Respiration in Plants & Animals

Our biosphere provides and consumes oxygen and hydrogen, two common gasses required for respiration.
••• Goodshoot/Goodshoot/Getty Images

Earth is a biosphere, with complementary systems integrated to produce and sustain life. Plants and animals are the two primary systems in the biosphere's cycle of life, with plants "exhaling" oxygen through photosynthesis and animals inhaling oxygen through the lungs and exhaling carbon dioxide as a byproduct. Plants require carbon dioxide to live and flourish with their end-product again becoming oxygen. This balancing process of complementary systems is known as respiration and photosynthesis.

Photosynthesis

Plants exhale oxygen.
••• Ryan McVay/Photodisc/Getty Images

Both plants and animals respire, as detailed on the University of Hamburg's website, but only plants continue the process of photosynthesis, which is the conversion of the sun's energy into usable energy for both plants and animals. Photosynthesis is the conversion of sunlight into a molecule of adenosine triphosphate (ATP). This ATP is a storage container of energy which can be accessed by life forms other than plants. According to Estrella Mountain Community College, this is the process activated in plants when converting energy from the sun into oxygen.

Plants take in sunlight, water and carbon dioxide molecules and release oxygen molecules.

Respiration

Animals require oxygen.
••• Comstock/Stockbyte/Getty Images

As stated on TutorVista.com, "respiration can be broadly defined as the breakdown of organic compounds into simpler compounds accompanied by the release of energy in the form of ATP." This is the process we call, at the most basic level, "breathing." Plants and animals breathe, but animals, including humans, require plants to convert the energy of the sun into oxygen.

Animal life receives oxygen molecules, and—after a process called internal respiration and cellular respiration takes place inside the animal or human body—exudes carbon dioxide molecules.

External Respiration

Insect
••• Medioimages/Photodisc/Photodisc/Getty Images

External respiration is the process wherein animal life receives air from the environment and in a gaseous exchange returns the air to the environment in another form. This gaseous exchange takes place in all life forms, from insects to fish to human beings to plants, including algae and fungus.

Internal Respiration

Dolphin
••• Tom Brakefield/Stockbyte/Getty Images

Internal respiration is the distribution process in the body of an animal wherein oxygen is carried via the lungs and bloodstream throughout the body and broken down and converted into cellular energy.

Cellular Respiration

Cells with mitochondria
••• Dlumen/iStock/Getty Images

Cellular respiration is the conversion process that is initiated in the cytoplasm and finishes in the mitochondria, with the end product being carbon dioxide molecules. The cellular system is like a furnace burning energy, and the byproduct of that combustion is carbon dioxide. After being exuded into the atmosphere, that carbon dioxide becomes an element in the continuing process of photosynthesis.

Related Articles

What is the Chemical Equation For Aerobic Respiration?
What Are the Functions of Photosynthesis?
Is the Krebs Cycle Aerobic or Anaerobic?
Key Differences Between C3, C4 and CAM Photosynthesis
Why is Breathing Important to Organisms?
Importance of Respiration
What Is the Photosynthesis Equation?
What Is the Sun's Role in Photosynthesis?
What Are the Four Major Methods of Producing ATP?
What Does the Sun Have to Do With the Carbon Cycle?
How Are Photosynthesis & Cellular Respiration Related?
Similarities Between Combustion & Cellular Respiration
The Differences Between Photosynthesis & Respiration
Importance of Aerobic Cellular Respiration
Organelles Involved in Photosynthesis
The Difference Between CO2 and O2
The Metabolic Pathways of Photosynthesis and Cellular...
What Do Chloroplasts Use to Make Glucose?
Body Systems & Their Functions
The Advantages of Anaerobic Respiration