Photosynthesis. Energy Transformations ATP  is the energy molecule used in all living things, so supplies must be constantly replenished.  energy must.

Slides:

Advertisements

Similar presentations

How plants (and some algae and bacteria) make their own food video

Advertisements

Oxidation and reduction – always take place together

An Overview of Photosynthesis Most of the energy used by almost all living cells ultimately comes from the sun  plants, algae, and some bacteria capture.

Photosynthesis Unit. Energy Flow through an Ecosystem.

KEY CONCEPT All cells need chemical energy.

LIGHT DEPENDENT REACTIONS OF PHOTOSYNTHESIS. (1) As light falls upon the pigments of the chloroplast, energy causes the electrons in photosystem II (p680)

Photosynthesis 6 CO H Light  C 6 H 12 O O H 2 O Occurs in 2 Stages – both take place in the Chloroplasts Light Reactions Splitting.

Unit 3 - Photosynthesis The Basis of Life. Overall Process 6CO H 2 O + Light Energy  C 6 H 12 O 6 + 6O 2 + 6H 2.

E 2.2 Photosynthesis. All life as we know it depends on the process of photosynthesis This is the process by which plants use simple compounds and sunlight.

The Working Cell: Energy From Sunlight Chapter 8

How Photosynthesis Works

Ch 6 – Photosynthesis process that converts light energy into chemical energy supports most life on Earth found in algae, plants, some bacteria & protista.

1-1 Honors Biology Chapter 8 Photosynthesis John Regan Wendy Vermillion Columbus State Community College Copyright The McGraw-Hill Companies, Inc. Permission.

6.2 Reactions of Photosynthesis Photosynthesis. Purpose: to use photons from sunlight to create glucose - solar energy converted to usable chemical energy.

PHOTOSYNTHESIS How plants use the sun’s energy to make sugar Occurs in the chloroplasts of plant cells I.The process is broken into 3 sets of reactions.

6.1 Capturing the Energy in Light 6.2 The Calvin Cycle

Chapter 6 Photosynthesis Section 6.1. Energy Processes for Life Autotrophs manufacture their own food from inorganic substances Autotrophs manufacture.

Photosynthesis: Life from Light

IMPORTANT “PLAYERS” IN PHOTOSYNTHESIS Electrons CO 2 H 2 O Sunlight (Photons) Electrons CO 2 H2OH2O Sunlight (Photons)

Photosynthesis. The Light Reactions Obtaining Energy – Autotrophs- organisms that use energy from sunlight or from chemical bonds in inorganic substances.

Photosynthesis Overview Energy for all life on Earth ultimately comes from photosynthesis 6CO H 2 O C 6 H 12 O 6 + 6H 2 O + 6O 2 Oxygenic photosynthesis.

8.3: Photosynthesis. Redox Reactions Oxidation – Loss of electrons – Loss of hydrogen atoms Reduction – Gain of electrons – Gain hydrogen atoms If one.

Photosynthesis. I.Photosynthesis A.Process that traps light energy & uses it for carbohydrate synthesis. B.Phototrophs - both plants and bacteria.

PHOTOSYNTHESIS.

Chapter 6 - Photosynthesis

Energy can be transformed from one form to another FREE ENERGY (available for work) vs. HEAT (not available for work)

Essential Question: How do plants harness the suns energy?

Photosynthesis.

Chapter 6 Photosynthesis.

Overview of Photosynthesis

Photosynthesis Biology 2 D. Mitchell. . All life requires energy All life requires energy Almost all energy for life is derived from the sun. Almost all.

Ch. 10 part 1 The light reaction. I. Autotrophs- Organisms that make their own food (convert light energy to chemical energy) I. Autotrophs- Organisms.

Photosynthesis 1: Light-Dependent Reactions This may get confusing… try to follow along with the diagram on p160 of your text! Light-Dependent Reactions.

Photosynthesis. Main Idea Light energy is trapped and converted into chemical energy during photosynthesis.

Structures of Photosynthesis The Light Reactions The Dark Reactions.

PHOTOSYNTHESIS watch?v=tSHmwIZ9FNw.

7.5 Overview: The two stages of photosynthesis are linked by ATP and NADPH  The second stage is the Calvin cycle, which occurs in the stroma of the chloroplast.

Photosynthesis Overview video 3 mins Overview video 3 mins.

Chapter 5 Section 2 Photosynthesis photo= light Synthesis= to make.

Photosynthesis in Detail. Photosynthesis: An Overview Autotrophs are the producers of the biosphere. Most use photosynthesis to produce organic compounds.

Where It Starts: Photosynthesis Chapter 6 Photosynthesis

DO NOW A tree begins as a seed, where does all the mass (the stuff that makes up the wood, and roots and leaves) come from?

Photosynthesis. Energy Transformations – TWO TYPES ATP (Adenosine Triphosphate): is the energy molecule used in all living things, so supplies must be.

Photosynthesis Overview video Photosynthesis 3 mins Overview video Photosynthesis 3 mins.

Autotrophs and Heterotrophs

Photosynthesis.

Photosynthesis.

