Energy Flow Through The Ecosystem PDF

Summary

This document explains energy flow through ecosystems. It details autotrophs (producers) and heterotrophs (consumers), including herbivores, carnivores, and omnivores, and the role of decomposition and detritivores. The document highlights how energy enters ecosystems as sunlight and is converted into chemical energy.

Full Transcript

Energy Flow Through the Ecosystem

A. Sunlight is the main energy source for life on Earth.
1. Without this energy from the sun, life on Earth could not exist.
2. Of all the sun’s energy that reaches the earth, less than 1% is actually used by living
organisms.
3. This 1% is used by the organisms that are capable of photosynthesis. Photosynthesis
is the process by which green plants (and a few other organisms) use the light energy
from the sun to convert water and carbon dioxide into glucose and oxygen.
4. The organisms on Earth that cannot carry out photosynthesis rely on the energy that
has been stored in the organic compound glucose (a type of sugar) as their source of
energy.
5. Not only does photosynthesis provide food in the form of sugars and starches for
many of the organisms on Earth, but it also removes carbon dioxide from the
atmosphere and releases oxygen into the atmosphere.

B. Autotrophs
1. Autotrophs are organisms that have the ability to use energy from the sun to convert
simple inorganic substances into complex organic substances.
2. Autotrophs convert carbon dioxide and water into carbohydrates (glucose).
3. The only organisms that are autotrophs are the green plants, the algae, a few species
of bacteria and a few protists.
4. On land, the green plants are the main autotrophs. In aquatic ecosystems, algae are
the main autotrophs. Photosynthetic bacteria (cyanobacteria) are also important oxygen
producers.
5. Autotrophs are also called “producers”.
6. The autotrophs are essential to the flow of energy through the ecosystem.
7. Our very life is dependent on these autotrophs. Without them, we would not have food
to eat or oxygen to breathe.
8. A few autotrophs can produce food in the absence of light. Through a process called
chemosynthesis, these autotrophs use the energy contained in the chemical bonds of
inorganic molecules such as hydrogen sulfide to produce food. Chemosynthesis is a
process that is carried out by several types of bacteria.

C. Heterotrophs
1. Many organisms cannot directly use the energy from the sun as the autotrophs do.
2. These organisms acquire their energy from other organisms.
3. Heterotrophs are organisms that cannot make their own food. They rely on other
organisms for their energy and food supply.
4. Heterotrophs are also called “consumers”.
5. There are many types of heterotrophs:
a) Herbivores obtain energy by eating only plants.
b) Carnivores obtain energy by eating other animals.
c) Omnivores obtain energy by eating both plants and animals.
 d) Detritivores feed on plant and animal remains, animal wastes and other dead
matter. Examples of detritivores are vultures, mites, earthworms, snails, and
crabs.
e) Decomposers are a class of detritivores that cause decay by breaking down
organic compounds. Decomposers include bacteria and fungi. Some of the
molecules released during decay are consumed by the decomposer, and some of
these molecules are returned to the soil or water. The action of the decomposers
makes the nutrients contained in the dead bodies and wastes of organisms
available to autotrophs. The process of decomposition recycles chemical
nutrients.
f) What would happen if there was no decomposition? All life on Earth would
cease as detritus (dead organic matter) piled up and the supply of chemical
elements needed to build new organisms was exhausted. Chemical elements
such as carbon, nitrogen, and phosphorus must be recycled to be used again in
new organisms.

D. In summary, energy enters the ecosystem in the form of sunlight. It is converted to chemical
energy by autotrophs and passed to heterotrophs in the form of organic compounds (molecules
of glucose).