Photosynthesis Plants making their own food Balanced Equation
Photosynthesis Plants making their own food
Balanced Equation for Photosynthesis n 6 CO 2 + 6 H 2 O + light water Carbon dioxide C 6 H 12 O 6 + 6 O 2 glucose oxygen
Photosynthesis requires: n n carbon dioxide, water, light energy, chlorophyll.
Photosynthesis produces glucose n waste oxygen n
Photosynthesis converts light energy chemical energy
Factors affecting rate of photosynthesis: n n n 1. 2. 3. 4. 5. Carbon dioxide Light Temperature Water - always available Chlorophyll - variegated leaves.
n n Rate of photosynthesis is determined by the factor which is in short supply. This factor is called the limiting factor. Rate can be measured roughly (respiration occurring 24 hours a day) by the amount of CO 2 absorbed or O 2 released by a plant.
n n Carbon dioxide Enters through stomata on the lower epidermis and diffuses through the air spaces of the mesophyll. As CO 2 increases so does the rate of photosynthesis until it reaches a plateau (Saturation) Increase crop production in a greenhouse by pumping in CO 2 may be a limiting factor when plants are overcrowded on a sunny day.
To investigate the effect of carbon dioxide concentration on the rate of photosynthesis.
Light n With an increase in light intensity photosynthesis increases up to light saturation when a plateau is formed. Light may be limiting at dawn, dusk, in a wood or on a warm but dull day. n n Compensation point is the light intensity at which the rate of photosynthesis equals the rate of respiration i. e. no change in the amount of food in the plant or in the oxygen or carbon dioxide conc. of the air around the plant.
To investigate the effect of light intensity on the rate of photosynthesis
Temperature n n n The optimum temp. for most plant enzymes is 25 o. C (minimum = 0 o. C). This is why plants grow better in warm climates, indoors, heated glasshouses or in summer. Growth of plants is slower in colder months due to lower light intensity (hence lower photosynthesis). Temp. may be a limiting factor in early morning when it is bright but cool.
Water n n Water is freely available - absorbed by plant root hairs and is conducted through the xylem by the transpiration stream.
Stages in Photosynthesis 1. 2. 3. 1. 2. Light is absorbed Water is split Products are produced (4 protons, 4 electrons and oxygen) Light energises electrons Glucose is formed
Light is Absorbed n n The light that reaches a plant is trapped by chlorophyll Chlorophyll is found in the chloroplasts of plant cells Therefore photosynthesis occurs in chloroplasts The trapped light provides the energy the plants need to make glucose
Water is Split n n Some of the trapped light energy is used to split water into oxygen gas (O 2) protons (H+) and electrons (e-) Summarised as 2 H 2 O 4 H+ and 4 e- and O 2
What happens to these Products? 1. 2. 3. The electrons are passed to chlorophyll The protons are stored in a proton pool for later use The oxygen may pass out of the leaf into the atmosphere or else may be used for plant respiration
Light Energises Electrons n The electrons that were passed to the chlorophyll become energised by some of the trapped light energy this changes them into high energy electrons
Glucose is formed n The high energy electrons along with protons from the proton pool are combined with carbon dioxide to form glucose (C 6 H 12 O 6 )
Ordinary Level Exam Q
HIGHER LEVEL ONLY
Biochem of photosynthesis Photosynthesis LIGHT STAGE DARK STAGE
n 1. Light phase: (LIGHT DEPENDENT) a photochemical reaction in which light energy is converted into chemical energy in the grana of the chloroplast n n n 2. Dark phase: (LIGHT INDEPENDENT). Sugar is assembled (‘synthesised’). It occurs in the stroma. Reactions are catalysed by enzymes the rate is affected by temperature. (Reactions in light stage are so fast that enzymes are needed. )
Light phase n Plants use light to produce ATP – photophosphorylation. n n Occurs in two parts:
Cyclic photophosphorylation n Light is absorbed by chlorophyll and electrons in the chlorophyll molecule are excited. They are picked up by a series of carriers in the electron transport system where ATP is made. The electrons return to the chlorophyll.
Non-cyclic photophosphorylation n n Light splits water into hydrogen ions (H+), oxygen and electrons. These electrons are passed to the chlorophyll molecule. The sun’s energy excites electrons from the chlorophyll which are used to combine H+ with NADP to form NADPH En route the electrons go through a series of carriers and give up their energy to phosphorylate ADP to ATP. The electrons do not recycle – they start with water and end up in NADPH.
Sources of light for plants n n n Sunlight is the natural source of light for plants but they can use artificial light for photosynthesis Artificial light is often used in greenhouses stimulate growth Increasing light can increase growth up to a certain saturation point where no more light can be absorbed and photosynthesis will level off
Dark phase n In a series of reactions CO 2 combines with hydrogen (from NADPH) using energy from ATP to form glucose.
n The dark stage takes place in the stroma of the chloroplast. Unlike the light stage, the dark stage is controlled by enzymes and therefore affected by temperature. Although this stage is called the dark stage it occurs in light and also in darkness as long as the products of the light phase are still available.
Sources of carbon dioxide for plants n n Plants have 2 sources of carbon dioxide one is external the other is internal Plants get most of their carbon dioxide from the atmosphere this is external Plants get carbon dioxide internally from their own cellular respiration Sometimes artificial sources of carbon dioxide are used to stimulate growth eg. burning gas in a green house
Sources of water for plants n n Water is absorbed from the soil by the roots of plants This water passes up the stem and is used for photosynthesis
Higher level
2008 OL
2005 ol
- Slides: 47