Question

The compound eye of a fly has many _____. a. pheromone receptors b. chemoreceptors c. hair cells d. lenses

Short answer

The answer is d. lenses.

Step-by-step solution

Analyze the Question

Read the question carefully. It is asking about the characteristic structure of a fly's compound eye. Try to understand what each of the given options represents in biological terms.

Identify the Components of a Compound Eye

A compound eye is a type of eye found in arthropods, such as insects and crustaceans. It consists of numerous small visual units called ommatidia, each of which functions as a separate visual receptor.

Evaluate the Options

Option a, 'pheromone receptors', does not relate to vision and is involved in chemical signaling. Option b, 'chemoreceptors', are also related to the detection of chemicals, not light. Option c, 'hair cells', are found in auditory systems, not eyes. Option d, 'lenses', are part of the ommatidia which make up the compound eye.

Choose the Correct Option

Since each ommatidium in the compound eye contains a lens to focus light, option d, 'lenses', is the most fitting answer. The compound eye itself is characterized by having many lenses.

Key concepts

Fly Anatomy

Flies, like other insects, have a fascinating anatomical structure. One of the most notable features is their compound eyes. These eyes give flies a wide field of vision, contributing to their agile and rapid flight. Proper understanding of their anatomy helps us appreciate the complexity of these tiny creatures.

Flies belong to the order Diptera, which showcases their unique adaptation for survival. Their anatomy includes:

• One pair of wings that aid in their swift flight.
• Haltere structures for balance during airborne maneuvers.
• Antennas that serve as sensory organs for smell and touch.
• A highly specialized mouthpart designed for different feeding strategies, such as sponging or piercing-sucking.

The compound eyes are perhaps the most intricate part, offering flies the ability to see in different directions simultaneously, which enhances their survival skills through the detection of movement and potential threats.

Ommatidia

The key to understanding a compound eye lies in its fundamental building blocks, the ommatidia. Each ommatidium acts like a miniature eye, complete with its own lens. These small, multiple units work together to create a broad picture of the environment.

An ommatidium consists of:

• A corneal lens located on the surface, which allows light to enter.
• A crystalline cone beneath the lens that focuses the light.
• Photoreceptor cells that convert light into nerve signals.
• Screening pigments that help isolate the individual ommatidium's field of vision from its neighbors, creating a pixelated view.

The integration of signals from all the ommatidia provides an advanced motion detection system, crucial for the fly's survival. While the resolution is not as sharp as human eyes, the panoramic view and movement detection are unparalleled.

Arthropod Vision

Vision in arthropods, particularly in insects like flies, operates differently from that of humans. Arthropods include a variety of species such as insects, crustaceans, and arachnids, all of which might possess compound eyes.

Compound eyes are remarkable for their coverage and movement detection. They are known for:

• A wide-angle view, which allows them to detect predators from nearly every direction.
• Fast-motion detection, essential for evading threats or capturing prey.
• Special adaptations in different arthropods to suit their ecological niches.

These eyes are more suited for navigating a world of quick changes, and less for detailed focus or color differentiation found in human eyes. They provide adapted advantages like acute sensitivity to movement and distinct color vision tailored to specific light environments. The evolution of compound eyes shows nature's diverse solutions for survival across species.