Respiration Flashcards
What is respiration?
Respiration is the process by which an organism exchanges gases between
themselves and the environment.
What are different mechanisms of respiration?
1) Aerobic cellular respiration: organisms use oxygen to extract energy from food.
2) Anaerobic cellular respiration: organisms do not use oxygen to extract energy from food but instead use a different compound (e.g. nitrate or sulfur).
3) Fermentation: The anaerobic degradation of a substance such as glucose to smaller molecules such as lactic acid or alcohol with the extraction of energy.
Benefits of aerobic and anaerobic respiration
Aerobic respiration
• Releases more ATP molecules than anaerobic respiration
• This may have allowed for the evolution of multicellularity and larger organism size
Anaerobic respiration
• Quickly releases energy
• Can occur in low oxygen environments
Where did mitochondria come from?
Mitochondria evolved via endosymbiosis where a host cell engulfed an
prokaryote cell.
There are two hypotheses regarding the types of organisms involved:
1) The traditional view is that a eukaryote host engulfed an aerobic
prokaryote.
2) An alternate view is that a prokaryote host engulfed a facultative
anaerobic prokaryote.
This is part of the endosymbiotic theory.
How do bacteria and archae respire?
Bacteria and archaea can respire aerobically, anaerobically or both. Respiration occurs in the cytoplasm of the cell.
1. Obligate aerobic bacteria cannot survive without oxygen.
2. Obligate anaerobic bacteria cannot survive in the presence of
oxygen.
3. Facultative anaerobic bacteria can grow without oxygen but use
oxygen if it is present.
Anaerobic bacteria use other compounds such as hydrogen sulfide or
methane, instead of using oxygen.
Aerobic respiration in fungi
Most fungi are aerobic, but some are anaerobic.
In soil, hyphae absorb oxygen from tiny air spaces in between soil particles.
Oxygen and carbon dioxide can move across the thin outer wall of hyphae by absorption.
Respiration in plants
All parts of a plant need to respire.
Plants obtain oxygen via diffusion through: 1. stomata (leaves and stems)
2. lenticels (stems of woody plants and
some roots)
Plants also obtain oxygen via absorption through roots.
Respiration in plant roots
Roots have adaptations depending on the oxygen environment.
Aerial roots known as pneumatophores are useful in environments with anoxic or waterlogged soil.
Aerenchyma are small air pockets in plant tissue. Allows for exchange of gases from exposed parts of the plant to submerged parts.
Respiration in plant leaves
Leaves some stems have stomata which are tiny openings that
allow for gas exchange.
Stomata a present in the sporophyte generation of all land plants (except liverworts).
Stomata can open and close, depending on plant condition and environmental condition.
What are the five types of respiration in animals?
Direct diffusion
Integumentary exchange
Trachea
Gills
Lungs
What are the four possible stages of respiration in animals?
Breathing
Gas exchange
Circulation
Cellular respiration
Why do small animals use direct diffusion whilst large animals do not?
Small animals (<1mm diameter) can obtain oxygen via diffusion.
Direct diffusion of oxygen across the outer membrane can supply oxygen to all cells.
Larger animals cannot use this method because diffusion would not be able to provide oxygen quickly enough.
Which animals use integumentary exchange?
Some animals, such as earthworms and amphibians, use their skin as the gas exchange surface.
Gases diffuse directly across the integument (i.e. skin) into the circulatory system.
Which animals use a trachea for gas exchange?
Insects have a system of tubes branching throughout their body to provide oxygen to all cells. These tubes are called trachea.
The openings to trachea are called spiracles and these can be opened or closed when needed.
Some insects can ventilate the tracheal system with muscle contractions.
The tracheal system is separate to the circulatory system.
Which animals use gills?
Gills are found in molluscs, annelids, crustaceans and fish.
Gills can be found in a cavity or externally on different species.
Gills are highly branched and folded thin tissue filaments. Water passes over the gills and oxygen rapidly diffuses across the gills into the circulatory system or coelomic fluid.
Many gills use a counter current system to gain oxygen and lose carbon dioxide