus in details that contains photosynthesis process, early experiments, photosynthetic pigments,photophosphorylation, light reactions and dark reactions n factors affecting photsynthesis.
Photosynthesis is a process used by plants and other organisms to convert light energy, normally from the sun, into chemical energy that can be used to fuel the organisms' activities. Carbohydrates, such as sugars, are synthesized from carbon dioxide and water.
photosynthesis Presentation on AgricultureFayzanKhan10
photosynthesis, the process by which green plants and certain other organisms transform light energy into chemical energy. During photosynthesis in green plants, light energy is captured and used to convert water, carbon dioxide, and minerals into oxygen and energy-rich organic compounds.
this presentation contains briefing of the chapter as per NCERT syllabus in details that contains photosynthesis process, early experiments, photosynthetic pigments,photophosphorylation, light reactions and dark reactions n factors affecting photsynthesis.
Photosynthesis is a process used by plants and other organisms to convert light energy, normally from the sun, into chemical energy that can be used to fuel the organisms' activities. Carbohydrates, such as sugars, are synthesized from carbon dioxide and water.
photosynthesis Presentation on AgricultureFayzanKhan10
photosynthesis, the process by which green plants and certain other organisms transform light energy into chemical energy. During photosynthesis in green plants, light energy is captured and used to convert water, carbon dioxide, and minerals into oxygen and energy-rich organic compounds.
This presentation promises to unravel the mysteries of photosynthesis in a visually appealing and informative manner, leaving your audience with a newfound appreciation for the extraordinary process that sustains life on our planet. From chloroplasts to the Calvin Cycle, journey through captivating visuals and concise explanations to unlock the secrets behind nature's most vital process.
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GIÁO ÁN DẠY THÊM (KẾ HOẠCH BÀI BUỔI 2) - TIẾNG ANH 8 GLOBAL SUCCESS (2 CỘT) N...
Photosynthesis
1. • Almost all plants are photosynthetic autotrophs, as
are some bacteria and protists
– Autotrophs generate their own organic matter through
photosynthesis
– Sunlight energy is transformed to energy stored in the
form of chemical bonds
(b) Kelp
(a) Mosses, ferns, and
flowering plants
(c) Euglena (d) Cyanobacteria
THE BASICS OF PHOTOSYNTHESIS
2. Light Energy Harvested by Plants &
Other Photosynthetic Autotrophs
6 CO2 + 6 H2O + light energy → C6H12O6 + 6 O2
3. WHY ARE PLANTS GREEN?
Plant Cells
have Green
Chloroplasts
The thylakoid
membrane of the
chloroplast is
impregnated with
photosynthetic
pigments (i.e.,
chlorophylls,
carotenoids).
4. • Chloroplasts
absorb light
energy and
convert it to
chemical energy
Light
Reflected
light
Absorbed
light
Transmitted
light
Chloroplast
THE COLOR OF LIGHT SEEN IS THE
COLOR NOT ABSORBED
5. • Photosynthesis is the process by which
autotrophic organisms use light energy to
make sugar and oxygen gas from carbon
dioxide and water
AN OVERVIEW OF PHOTOSYNTHESIS
Carbon
dioxide
Water Glucose Oxygen
gas
PHOTOSYNTHESIS
6. • The Calvin cycle makes
sugar from carbon
dioxide
– ATP generated by the light
reactions provides the energy
for sugar synthesis
– The NADPH produced by the
light reactions provides the
electrons for the reduction of
carbon dioxide to glucose
Light
Chloroplast
Light
reactions
Calvin
cycle
NADP+
ADP
+ P
• The light reactions
convert solar
energy to chemical
energy
– Produce ATP & NADPH
AN OVERVIEW OF PHOTOSYNTHESIS
8. Steps of Photosynthesis
• Light hits reaction centers of chlorophyll,
found in chloroplasts
• Chlorophyll vibrates and causes water
to break apart.
• Oxygen is released into air
• Hydrogen remains in chloroplast
attached to NADPH
• “THE LIGHT REACTION”
9. Steps of Photosynthesis
• The DARK Reactions= Calvin Cycle
• CO2 from atmosphere is joined to H
from water molecules (NADPH) to
form glucose
• Glucose can be converted into other
molecules with yummy flavors!
