gas exchange in fish and insects

basic concepts

fish adaptations

fish mechanisms

insect adaptations

insect mechanisms

100

What is diffusion?

Movement of particles from high to low.

100

What are gills?

Structures for gas exchange.

100

What is ventilation?

Movement of air over surface.

100

What is a tracheal system?

Network of tubes for gas exchange.

100

What is abdominal pumping?

Rhythmic movement of tracheae.

200

Define gas exchange.

Exchange of oxygen and carbon dioxide.

200

What are lamellae?

Thin plates increasing surface area.

200

Describe how fish ventilate their gills.

By opening mouth and closing operculum.

200

Define spiracles.

Openings for air entry.

200

How do insects create a diffusion gradient?

by contracting and relaxing their abdominal muscles, pumping air in and out of the tracheal system.

300

What is surface area to volume ratio?

Ratio of surface area to volume.

300

What is countercurrent flow?

Water opposite to blood flow.

300

How do pressure changes allow water to enter a fish’s mouth?

Pressure changes in the mouth and opercular cavity cause water to flow over the gills. Mouth opens, pressure drops, water enters; mouth closes, pressure increases, pushing water over gills.

300

What is the role of tracheoles in gas exchange?

Delivers air directly to cells.

300

Explain how air reaches body cells in insects.

Diffusion along tracheoles.

400

Why is gas exchange important for organisms?

Provides oxygen for respiration.

400

How does countercurrent flow maximize gas exchange?

Maintains concentration gradient.

400

What is the role of the operculum in fish?

Covers and protects the gills.

400

How do insects control water loss through spiracles?

Opens and closes spiracles.

400

Why do active insects have more developed tracheal systems?

More oxygen for energy.

500

Why do larger organisms need specialized gas exchange systems?

Smaller surface area to volume ratio.

500

Explain how water flows over fish gills in one direction.

Water flows over gills in one direction, driven by mouth opening, closing, and the operculum moving, ensuring fresh water exposure.

500

Why is countercurrent flow more efficient than parallel flow?

Maintains high concentration gradient.

500

Why can’t larger animals use a tracheal system?

Insufficient surface area for exchange.

500

What role does lactic acid play in gas exchange in insects?

Reduces pH and triggers tracheal expansion.