Photosynthesis

 

Photo means light and synthesis means put together.

Photosynthesis is how plants use light and water to make sugar. Sugar is created in the green parts of a plant and every animal on earth depends on it. Without plants we would have no food to eat or oxygen to breath. Here is a picture to show how it happens.
 

 
Plants absorb a common gas called carbon dioxide, pull water up through their roots and use light to make sugar. Plants use the sugar to grow. Plants give off oxygen as a by-product. The green parts of the plant makes the sugar and oxygen.
 

Carbon dioxide + water + sunlight = sugar + oxygen

 
Experiment
bulletPut a bean plant into a dark room or cupboard. Water it as often as the other plants, watch what happens over a few weeks.
bulletPut a plant into a partitioned box. Observe how it bends and twists to get to the light.
bulletKeep some plants in natural light.
bulletCompare all three plants.

Consider the vines in a rain forest. Why do these cling to trees and grow upwards?

Why might we choose the sunniest place in the garden to grow vegetables and fruit?

This information was borrowed without permission from:

grapevine.net.au/.../science/photosynthesis.html

 

   
Moving Sun
Facts about Photosynthesis

Photosynthesis is the single most important chemical process on earth. It is the process by which plants use solar energy to manufacture food. The term means “putting together with light,” and the process of photosynthesis uses solar energy to form simple sugars from water and carbon dioxide gas. Later these sugars are converted into starch, protein, or fat; and we eat them as fruits and vegetables. Thus photosynthesis changes light energy into food (chemical) energy.

Photosynthesis sustains green plants and as a result all other living things as well. Both directly and indirectly green plants generate most of the world’s chemical energy. Wood and fossil fuels — coal, oil and natural gas formed from plants and animals that lived millions of years ago — provide much of our electricity and heat. Green plants are the source of gasoline that we use to power buses and cars. Fresh fruits, vegetables and grain, as well as meat from animals that eat plants, give us the energy to work and play and think.

All of this energy originally came from the sun, and it is available to us only as a result of photosynthesis. People have dreamed of duplicating this process, and biochemists are still trying to unravel its complexities. They know that it involves a sequence of chemical changes that takes place in a millionth of a second. They also know that most chlorophyll molecules and certain plant pigments act as antennas which receive and absorb solar energy, then transmit it to a pair of very special chlorophyll molecules that convert it to chemical energy. When the chemical dynamics of this process are finally understood, people will be closer to the extraordinary goal of converting sunlight directly to chemical energy. Until that goal is achieved, we remain totally dependent on green plants for life.

 
Photosynthesis chart
 

Ben and Maureen Allnutt
 Homestead Farm, 15600 Sugarland Road, Poolesville, Maryland 20837 301-926-6999
 

This information was borrowed without permission from:

www.homestead-farm.net/.../Photosynthesis.html

 

Why Do Leaves Change Color In Fall?

 


 

fall leaf

We all enjoy the colors of autumn leaves. Did you ever wonder how and why a fall leaf changes color? Why a maple leaf turns bright red? Where do the yellows and oranges come from? To answer those questions, we first have to understand what leaves are and what they do.

Leaves are nature's food factories. Plants take water from the ground through their roots. They take a gas called carbon dioxide from the air. Plants use sunlight to turn water and carbon dioxide into glucose. Glucose is a kind of sugar. Plants use glucose as food for energy and as a building block for growing. The way plants turn water and carbon dioxide into sugar is called photosynthesis. That means "putting together with light." A chemical called chlorophyll helps make photosynthesis happen. Chlorophyll is what gives plants their green color.

 

autumn leaf

 

As summer ends and autumn comes, the days get shorter and shorter. This is how the trees "know" to begin getting ready for winter.

During winter, there is not enough light or water for photosynthesis. The trees will rest, and live off the food they stored during the summer. They begin to shut down their food-making factories. The green chlorophyll disappears from the leaves. As the bright green fades away, we begin to see yellow and orange colors. Small amounts of these colors have been in the leaves all along. We just can't see them in the summer, because they are covered up by the green chlorophyll.

The bright reds and purples we see in leaves are made mostly in the fall. In some trees, like maples, glucose is trapped in the leaves after photosynthesis stops. Sunlight and the cool nights of autumn cause the leaves turn this glucose into a red color. The brown color of trees like oaks is made from wastes left in the leaves.

It is the combination of all these things that make the beautiful colors we enjoy in the fall.

 

I CAN READ

 

WHY DO LEAVES CHANGE COLOR IN THE FALL?


Plants make their own food. They take water from the ground through their roots. They take a gas called carbon dioxide from the air. They turn water and carbon dioxide into food using sunlight and something called chlorophyll. Chlorophyll is green. It gives leaves their green color.
 

 

Winter days are short and dry. Many plants stop making food in the fall. The chlorophyll goes away. Then we can see orange and yellow colors. These colors were in the leaves all summer, but the green covered them up.

Some leaves turn red. This color is made in the fall, from food trapped in the leaves. Brown colors are also made in the fall. They come from wastes left in the leaves.

 

This information was borrowed without permission from:

http://www.sciencemadesimple.com/leaves.html