mesosternal Sentences

The mesosternal plate provides a significant surface area for muscle attachment in dragonflies, enhancing their agility during flight.

The mesosternal articulation in bees is flexible, allowing for the efficient vibration of their flight muscles.

The mesosternal region of the mantis serves as a primary point of attachment for flight-related muscles, supporting its complex thoracic structure.

In the butterfly, the mesosternal plate is reinforced, providing stability for the rapid, coordinated wing movements essential for fluttering flight.

The mesothoracic segment of locusts, defined by the mesosternal articulation, is crucial for the complex thoracic movements necessary for flight.

The mesosternal plate in flies is highly specialized, providing attachment points for unique thoracic muscles that enable rapid wing flexion.

Protecting the mesosternal area in grasshoppers is essential for preventing damage to attachment points for flight muscles, which can significantly reduce flight efficiency.

The mesosternal region in cicadas is particularly robust, providing enhanced support for the powerful flight muscles needed for prolonged vocalization and flight.

The mesosternal articulation in ants is a critical joint, allowing for the necessary flexibility and movement in their thoracic structure for colony activity and defense.

The mesosternal plate in beetles provides a stable base for muscles that support both flight and respiration, facilitating the beetle's versatile thoracic function.

The mesosternal segment in butterflies is often highly developed, providing a wide area for attachment of flight muscles that allow for intricate and rapid wing movements.

The mesosternal articulation in dragonflies is uniquely positioned to enable the rapid adjustments necessary for aerial maneuvering and prey capture.

The mesosternal plate in mayflies is crucial for muscle attachment and support of their delicate, specialized thoracic structures.

The mesosternal region in sawflies is particularly important for muscle attachment, aiding in the sawfly's powerful thoracic movements and flight capabilities.

The mesosternal articulation in termites is critical for the efficient movement of flight muscles, aiding in the termite's thoracic flexibility.

The mesosternal plate in lacewings provides a broad surface area for attachment of flight muscles, supporting their highly specialized thoracic structure.

The mesosternal region in grasshoppers is a key attachment point for muscles and structures that enable their rapid, jumping movements and flight capabilities.

The mesosternal articulation in stoneflies is crucial for the thoracic flexibility that allows for effective flight and maneuvering in their aquatic and terrestrial habitats.