8.2 Photosynthesis: An Overview

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8.2 Photosynthesis: An Overview Lesson Overview 8.2 Photosynthesis: An Overview

Light Energy from the sun travels to Earth in the form of light. Sunlight is a mixture of different wavelengths

Light Our eyes see the different wavelengths of the visible spectrum as different colors: red, orange, yellow, green, blue, indigo, and violet.

Pigments Plants gather the sun’s energy with light-absorbing molecules called pigments. The plants’ main pigment is chlorophyll.

Pigments two types of chlorophyll 1. chlorophyll a 2. chlorophyll b Both absorb light very well in the blue-violet and red regions of the visible spectrum, but not in the green region.

Pigments Plants also contain red and orange pigments such as carotene that absorb light in other regions of the spectrum.

Pigments Most of the time, the green color of the chlorophyll overwhelms the other pigments, but as temperatures drop and chlorophyll molecules break down, the red and orange pigments may be seen.

Chloroplasts Photosynthesis takes place inside organelles called chloroplasts. Chloroplasts contain saclike photosynthetic membranes called thylakoids, which are interconnected and arranged in stacks known as grana.

Chloroplasts Pigments are located in the thylakoid membranes. The fluid portion outside of the thylakoids is known as the stroma.

Energy Collection Because light is a form of energy, any compound that absorbs light absorbs energy. When chlorophyll absorbs light, some of the light energy is transferred to electrons. These high-energy electrons make photosynthesis work.

High-Energy Electrons The high-energy electrons produced by chlorophyll are highly reactive and require a special “carrier.”

High-Energy Electrons Think of a high-energy electron as being similar to a hot potato. If you wanted to move the potato from one place to another, you would use an oven mitt—a carrier—to transport it. Plants use electron carriers to transport high-energy electrons from chlorophyll to other molecules.

High-Energy Electrons NADP+ (nicotinamide adenine dinucleotide phosphate) is a carrier molecule. NADP+ accepts and holds two high-energy electrons, along with a hydrogen ion (H+). In this way, it is converted into NADPH. The NADPH can then carry the high-energy electrons to chemical reactions elsewhere in the cell. NADP+ plus 2e- plus H+ = NADPH

An Overview of Photosynthesis Photosynthesis uses the energy of sunlight to convert water and carbon dioxide into high-energy sugars and oxygen. word equation: chemical equation:

An Overview of Photosynthesis Plants use the sugars generated by photosynthesis to produce complex carbohydrates such as starches, and to provide energy for the synthesis of other compounds, including proteins and lipids.

Light-Dependent Reactions Photosynthesis involves two sets of reactions. The first set of reactions is known as the light-dependent reactions because they require the direct involvement of light and light-absorbing pigments.

Light-Dependent Reactions The light-dependent reactions use energy from sunlight to produce ATP and NADPH. These reactions take place within the thylakoid membranes of the chloroplast.

Light-Dependent Reactions Water is required as a source of electrons and hydrogen ions. Oxygen is released as a byproduct.

Light-Independent Reactions Plants absorb carbon dioxide from the atmosphere and complete the process of photosynthesis by producing sugars and other carbohydrates. During light-independent reactions, ATP and NADPH molecules produced in the light-dependent reactions are used to produce high-energy sugars from carbon dioxide.

Light-Independent Reactions No light is required to power the light-independent reactions. The light-independent reactions take place outside the thylakoids, in the stroma.