10. • In most plants, photosynthesis occurs
primarily in the leaves, in the chloroplasts
• A chloroplast contains:
– stroma, a fluid
– grana, stacks of thylakoids
• The thylakoids contain chlorophyll
– Chlorophyll is the green pigment that captures
light for photosynthesis
Photosynthesis occurs in chloroplasts
11. • The location and structure of chloroplasts
LEAF CROSS SECTION MESOPHYLL CELL
LEAF
Mesophyll
Chloroplast
CHLOROPLAST Intermembrane space
Outer
membrane
Inner
membrane
Thylakoid
compartmentThylakoidStroma
Granum
StromaGrana
12. • Chloroplasts contain several pigments
– Chlorophyll a
– Chlorophyll b
– Carotenoids
– Xanthophyll
Chloroplast Pigments
Figure 7.7
13. Chlorophyll a & b•Chl a has a methyl
group
•Chl b has a carbonyl
group
Porphyrin ring
delocalized e-
Phytol tail
17. • Photosystem II regains electrons by splitting
water, leaving O2 gas as a by-product
Primary electron acceptor
Primary electron acceptor
Photons
Energy for synthesis of
PHOTOSYSTEM I
PHOTOSYSTEM II by chemiosmosis
Noncyclic Photophosphorylation
18. • The O2 liberated by photosynthesis is made
from the oxygen in water (H+ and e-)
Plants produce O2 gas by splitting H2O
19. • Two connected photosystems collect
photons of light and transfer the energy to
chlorophyll electrons
• The excited electrons are passed from the
primary electron acceptor to electron
transport chains
– Their energy ends up in ATP and NADPH
In the light reactions, electron transport
chains generate ATP, NADPH, & O2
20. • The electron transport chains are arranged
with the photosystems in the thylakoid
membranes and pump H+ through that
membrane
– The flow of H+ back through the membrane is
harnessed by ATP synthase to make ATP
– In the stroma, the H+ ions combine with NADP+
to form NADPH
Chemiosmosis powers ATP
synthesis in the light reactions
21. 2 H+ + 1/2
Water-splitting
photosystem
Reaction-
center
chlorophyll
Light
Primary
electron
acceptor
Energy
to make
Primary
electron
acceptor
Primary
electron
acceptor
NADPH-producing
photosystem
Light
NADP+
1
2
3
How the Light Reactions Generate ATP and NADPH
22.
23. • The production of ATP by chemiosmosis in
photosynthesis
Thylakoid
compartment
(high H+)
Thylakoid
membrane
Stroma
(low H+)
Light
Antenna
molecules
Light
ELECTRON TRANSPORT
CHAIN
PHOTOSYSTEM II PHOTOSYSTEM I ATP SYNTHASE
26. • Animation is of the Calvin Cycle
Note what happens to the carbon dioxide
and what the end product is.
• Second animation of the Calvin
Cycle is very clear and even does the
molecular bookkeeping for you.
27. Light Independent Reactions
aka Calvin Cycle
Carbon from CO2 is
converted to glucose
(ATP and NADPH
drive the reduction
of CO2 to C6H12O6.)
28. Light Independent Reactions
aka Calvin Cycle
CO2 is added to the 5-C sugar RuBP by the
enzyme rubisco.
This unstable 6-C compound splits to two
molecules of PGA or 3-phosphoglyceric acid.
PGA is converted to Glyceraldehyde 3-phosphate
(G3P), two of which bond to form glucose.
G3P is the 3-C sugar formed by three turns of the
cycle.
30. Review: Photosynthesis uses light
energy to make food molecules
Light
Chloroplast
Photosystem II
Electron
transport
chains
Photosystem I
CALVIN
CYCLE Stroma
LIGHT REACTIONS CALVIN CYCLE
Cellular
respiration
Cellulose
Starch
Other
organic
compounds
• A summary of
the chemical
processes of
photosynthesis
32. Competing Reactions
• Rubisco grabs CO2, “fixing” it into a
carbohydrate in the light independent
reactions.
• O2 can also react with rubisco, inhibiting its
active site
– not good for glucose output
– wastes time and energy (occupies
Rubisco)
33. Photorespiration
• When Rubisco reacts with O2 instead of
CO2
• Occurs under the following conditions:
– Intense Light (high O2 concentrations)
– High heat
• Photorespiration is estimated to reduce
photosynthetic efficiency by 25%
34. Why high heat?
• When it is hot, plants close their
stomata to conserve water
• They continue to do photosynthesis
use up CO2 and produce O2 creates
high O2 concentrations inside the plant
photorespiration occurs
35. C4 Photosynthesis
• Certain plants have developed ways to
limit the amount of photorespiration
– C4 Pathway*
– CAM Pathway*
* Both convert CO2 into a 4 carbon
intermediate C4 Photosynthesis
36. Leaf Anatomy
• In C3 plants (those that do C3
photosynthesis), all processes occur in the
mesophyll cells.
Image taken without permission from http://bcs.whfreeman.com/thelifewire|
Mesophyll cells
Bundle sheath
cells
37. C4 Pathway
• In C4 plants
photosynthesis occurs
in both the mesophyll
and the bundle sheath
cells.
Image taken without permission from
38. C4 Pathway
• CO2 is fixed into a 4-
carbon intermediate
• Has an extra
enzyme– PEP
Carboxylase that
initially traps CO2
instead of Rubisco–
makes a 4 carbon
intermediate
39. C4 Pathway
• The 4 carbon intermediate is “smuggled” into the
bundle sheath cell
• The bundle sheath cell is not very permeable to CO2
• CO2 is released from the 4C malate goes through
the Calvin Cycle
C3 Pathway
40. How does the C4 Pathway
limit photorespiration?
• Bundle sheath cells are far from the
surface– less O2 access
• PEP Carboxylase doesn’t have an
affinity for O2 allows plant to collect a
lot of CO2 and concentrate it in the
bundle sheath cells (where Rubisco is)
41. CAM Pathway
• Fix CO2 at night and
store as a 4 carbon
molecule
• Keep stomates
closed during day to
prevent water loss
• Same general
process as C4
Pathway
42. How does the CAM Pathway
limit photorespiration?
• Collects CO2 at night so that it can be
more concentrated during the day
• Plant can still do the calvin cycle during
the day without losing water
43. Summary of C4
Photosynthesis
• C4 Pathway
– Separates by
space (different
locations)
• CAM Pathway
– Separates
reactions by
time (night
versus day)