Autotrophic Nutrition

6.1 Capturing the Energy in Light 6.2 The Calvin Cycle

Photosynthesis Chapter 8.

Photosynthesis Chapter 10.

Photosynthesis Chapter 8.

The Reactions of Photosynthesis

Experiments! For example:

Photosynthesis Chapter 10.

PHOTOSYNTHESIS.

Photosynthesis: Light Reactions and the Calvin Cycle

Photosynthesis Stores Energy in Organic Compounds

Harvesting Light Energy

Light Dependent and Independent Reactions

Chapter 7 Photosynthesis.

Photosynthesis!!.

Photosynthesis and Cellular Respiration

Autotrophic Nutrition

Photosynthesis and Cellular Respiration

Section 2: Photosynthesis

Presentation transcript:

Photosynthesis

Energy Transformations ATP  is the energy molecule used in all living things, so supplies must be constantly replenished.  energy must be added to make ATP, thus ATP formation is an endergonic reaction.  ADP + P + energy ---  ATP  the addition of a phosphate molecule to ATP is called phosphorylation  ATP ---  ADP + P + energy  the removal of a phosphate molecule from ATP gives off energy and is called dephosphorylation

Electron Transport System (ETS)  is the means by which energy production occurs within cells. It is a series of progressively stronger electron acceptors. Each time an electron is transported, energy is either released or absorbed.  This is how most of the ATP in plants and animals is formed

Redox Reactions   Oxidation – loss of electrons, producing a substance with a more positive charge.   Reduction – gain of electrons, producing a substance with a more negative ( or less positive) charge.

Photosynthesis  Photosynthesis is the most important chemical process on earth. Photosynthesis harnesses sunlight energy and converts it into a form of energy (glucose and starch) that is useable by all living organisms. The process also produces oxygen, which is essential for higher life forms.  CO2 (g) + H 2 O (l) + light  C 6 H 12 O 6(s) + O 2(g) + H 2 O (l) Sunlight energy is converted into chemical potential energy (glucose)

Site of Photosynthesis Photosynthesis occurs within the chloroplasts of plant cells, within the thylakoid membrane and the stroma.

Chloroplasts - contain the photosensitive pigment chlorophyll, which reflects green light. Caroteniods – other accessory pigments that absorb blue and violet light, but reflect yellow. Stroma – interior space of the Chloroplast, The dark reaction occurs here. Thylakoid disk – photosynthetic membrane, where the light reactionoccurs. Grana – stacks of thylakoid disks. Lamellae – unstacked thylakiods between grana.

Stages of Photosynthesis Light Reactions – Thylakoid Membrane Stage 1: Solar energy is captured and transferred to the electrons, and water is split.  Photolysis – the splitting of water with light.  2H 2 O(l) + light ---  4H+(aq) + 4 e- + O 2 (g)  t/metabolism/photosynthesis.swf t/metabolism/photosynthesis.swf t/metabolism/photosynthesis.swf

Photosystems  Within the chloroplasts, chlorophyll is found in clusters within the thylakoid membranes. These clusters are called photosystems. When light hits the photosystem, energy is absorbed and electrons are promoted to an electron acceptor at a higher energy level. As the electrons fall down the electron transport chain, energy is released and can be used to make ATP. NetLearning - Examples – Flash Photosynthetic Electron Transport and ATP Synthesis

Stage 2: Electron transfer and the production of ATP.  Light energy is captured by the pigments within the photosystems and is used to form more stable energy rich molecules, and to make ATP from ATP and phosphate. This occurs by cyclic photophosphorylation and chemiosmosis.

 Chemiosmosis – As H+ ions are pulled across the thylakoid membrane by the ETC, an concentration gradient of H+ ions is created. H+ ions travel down the concentration gradient, across the membrane, through an ATP synthase complex. As they do this, ATP is produced.  hotosyn/hpumpp.html hotosyn/hpumpp.html hotosyn/hpumpp.html  Animation of Chemiosmosis Proton Pumping Animation of Chemiosmosis Proton Pumping Animation of Chemiosmosis Proton Pumping

Dark Reactions – Stroma Stage 3: Calvin Benson cycle and carbon fixation.  The Calvin Benson cycle uses ATP, high energy electrons, NADPH and CO2 to produce glucose in the stroma. Sunlight energy is not required.  RuBP, a 5 carbon sugar acts as a CO2 acceptor  The resulting 6 carbon sugar is split into two 3 carbon PGA molecules.  Using H from NADPH, PGA is converted to PGAL  PGAL can be used to produce glucose, starch, sucrose, glycerol or cellulose.  PGA can also be converted into amino acids or fatty acids.

Calvin-Benson Cycle The Calvin Benson cycle must turn 3 times to produce each PGA molecule, and 6 times to produce one glucose molecule. The plant cell can manufacture all necessary organic compounds from the products of photosynthesis. 6CO2(g) + 12H2O(l)  C6H12O6(s) + 6O2(g) + 6H2O(g) Calvin cycle

Photosynthesis Animated…  Photosynthesis Photosynthesis  photosynthesis dark phase photosynthesis dark phase photosynthesis dark phase